Project Reports & Profiles » Investment Opportunities & Business Ideas in Oman, Middle East - Identification and Selection of right Project, Thrust areas for Investment, Industry Startup and Entrepreneurship Projects

Investment Opportunities & Business Ideas in Oman, Middle East - Identification and Selection of right Project, Thrust areas for Investment, Industry Startup and Entrepreneurship Projects

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Edible Oil Refinery from Crude Palm Oil
Edible Oil Refinery from Crude Palm Oil. Palm Oil Processing Business. Crude Palm Oil Refining Plant Palm oil is a fatty edible vegetable oil, yellowish in color, derived from the flesh and the kernel of the fruit of the oil palm tree. The oil palm tree is a tropical, single stemmed tree having feather like leaves that gains a height of around 20 meters. The fruits of this tree, that are also the sources of the palm oil grow in bunches, are reddish in color, bigger than plums in size and have a single seeded kernel inside. Crude Palm Oil (CPO) is one of the most important edible oil in India. Palm oil is one of the few vegetable oils known to be rather high in saturated fats, and it comes close to soybean oil as one of the most widely-produced vegetable oils in the world. Crude Palm Oil (palm fruit oil) is the more dominant of the two. It comes from the orange flesh (mesocarp) that surrounds the palm seed of the fruit, and is comprised of approximately 37 percent monounsaturated fat, 50 percent saturated fat, and 9 percent polyunsaturated fat. It is semi-solid at room temperature and reddish in color in its unrefined (crude) state due to the presence of carotenoids and tocotreinols, which the human body converts to vitamin A and vitamin E respectively. CPO is processed and used widely across food (cooking oil, confectionary, margarines, ice creams and more), pharmaceuticals (anti-ageing and skin healing products), oleochemicals (cleaning and industrial products and lubricants), and energy (as feedstock for biomass production). Palm oil is edible oil hich is extracted from the pulp of fruit of oil palms. The color of pulp is red. That's why crude palm oil is naturally similar to pulp color because of high inactive vitamin A content. It is different from kernel oil or coconut oil. Commonly it is combined or mixed with coconut oil to make highly saturated vegetable fat, which is also used for cooking purposes. Palm Oil Uses: Palm oil can be used both as a crude oil as well as in the refined form. Only one quarter of the palm oil and palm kernel oil worldwide is used as a crude oil. In Southeast Asia, Africa and parts of Brazil, crude palm oil is widely used for domestic cooking. Main usage of CPO is for cooking purposes and is largely used in South-East Asia, West Africa and some parts of Brazil. Commercial kitchens use it due to its low cost. It's not healthy as its counterparts due to high content of saturated fats. Largest producer of CPO is Indonesia, Malaysia, Nigeria and Columbia. They are major exporters of palm oil. India is net importer of Crude Palm Oil and Mumbai being one of the major trading centers. It is also used for making bio diesel and one of it’s by product is Glycerin. Crude Palm Oil Refining Process Crude palm oil refining process is through take off impurity, degumming, decoloring, deodorization, removeing wax, fractionation etc., to achieve different standards edible oil. Crude palm oil refining process is suitable for refining various crude vegetable oil, such as sunflower seed oil, tea seed oil, groundnut oil, cottonseed oil, palm oil, rice bran oil, soybean oil, corn oil and palm oil, etc. Palm oil refining industries are most important manufacturing sectors in the world and Palm oil has become an increasingly important vegetable oil in the world market and today is the largest traded vegetable oil in the world. Malaysia is the largest producer and exporting company of Crude Palm oil. Crude Palm oil is obtained from mesocarp part of palm oil. Extracted Crude Palm oil contains some undesirable impurities and these some of the impurities need to be removed partially or completely through the refining process in order to produce good edible oil that have better stability and keepability. Now a day’s Palm oil is popular cooking oil in some tropical countries like South East Asia, Africa, and some parts of Brazil. It is broadly used in other countries because of lower cost and good oxidative stability. Palm oil is used widely for cooking due to its heat resistant property as compared to any other vegetable oil. Palm oil physical refining process Oil physical refining process, also called as oil steam refining. During the degumming section in the palm oil milling plant, the gum will be removed from palm oil by utilizing phosphoric acid or citric acid. Next to bleaching section, the coloring matter and other metal ions will be absorbed or removed. Then, in the deacidification and deodorization section, the crude palm oil will be processed within low pressure and high temperature. Through live stem, the FFA will be stripped of and the odors and colors will be removed or absorbed. Palm oil chemical refining process During the palm oil chemical refining process, the FFA will be removed and the neutralized crude palm oil and soap stock will be produced. And the soap stock will be separated from palm oil by using of high-speed separator. And the color pigments and the metal ions will be removed from the neutralized oil. If the crude palm oil contains high carotene, high FFA (more than 5%) and relative low phosphatides, it will be great to have the chemical refining process to reduce the refining losses and the operation costs. Indian Scenario India is the largest importer of Crude Palm Oil with an annual average imports of approximately 50 lac MT. India imports bulk of its palm oil requirement from Indonesia. Palm oil being the cheapest among the edible oil segment is widely consumed among the Indian household. Kandla, JNPT, Chennai, Kakinada, Haldia are the major port for imports in India. India palm oil market size is anticipated to reach USD 13.1 billion by 2025 refined derivatives are widely being utilized in food owing to their lower price in comparison to other conventional edible oils derived from groundnut, soybean and sunflower. Rapid urbanization, and changing lifestyles backed by increasing disposable income in India have influenced consumption trends of consumers. Increasing consumption in food & beverages and cosmetics industry is a key factor likely to boost overall growth. A positive factor in the Indian production scenario is a significant growth in the acreage, which registered a CAGR of approximately 20% over the past five years. Crude palm oil was the largest palm oil derivative and accounted for over 75% of total market volume in 2014. Crude palm oil is widely used for cooking purposes. Low price of crude palm oil compared to its counterparts make it the most favorable cooking oil particularly in West Africa and South East Asia. Crude palm oil is also expected to witness the highest growth of 7.5% from 2015 to 2022. Palm oil derivative segment includes crude palm oil, palm kernel oil, palm kernel cake, and others. The crude oil segment was a leading segment among the other palm oil derivative in the global palm oil market in 2015 owing to growing applications such as edible oil, surfactants, cosmetics, biofuel, and lubricants. On the basis of application, palm oil market is divided into edible oil, cosmetics, biodiesel, lubricants, surfactants and other applications. Edible oil segment is expected to witness strong growth in upcoming years owing health concerns regarding trans-fat consumption. The global palm oil market is expected to grow with rising global population, increasing biofuels production, increasing fresh fruits bunches yields, accelerating economic growth and growing application in various markets. Key trends of this market includes rising demand for red palm oil, increasing sustainable palm oil production and growing shift towards palm crop transplanting. One of the key factors resulting in the growth of the global palm oil market is the low prices of palm oil, making it affordable to consumers in emerging economies. Therefore, palm oil is popular and consumed in high volumes in Asian and African countries. The low production cost results in decreased prices for palm oil. Growing population, economic growth and rising disposable income will drive India’s vegetable oil consumption growth, which is expected to grow by three per cent annually to exceed 34 million tonnes by 2030. Increasing income, urbanization, changing food habits and deeper penetration of processed foods will be key drivers of future consumption growth of edible oil in the country. The global edible oil market is anticipated to witness a substantial growth owing to increasing popularity of unrefined, unprocessed, healthy, and organic oil. In the coming years, vegetable oils with low cholesterol, fat, and calories are likely to gain high response due to growing health awareness among people across the world. In addition, major improvement in retail network, increasing crop yields, oil production, and growing economies are some of the prominent factors supporting the growth of the global edible oil market. Furthermore, growing popularity of canola oil, trans-fat free soybean oil, and emerging preference for olive oil will drive the global market for edible oil. The retail segment is expected to drive the sales of edible oils on account of strong supply chain of chain of edible oil products and established chain of retail outlets. Vegetable oil consumption has increased in developing countries due to increasing demand from growing population, surging retail sector, and rise in overall household income. Additionally, manufacturers of edible oils are adopting advanced processing technique to offer healthier and affordable oil. However, they lack in the production of edible oil in comparison with incoming demand. The global edible oil market is anticipated to witness a substantial growth owing to increasing popularity of unrefined, unprocessed, healthy, and organic oil. In the coming years, vegetable oils with low cholesterol, fat, and calories are likely to gain high response due to growing health awareness among people across the world. In addition, major improvement in retail network, increasing crop yields, oil production, and growing economies are some of the prominent factors supporting the growth of the global edible oil market. Furthermore, growing popularity of canola oil, trans-fat free soybean oil, and emerging preference for olive oil will drive the global market for edible oil. Tags Edible Oil Refinery, Processing and Refining of Edible Oils, Edible Oil Refinery Plant, Edible Oil Refining Process, Vegetable Oil Refining Plant, Edible Oil Plant, Edible Oil Processing, Edible Oil Refinery Process Flow Diagram, Edible Oil Refinery Project Cost, Edible Oil Refining Process PPT, Refining of Edible Oil, Edible Oil Refinery Process Pdf, Edible Oil Processing Plant, Cost of Setting Up a Small and Medium Scale Edible Oil Refinery Plant, Small Scale Oil Refinery, Edible Oil Refinery Project, Project Report on Edible Oil Manufacturing, Investment Opportunity in Edible Oil Manufacturing Unit, Crude Palm Oil Refinery, Palm Oil Refinery Plant, Crude Palm Oil Refining Unit, Palm Oil Refining, Crude Palm Oil Refining Plant, Vegetable Oil Refinery, Palm Oil Refinery in India, Palm Oil Refinery Plant Cost, Palm Oil Processing Plant Cost in India, How to Start a Palm Oil Processing Business? Palm Oil Processing Business, Extraction and Refining of Crude Palm Oil, Crude Palm Oil to Refined Oil, Starting a Palm Oil Processing Unit, Palm Oil Industry, Project Report on Palm Oil Processing Industry, Detailed Project Report on Crude Palm Oil Refining Unit, Project Report on Edible Oil Refinery, Pre-Investment Feasibility Study on Crude Palm Oil Refining Unit, Techno-Economic feasibility study on Crude Palm Oil Refining Unit, Feasibility report on Edible Oil Refinery, Free Project Profile on Crude Palm Oil Refining Unit, Project profile on Edible Oil Refinery, Download free project profile on Edible Oil Refinery
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Fiber Optic Cable Production
Fiber Optic Cable Production. Optical Fiber Cable Manufacturing Industry An optical fiber cable is a type of cable that has a number of optical fibers bundled together, which are normally covered in their individual protective plastic covers. Optical cables are used to transfer digital data signals in the form of light up to distances of hundreds of miles with higher throughput rates than those achievable via electrical communication cables. All optical fibers use a core of hair-like transparent silicon covered with less refractive indexed cladding to avoid light leakage to the surroundings. Due to the extreme sensitivity of the optical fiber, it is normally covered with a high-strength, lightweight protective material like Kevlar. Optical fiber cable is widely used in fiber optic communications. Fiber optic cables find many uses in a wide variety of industries and applications. Some uses of fiber optic cables include: • Medical Used as light guides, imaging tools and also as lasers for surgeries • Defense/Government Used as hydrophones for seismic and SONAR uses, as wiring in aircraft, submarines and other vehicles and also for field networking • Data Storage Used for data transmission • Telecommunications Fiber is laid and used for transmitting and receiving purposes • Networking Used to connect users and servers in a variety of network settings and help increase the speed and accuracy of data transmission • Industrial/Commercial Used for imaging in hard to reach areas, as wiring where EMI is an issue, as sensory devices to make temperature, pressure and other measurements, and as wiring in automobiles and in industrial settings • Broadcast/CATV Broadcast/cable companies are using fiber optic cables for wiring CATV, HDTV, internet, video on-demand and other applications Fiber optic cables are used for lighting and imaging and as sensors to measure and monitor a vast array of variables. Fiber optic cables are also used in research and development and testing across all the above mentioned industries. Market Outlook India optical fiber cables (OFC) market is projected to grow at a CAGR of 17% through 2023. Growth in the market is majorly expected to be backed by rising investments in OFC network infrastructure by the Indian government to increase internet penetration across the country, which is in line with the government’s initiatives such as Smart Cities Vision and Digital India. Moreover, growing demand for OFC from IT & telecom sector, rising number of mobile devices, increasing adoption of FTTH (Fiber to the Home) connectivity and surging number of data centers is anticipated to fuel optical fiber cables market in India over the coming years. A huge number of working class population in India own high-end smartphones supporting various technologies such as Wi-Fi, 3G, etc. This class of consumers, in particular, is boosting the demand for on-the-go high speed data services. As a result, the government of India has announced various projects to build and strengthen OFC network for addressing the country’s increasing data transmission requirements. In addition, digitization of cable TV network has been mandated in the country, which is further propelling the demand for OFC network. Currently, the major users of OFCs include telecom service providers, internet service providers, multiple system operators, Cable TV operators, defense agencies and PSUs among others. The OFC market in India is projected to reach USD424 million by 2020 on account of growing adoption of smartphones, broadband services and upcoming 4G rollout. Indian consumers are increasingly shifting towards internet driven applications such as video on demand, HDTV, etc., which is boosting investments towards OFC network expansion throughout the country. In comparison to copper cables, OFC technology delivers much higher bandwidth, which has become extremely vital for supporting burgeoning data traffic. Growth in the market is majorly expected to be backed by rising investments in OFC network infrastructure by the Indian government to increase internet penetration across the country, which is in line with the government's initiatives such as Smart Cities Vision and Digital India. India optical fiber cables (OFC) market is expected to grow robustly due to expansion of telecom infrastructure throughout the country over the next five years. Being the second largest telecom market worldwide, India exhibits high data traffic owing to increasing penetration of smartphones and growing demand for broadband services, thereby creating significant demand for OFC installations. Consumers are increasingly shifting towards internet driven applications like HDTV, video on demand and high-speed file sharing. To address the soaring demand for high speed data transmission, the government of India along with telecom giants is investing substantial capital in upgrading the country’s telecom infrastructure. The existing network of copper cables is being over hauled by using advanced fiber optic technology. All these factors are consequently providing a considerable thrust to the OFC market in India. In recent past, it has become noticeable that fiber optic cables are rapidly replacing copper cables and other metal wires due to their wide range of advantages over electrical transmission. Some of the main advantages of fiber optic cables are as below: • Higher bandwidth with less attenuation • High information carrying capacity • Resists electromagnetic interference • Low signal degradation • Light-weighted • Smaller size • Ease of accommodating increasing bandwidth The global fiber optic cables market is expected to demonstrate a CAGR of 7.2% during the forecast period to reach US$ 7.95 Bn by 2026. The global fiber optics market is majorly driven by the pursuit of high bandwidth communication and growing opportunities in the healthcare sector along with increasing government funding in the development of network infrastructure. The global fiber optics market is anticipated to witness a substantial growth over the forecast period. The high demand for optical communication and sensing applications for diverse purposes provides avenues for industry growth. Furthermore, the growing demand for cost-effective, power-efficient, and high-level integration of IT infrastructure is expected to impel market demand in the next few years. However, factors such as capital investment, used in the development of the new fabrication technologies, may pose a challenge to the market demand over the forecast period. The most prominent factor driving the fiber optic cables market growth is rapidly growing internet traffic worldwide. With increasing proliferation of mobile devices, number of internet users is on rapid rise since the past few years. By region, the fiber optic market is segmented into North America, Europe, Asia Pacific, Latin America and Middle East & Africa. North America and Europe are expected to exhibit significant growth due to high technological advancement in these regions. In North America, fiber optics lighting is used for a number of commercials, medical, and industrial applications such as metrology, web inspection, surgical, endoscopy, semiconductor and dental curing, electronic automation, power transmission, automotive data transmission utility lighting. Fiber optics are increasingly used by defense sector as U.S. manufacturers are developing ground tactical fiber optic cable and connectivity solutions for the U.S. military. Few Indian Major Players are as under: • Aksh Optifibre Ltd. • Birla Ericsson Optical Ltd. • Optel Telecommunications Ltd. • Spectra Punjab Pvt. Ltd. • Sterlite Telecables Ltd. • Tamilnadu Telecommunications Ltd. Tags Fiber Optical Cables, Fiber Optic Cable Production, Production of Fiber Optic Cable, Manufacture of Fibre Optic Cable, Fiber Optic Cable Manufacturing, How Fiber Optics are made, Fiber-Optic Cable Manufacturing Industry, Manufacturing Process of Fiber Optic Cable, Optical Fiber Cable Manufacture, Manufacturing of Fiber Optic Cables, Optical Fiber Production, Fiber Optic & Cable, Optical Fiber Manufacturing Process Pdf, Optical Fibre Manufacturing Process PPT, Fiber Optical Cables Manufacturing Plant, Fiber Optic Cable Manufacture, Fiber and Optical Cable Production Unit, Fiber Optic Cables Manufacturing Unit, Industrial Fiber Optic Cables Manufacture, Fiber Optic Cables Production Process, Fiber Optics Industry, Fiber-Optic Cable and Method of Manufacture, Industrial Fiber Optic Cables, Fiber Optic Cable Marking Process, Optical Fiber Cable Manufacturing Factory, Fiber Optic Cables, Electrical Cable, Fiber Optic Cables Uses, Project Report on Fiber-Optic Cable Manufacturing Industry, Detailed Project Report on Fiber-Optic Cable Manufacturing, Project Report on Fiber-Optic Cable Manufacturing, Pre-Investment Feasibility Study on Fiber-Optic Cable Manufacturing, Techno-Economic feasibility study on Fiber-Optic Cable Manufacturing, Feasibility report on Fiber Optic Cable Production, Free Project Profile on Fiber Optic Cable Production, Project profile on Fiber Optic Cable Production, Download free project profile on Fiber Optic Cable Production
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Profitable Dry Fruits Processing Industry
Profitable Dry Fruits Processing Industry. Start a Dried Fruit & Nut Business. Processing of Cashew, Almond, Walnut, Raisins (Kishmish/Munnakka) and Figs Dried fruit is fruit that has had almost all of the water content removed through drying methods. The fruit shrinks during this process, leaving a small, energy-dense dried fruit. Raisins are the most common type, followed by dates, prunes, figs and apricots. Other varieties of dried fruit are also available, sometimes in candied form (sugar coated). These include mangoes, pineapples, cranberries, bananas and apples. Dried fruit can be preserved for much longer than fresh fruit and can be a handy snack, particularly on long trips where refrigeration is not available. Cashew Cashews are nuts that are found at the bottom of cashew apples and in the shape of kidneys. They are widely popular throughout the world, especially in Asian and African countries. They are known as super nuts as they have so many nutritional benefits. They contain high quantities of proteins and various essential minerals such as magnesium, zinc, copper, phosphorus, calcium, and potassium. They also contain a host of vitamins such as vitamin C, B1, B2, B3, B6, E and K. In India, cashew was first introduced in Goa, from where it spread to other parts of the country. Initially, it found use in soil binding to check erosion. Commercial cultivation began in the early 1960s and, over the years, cashew became a crop with high economic value and attained the status of an export-oriented commodity, earning considerable foreign exchange for the country. • Export of cashew nut shell liquid/Cardanol from India stood at 6,908 MT, valued at Rs 26.28 crore (US$ 4.08 million) during April 2017-December 2017, while exports of cashew kernels stood at 67,653 MT, valued at Rs 4,715.21 crore (US$ 731.15 million) during the same period. • Export earnings from raw cashew nut during April 2017- October 2017 stood at 3,775 MT worth US$ 6.96 million. • India accounts for about 65 per cent of global cashew exports. • India exports cashew kernels to over 60 countries. Its major markets are the US, the Netherlands, Japan, Spain, France, Germany, the UK as well as Middle East countries such as the UAE and Saudi Arabia. India is the major cashew growing country in the Asia-Pacific, positioned as the largest producer of raw cashew nut (RCN) globally with 5.5 lakh metric tons per annum. In India, cashew is grown in the peninsular areas of Kerala, Karnataka, Goa and Maharashtra, Tamil Nadu, Andhra Pradesh, Orissa and West Bengal. The country is the single largest producer and exporter of cashews, accounting for 40% of the global share. It is also the largest importer of RCN globally, with around 8 lakh metric tons of average annual imports, followed by Vietnam. Global Cashew Nut Demand is increasing: Cashew is often regarded as 'poor man's crop and rich man's food' and is an important cash crop and highly valued nut in the global market. The area under cashew cultivation is the highest in India. However, it is not so in the case of productivity, processing and quality. In reality, the Indian cashew industry has a high untapped potential to support the livelihood of cashew farmers, provide numerous employment opportunities and improve returns through global trade. The present work projects the need for important changes to be made in the existing system, so as to find a substantial improvement in the growth of the Indian cashew industry. In 2016, cashew nut demand increased by 6.1 percent. In 2021, it is expected that cashews take over 29 percent of the global nut market. Whether the production volume growth can meet the increasing demand is uncertain. Compared to the 6.1 percent increment in demand, production volume increased only by 3 percent. Prices are expected to remain high, and the numbers are only to grow with resilient demand for cashew. The global Cashew Nuts market is valued at million US$ in 2017 and will reach million US$ by the end of 2025, growing at a CAGR of during 2018-2025. Almond Almonds are the seeds of the fruits cultivated from the almond tree. The scientific name of these dry fruits is Prunus dulcis and they are native to the Middle East, India, and North Africa. They are now found in places like Iran, Saudi Arabia, Lebanon, Turkey, Syria, Jordan, and Israel as well. The taste of almonds ranges from sweet to bitter and both are readily available in markets. Almonds are one of the world’s most nutritious and versatile nuts, renowned for their many health benefits and culinary uses. Discover your favorite almond products at Nuts.com from premium supreme-sized raw almonds and candy-coated Jordan almonds, to finely blanched almond flour and all natural almond butters for your snacking and recipe needs. Demand growth for almonds is mostly driven by India’s expanding middle class and increased consumer awareness of products perceived as healthful. Indian almond consumption in MY 2017/18 has been forecasted at 97,000 MT, a 10 per cent increase over the previous year. This increase is driven by low market prices, a weak dollar, changing consumer preference, and increased demand during the non-festive season. Also, the early festive season is expected to lead to higher almond stocks in the Year 2017-18, which are forecasted at 39,400 MT. The global almond production is projected to reach 1.3 million tonnes in 2017/18 from 1.2 million tonnes in 2016/17. Almonds are popularly known nuts, native of North Africa, Middle East and Indian Subcontinent. The Almond fruit consists of four parts kernel, middle shell, outer green shell cover and seed coat. The nutritional important part is kernel, but shell and outer coat is also being identified as nutritional and medicinal, and used for different purpose. Almonds are considered very important in diet due to its nutritional benefits such as, it is very low in cholesterol and sodium, good source of riboflavin, iron, zinc manganese, and magnesium and contains high levels of Vitamin E. While eating raw almonds or using it in different dishes , almonds are exclusively used for manufacturing of different almond based products such as shakes, drinks, chocolates, almond based yogurts, Almond oil, Almond cream, biscuits, hair care, skin care and cosmetics, Almond Butter, flour, and many more. Almond products market is segmentation on basis of applications as beverages, snacks, bakery and confectionary, personal care and cosmetics, pharmaceutical and others. Almonds are the second most popular nut in snacking market. And used as raw or roasted and seasoned snack globally. In bakery and confectionary market segment almond are top most popular nuts exclusively used in products such as cakes, cookies, etc. Almonds are traditionally being used in production of chocolate bars, candies etc., as well as almonds coated with chocolates possess high demand by chocolate lovers. In beverage market segment, with increase health concerns related to consumption of traditional milk and milk based products, Almond milk has gained major share as alternative to traditional milk. Considering high skin care and anti-inflammatory properties of Almonds, Almond oil and extract is exclusively in cosmetics and personal care products and possess high market demand from the industry. Almond oil and extracts are used in products like body oils, hair oils, creams and lotions, treatments of skin allergies etc. Considering its health benefits for heart, brain, immune system and cancer prevention ability, almond extract’s and oil’s market demand is growing in pharmaceutical products. Walnut Walnuts are round, single-seeded stone fruits that grow from the walnut tree. They are a good source of healthful fats, protein, and fiber. They may enhance heart and bone health and help in weight management, among other benefits. Walnuts are a wrinkly, globe-like nut that is the fruit of the walnut tree. They grow in a hard shell, which when opened reveals the walnut. This is then split in two and hence you will be familiar with seeing them as flat segments. Walnuts are usually eaten raw or roasted. Domestic walnut production is expected to increase by three percent to reach 34,000 MT (in-shell basis) in MY 2017/18. Indian walnut production is primarily confined to the hill states of Jammu and Kashmir, Himachal Pradesh, and Uttarakhand. Indian walnuts are classified as hard, medium, or thin shell (kaghazi) and the average shelling rate is about 40 percent. The global walnuts market was valued at US$6,197.1 mn in 2017 and is expected to reach a valuation of US$8,534.5 mn by the end of 2025. During the forecast years of 2017 and 2025, the global market is expected to rise at a CAGR of 4.1%. Out of the two categories, the shelled walnuts are expected to lead the global market as the segment is slated to exhibit a CAGR of 4.4% during the forecast period. Geographically, Asia Pacific held a share of 54.7% in the global walnut market in 2017 and is expected to dominate the global market in the forthcoming years. Walnuts are being exhaustively used as an ingredient in the food industry, pharmaceutical industry, personal care and cosmetics industry which is supporting the market growth in the near future. Due to an increasing lactose intolerant population across the globe, consumer demand is shifting more from cow's milk to nut based milk, leading to a substantial increase in the consumption of walnut milk, owing to its lactose-free characteristics. Increasing inclination of the consumers towards maintaining a healthy lifestyle has led to an increase in consumption of healthy food products and food ingredients. Expanding demand for healthy food coupled with the usage of walnuts in end use industries are the primary drivers leading the global walnuts market during the forecast period. The market is also expected to continue being augmented by rising demand for convenience food, innovation in packaging, and expanding population willing to pay a premium for healthy fruits. One such growth in Walnuts market is increasing per capita consumption of walnuts globally. Furthermore, on the basis of product type, the Walnuts market is segmented into black and English walnuts. Amongst these segments, the English walnuts is anticipated to occupy the largest market share of 93.7% in 2017. By nature, the Walnuts market can be segmented into organic and conventional where the organic segment is anticipated to witness significant growth over the forecast period owing to the increasing proportion of consumers who wish to pay a premium for organic products. By end use, the Walnuts market is segmented into plain household and industrial. The industrial Walnuts segment is likely to be the most attractive segment in the forecast period. Raisins Raisins are obtained by drying grapes, either in the sun or in driers, which turns the grapes into golden, green or black gems. They are naturally sweet in flavor and are widely used in cultural cooking around the world, especially in desserts. Raisins pack more nutrition than their small size might indicate. When grapes are dehydrated to produce raisins, the nutrients become more concentrated, making a handful of raisins a snack rich in B vitamins, iron and potassium. Besides nutrients, raisins are also a good source of carbohydrates for energy. Raisins are commonly used: • as a salad topping • mixed into oatmeal • in yogurt • in granola or cereal Raisins are made primarily by sun drying several different types of grapes. They are small and sweetly flavored with a wrinkled texture. The technique for making raisins has been known since ancient times and evidence of their production has been found in the writings of ancient Egyptians. Most raisins are small, dark, and wrinkled. They have a flavor similar to the grapes from which they are made, but the drying process which creates them concentrates the amount of sugar making them taste much sweeter. They are a naturally stable food and resist spoilage due to their low moisture and low pH. In India, raisins are mainly produced in Sangli, Solapur and Nashik districts of Maharashtra and Bijapur and Bagalkot districts of Karnataka. The most popular grape cultivar for raisin making is Thompson Seedless which gives light golden raisins of medium size. Popular clonal selections of Thompson Seedless viz. Tas-A-Ganesh which is bolder sized and Sonaka which is elongated are also used to prepare bold or elongated raisins. Nowadays growers are also making black raisins from Sharad Seedless and its clonal selections, which are slightly bigger in size and elongated. The baking and confectionary industries generally prefer small sized raisins, while for snack purpose elongated raisins are preferred. The Global Raisins Market is expected to grow at a CAGR of 5.35% during the period 2018-2022. One trend gaining traction in this market is the launch of new products containing raisins. Vendors in the market are launching variations in the existing products owing to the rising demand for raisins as an ingredient, in turn, fostering the market growth in the next few years. Figs Figs are the fruit of the ficus tree, which is part of the mulberry family (Moraceae). Figs have a unique, sweet taste, soft and chewy texture and are littered with slightly crunchy, edible seeds. Fresh figs are delicate and perishable, so are often dried to preserve. This produces a sweet and nutritious dried fruit that can be enjoyed all year round. There are multiple different varieties of fig, all of which vary widely in colour and texture. Their unique feature is a little bud-like opening called an ostiole at the top that helps the fruit develop. Their natural sweetness meant that, before the days of refined sugars, they were often used as a sweetener. Figs are rich in fiber, magnesium, manganese, sodium, vitamin B6 and K, potassium, and calcium. They promote bone density and lower blood pressure. Figs also contain various other minerals such as vitamin A, vitamin B1, vitamin B2, iron, phosphorus, and chlorine. Figs are a beloved, popular fruit in India. They grow well in several states including Karnataka, Tamil Nadu, Maharashtra, Gujarat and Uttar Pradesh. Though there are approximately 800 varieties of figs in the world, the Poona is the most popular cultivar in India. Other funny named variants growing in the country are Indian rock, elephant ear, Krishna, weeping fig, dye fig, white fig, drooping, anjeer, Mysore fig, ivy fig, hairy fig, fiddle leaf fig, laurel fig, soft fig, natal, Punjab, and climbing fig. There is a huge local market for figs and people are consuming figs earlier imported from Bengaluru and other towns. Sensing the huge local market and consumption of the fruit locally, farmers have experimented with the cultivation of the fruit in Kanekal region in L B Nagar area and have succeeded in growing the fruit. Dried fruit is a processed fruit in which most of the water is removed from fruit either through a natural procedure of sun drying or dehydrators. Both dried and fresh fruits are a rich source of antioxidants and fibers but in dried fruits, a small amount of vitamins is lost during the dehydration process. However, dried fruit market is gaining acceptance due to its easy snack to pack feature which avoids spoiling of fruits as quickly as fresh fruits. Furthermore, the market is witnessed to be propelling with its application in different product line. Dried fruit is segmented on the basis of type, comprising of dried grapes, apricots, figs, dates, peaches, berries, and others. Among all, dried grapes occupy a major share in the market since they have advantage of controlling blood pressure, which is a great concern among the aging population. On the basis of application, the dried fruit market is segmented into breakfast cereal, bakery, confectionary, snacks, desserts, and others. Among these, applications in bakery products are expected to dominate the market followed by confectionary products. Furthermore, dried fruits provide various nutritional elements to the consumers’, which boost the growth of the segment- breakfast cereal Asia-Pacific is the largest region for dry fruits market in 2016 and is expected to dominate the market during the forecast period. Rising consumer awareness and largest consumption of dried fruits in emerging economies such as India and China is expected to boost the dry fruits market in the region. Asia-Pacific dry fruits market is expected to reach USD 17.24 billion in 2024 and is projected to grow at a CAGR of 7% during the time period of 2016 to 2024. Latin America and Middle East & Africa is the fastest growing region in dry fruits market, owing to the growing willingness to spend on consumption of dry fruits in order to have a healthy lifestyle. Middle East and Africa captures 50% share of dried grapes, dried figs and dates market in 2016. Increasing personal disposable income, growing urbanization and rising health awareness is driving the consumption of dry fruits across the globe. Increasing use dry fruits and nuts in chocolates and dairy products is boosting the demand of dry fruits. Introduction of exotic and unusual fruits and growing demand of snacks, bakery products with dry fruits as premium ingredients is fuelling the dry fruits market across the world. Rising middle class population and inclination towards healthy diets is bolstering the dry fruits market mainly in developing economies. Rising processing and packaging of dry fruits is the major factor which is obstructing the growth of dry fruits market across the globe. Detection of pesticides and toxins in dry fruits and its products is limiting the adopting rate dry fruits. Moreover, side effects of excessive intake of dry fruits such as weight gain, constipation and bloating are disrupting the market of dry fruits. Tags Dried Fruit Processing, Dry Fruits Processing, Dried Fruit, Dry Fruits & Nuts, Fruit for Snack, Dried Fruit, Fruit Processing, Dry Fruit Processing Plant, Dried Fruit Factory, Dried Fruit Business Plan, Dry Fruit Business Plan Pdf, How is Dried Fruit Made, Nuts, Seeds and Dry Fruits Processing, Dried Fruit Processing Unit, Food Processing, Dry Fruits Processing Industry, How to Make Dried Fruit, Fruit Processing Industry, Dried Fruit Processing Plant, Dried Food Processing Factory, Cashewnut Processing, Cashew Nut Processing Plant, Indian Cashew Processing Industry, Cashew Nut Processing in India, How to Start a Cashew Nut Processing Unit, Small Scale Cashew Processing Unit, How to Start a Cashew Nut Factory, How to Make Profit from Cashew Nut Processing Business, Starting a Cashew Nut Processing Company, Cashew Nut Processing Business Plan, Almond Processing, Almond Processing Company, Almond Processing Plant, Almond Processing Project, Almond Processing Plant in India, Small Scale Walnut Processing, Walnut Processing, Walnut Processing Plant, Walnut Processing Unit, Growing & Processing of Walnuts, Project Report on Walnut Processing Plant, How Walnuts are Grown, How Are Walnuts Processed, Walnut Industry in India, Raisins Production Process, How Raisins is Made, Manufacturing Process of Raisin, Dried Raisins Processing, Raisin Processing, Raisin Drying Process, Raisin Processing Plant, Raisin Industry, Kishmish, Munnakka, Fig Farming (Anjeer), Growing & Processing of Fig, Dried Fig Processing, How to Make Dried Figs, Industrial Processing of Figs, How to Start a Dried Fruit & Nut Business, Dry Fruits Business Plan, Starting Profitable Dried Fruits Business, Starting a Dried Fruit Business, Most Profitable Food Processing Business Ideas, Food Processing Industry, Profitable Food Processing Business in India, Starting a Food Processing Business, Agro Based Food Processing Industry, Projects for Small Scale Food Processing Industry, How to Start Manufacturing Processing Business, Agri-Business & Food Processing, Food Processing Business, Starting Business in Food Processing Industry, Most Profitable Agriculture Business Ideas, Opportunities in Food Processing, Project Report on Dried Fruit Processing Industry, Detailed Project Report on Dried Fruit Processing, Project Report on Dried Fruit Processing, Pre-Investment Feasibility Study on Dried Fruit Processing, Techno-Economic feasibility study on Dried Fruit Processing, Feasibility report on Dried Fruit Processing, Free Project Profile on Dried Fruit Processing, Project profile on Dried Fruit Processing, Download free project profile on Dried Fruit Processing
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Hot Melt Adhesives Production for Corrugated Board
Hot Melt Adhesives Production for Corrugated Board. Investment Opportunities in Manufacturing of Packaging Adhesives The hot melt adhesives are thermoplastic adhesive. This adhesive can melt and flow when heated and become rigid on cooling for providing the sturdy adhesion to the surface. They are commonly known as hot glue. Generally, available in the solid cylindrical sticks having various diameters. They are designed to be melted in an electric hot glue gun. The major driving factor for hot melt adhesives market across the globe is low price and potential to be used as a substitute for the other adhesives. Hot melt adhesives, also known as hot glue, and are in the form of thermoplastic adhesive which is applied using a hot glue gun. The variety of polymers in this class is wide and includes both natural and synthetic ones. It is commonly sold as solid cylindrical sticks of various diameters and can also be applied by spraying or dipping. Hot melt adhesives are generally 100% solids formulations based on thermoplastic polymers. They are solid at room temperature and are activated upon heating above their softening point, at which stage they are liquid, and hence can be processed. After application, they retain the ability to wet the substrate until they solidify. Upon solidification, they return to a physical state that has structural integrity and can function as an adhesive. The adhesive is applied by extruding, rolling, or spraying and joining is carried out immediately after application or after reheating the solidified layer. The variety of polymers in this class is very wide and includes both natural and synthetic polymers. Hot melts are used in industry for a wide range of applications. The packaging industry (manufacturing of packaging from paper, cardboard, and corrugated board) is one of the major users. Hot melts are also used in the printing industry for bonding the spines of books, in the textile industry for bonding appliqué, and in the shoe-making industry for bonding for example shoe soles. The wood processing industry uses hot melts for veneer surrounds and edging. The automotive industry employs hot melts for a host of applications including bonding insulating and cushioning materials, bonding headlight covers into metal frames and for wheel covers. The electronics industry also uses hot melts, for example for bonding coil windings and coil ends. There are several kinds of industrial adhesives available on the market. Hot melt adhesives are polymer based, and are thermoplastic in nature, meaning they are solid at room temperature. These are generally applied as either a molten film or in a series of beads that is converted to a solid form when the materials cool and set. Because hot melt adhesives do not utilize water or solvents, they also have a very fast set time, which makes them the more popular kind of industrial adhesive. Types of Hot Melt Adhesives The two most popular types of hot melt adhesives are ethylene-vinyl acetate (EVA) and polyolefin, or metallocene. 1. Ethylene-vinyl acetate (EVA) – this form of hot melt adhesive works well with paper and cellulosic materials and has a wide range of formulation. These adhesives set quickly and offer strong resistance properties and operate in a moderate range of temperatures. They are used in the packaging, converting, paper, automotive, and assembly industries, and are a generally more affordable kind of hot melt adhesive. 2. Polyolefin – these hot melt adhesives are made with a catalyzed metallocene base, and has excellent adhesive qualities and an even faster set speed. It is also extremely resistant and services a vast range of temperatures. These adhesives are also used in the packaging, converting, and assembly industries, but are limited in their range of available formulations; they are also generally more expensive, but definitely more economical on a per-use basis. Advantages There are several advantages to using hot melt adhesives. Hot melt adhesives have a very fast set speed, and feature moderate resistance properties. Depending on the formulation being used, they also are also applicable in a wide range of temperatures and industries, and feature excellent adhesive qualities. Along with their affordability and quality, these features continue to make hot melt adhesives the more popular form of industrial adhesive currently available on the market. Market Outlook The global market for hot melt adhesives is gaining significant impetus from the rise in the trading activities, leading to a high demand for packaging. The increasing construction activities across the world is also fueling the need for hot melt adhesives substantially. On the other hand, the volatility in crude oil prices and the easy availability of substitutes are likely to create hindrances in the higher adoption of hot melt adhesives across the world in the years to come. Overall, the worldwide market for hot melt adhesives is expected to report thriving success over the next few years, rising at a CAGR of 5.20% between 2016 and 2024. The opportunity in this market is projected to increase from US$6.00 bn in 2015 to US$9.44 bn by the end of 2024. Strong demand in construction sector is projected to positively influence the global hot melt adhesives market over the forecast period. Growing construction spending in emerging countries such as China, Brazil, India, Malaysia, Indonesia and Vietnam is expected to boost the hot melt adhesives market. Increasing demand for pressure sensitive industries which use hot melt adhesives is forecasted to increase international trade thereby aiding the overall market. Hot melt adhesives ability to instantly bond with reengineered plastics, ceramics and various other types of composites over other conventional adhesives is expected to drive the overall market. Newer industry participants have been crucial for the market growth. Initiatives to overcome supply demand imbalance by developing lucrative applications may help in gaining competitive advantage over the other market players. Continuous demand in this market has led to huge technological advancements, which has further grown the hot melt adhesives market. Growing demand for polyolefin based adhesives is expected to bolster the hot melt adhesives market. Switching from the solvent based conventional adhesives due to its hazardous effects is touted to fuel the hot melt adhesives market growth. Strong adhesion without having to reapply after the application is another advantage over other solvent based adhesives. The global hot melt adhesives market has witnessed sustainable growth due to increasing demand of HMAs in various applications such as furniture & woodwork, nonwoven hygiene products etc. Furthermore, the overall market is also being propelled by the swiftly increasing demand from emerging countries such as China and India. Extensive growth in the packaging and nonwoven industry are some of the major factors responsible for this growth. The market is further boosted by technological advancements in hot melt adhesives by various vendors across the globe. One of the prominent trend witnessed by this market include surging use of HMAs in road marking application. However, the global hot melt adhesives market is hampered by lower thermal resistance and volatility in the raw material prices. The hot melt adhesives market has been segmented by type, application and geography exclusively. Based on the types hot melt adhesives commercially available, the market is categorized into ethylene-vinyl acetate, polyolefin, polyurethanes, polyamides and others. Each type varies greatly and the composition is different with different technical specifications. The key user segments automobile industry, construction industry, electronic industry, food and beverage industry, industrial assembly, packaging industry, textile industry, wood working industry and others. However, the preferences of consumers for vehicle designs are changing, leading to the development of new and more sophisticated vehicle designs using lighter gauge metals, plastics, nonferrous metals, and coated steels; thereby creating the need for new assembly methods. This is resulting in the increasing use of hot melts for joining automobile parts. Other major application of hot melt adhesives includes building and construction, paper converting, woodworking, tiles and floor adhesive product, bookbinding, clear case bonding, soap & bubble gum wrapper coating, footwear & leather goods, stock & tapes manufacturing, bottle labeling, automotive headlights and glue sticks. Increasing demand from high speed manufacturing companies is driving the global hot melt adhesive market. Additionally, changing trend of the packaging industry (largest end-user of hot malt adhesive) is expected to increase the global demand for hot melt adhesive products. Also, government policy by EPA (environment protection agency) in the U.S. and European country for using ecofriendly product is further expected to increase the demand for hot melt adhesive products to some extent. The automotive industry employs hot-melt adhesives for a host of applications, including bonding insulating and cushioning materials, bonding headlight, fixing cables in the roof liner, bond door sill protectors, and other plastic parts and for wheel covers. The packaging, construction, non-woven, book binding and paper binding, furniture, footwear, and the electronics industries have surfaced as the key end users of hot melt adhesives. The packaging industry has been reporting the most prominent demand for hot melt adhesives and is expected to retain its position as their leading consumer over the coming years. The construction sector is also projected to report a high demand for hot melt adhesives in the near future. Few Indian major players are as under: • Anabond Ltd. • C I C O Technologies Ltd. • D H Resins & Chemicals Pvt. Ltd. • Golden Chem-Tech Ltd. • H B Fuller India Adhesives Pvt. Ltd. • Henkel Adhesives Technologies India Pvt. Ltd. Tags Hot Melt Adhesive Production, Production of Hot Melt Adhesives, Hot Melt Adhesives Manufacturing Plant, Hot Adhesive Industry, Hot Melt Adhesive Formulation, How to Make Hot Melt Adhesive, Hot Melt Adhesive Manufacture, Hot Melt Adhesive Manufacturing, Hot Glue, Hot Melt Adhesive Manufacturing Process, Industrial Hot Melt Adhesives Manufacture, Hot Melt Adhesive Production Plant, Hot Melt Glue Production, Adhesive Industry, Adhesives Production Plant in India, Hot Melt Adhesives Industry, How are Adhesives Manufactured? Hot Melt Adhesives for Packaging, Corrugation Adhesive, Adhesives Used in Packaging, Production of Hot Melt Adhesives for Corrugated Board, Corrugating Adhesive, Adhesive for Packaging Industry, Hot Melt Adhesive for Cardboard Packaging, Industrial Adhesives Manufacture, Project Report on Hot Melt Adhesive Manufacturing Industry, Detailed Project Report on Hot Melt Adhesive Manufacturing, Project Report on Hot Melt Adhesive Manufacturing, Pre-Investment Feasibility Study on Hot Melt Adhesive Production, Techno-Economic feasibility study on Hot Melt Adhesive Production, Feasibility report on Hot Melt Adhesive Production, Free Project Profile on Hot Melt Adhesive Manufacturing, Project profile on Hot Melt Adhesive Production, Download free project profile on Hot Melt Adhesive Manufacturing
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Production of Sulphuric Acid, Chlorosulphonic Acid
Production of Sulphuric Acid, Chlorosulphonic Acid, 23% Oleum. Business and Investment Opportunities in Chemical Industry Sulphuric acid also known as ‘oil of vitriol’ having molecular formula H2SO4 is a highly strong corrosive mineral acid. Sulphuric acid is pungent-ethereal, colorless to slightly yellow viscous liquid soluble in water at all concentrations. During production, sulphuric acid takes dyed dark brown color to intimate people of its strong hazard effects. Sulphuric acid shows different properties with different material depending on the concentration. Having strong acidic nature, sulphuric acid can harm materials such as metals, living tissues even stones at strong concentration. Sulphuric acid at high concentration can cause serious damage to eye as it burns the cornea of the eye causing permanent blindness if splashed into the eye. Sulfuric acid is a diprotic acid that exhibits different variety of properties depending upon its concentration. Sulphuric acid has the biggest output of any chemical in the world. Sulphuric acid is majorly used in the manufacture of chemicals to make sulfate salts, pigments, dyes, nitric acid, sulfate salts, and others. It also serves as the electrolyte in the lead acid storage battery. Sulfuric dioxide is a strong airborne pollutant and a declared carcinogen. Known to cause severe respiratory disorders in humans, the usage of sulfuric acid has consistently decreased in the past decade owing to stringent government regulations and the future of the market for the same isn’t very encouraging. Uses: Sulphuric acid is widely used in the production of phosphate fertilizers. Sulphuric acid is a complex market that involves the chemistry of product supply and demand. There is variation in pricing of Sulphuric acid between regions depending upon the regulations and concentrations. There are four stages in the manufacturing of sulphuric acid that includes extraction of sulphur, conversion of Sulphur into sulphur dioxide, then converting sulphur dioxide to sulphur trioxide, and final conversion of sulphur trioxide to sulphuric acid. Sulphuric acid is used to wash impurities out of gasoline and other refinery products in petroleum refining. Sulphuric acid is also used as catalyst and dehydrating agent in petrochemical process and organic chemical manufacturing. The global sulphuric acid market is segmented on the basis of manufacturing process, application, and region. Manufacturing process includes Lead Chamber Process, Contact Process, Wet Sulfuric Acid Process, and Others. Applications include Phosphate Fertilizers, Chemical Manufacturing, Agricultural Chemistry, and Electrolyte in Lead-Acid Storage Battery, Metal Processing, and Others. The major use of sulfuric acid is in the production of fertilizers, e.g., superphosphate of lime and ammonium sulfate. It is widely used in the manufacture of chemicals, e.g., in making hydrochloric acid, nitric acid, sulfate salts, synthetic detergents, dyes and pigments, explosives, and drugs. It is used in petroleum refining to wash impurities out of gasoline and other refinery products. Sulfuric acid is used in processing metals, e.g., in pickling (cleaning) iron and steel before plating them with tin or zinc. Rayon is made with sulfuric acid. It serves as the electrolyte in the lead-acid storage battery commonly used in motor vehicles (acid for this use, containing about 33% H 2SO 4 and with specific gravity about 1.25, is often called battery acid). Market Outlook Sulphuric Acid is a diprotic mineral acid and possess highly corrosive properties. Moreover, the chemical is a colorless and water soluble acid, and has a pungent smell. Due to strong oxidizing and dehydrating properties, sulphuric acid is used in phosphate fertilizers production, mineral processing, metal processing, fibers, etc. However, fertilizer production is the largest application segment utilizing sulphuric acid in India, followed by demand from metal processing industry which is anticipated to witness fastest growth till 2025. The sulphuric acid market in India is projected to exhibit a CAGR of 3.35% during 2016-2025, on account of increasing fertilizer production in the country. Moreover, growing demand and consumption of sulphuric acid can be attributed to rapid growth in population size of India, which is subsequently driving demand for infrastructure, food crops and base metals. Growing application of sulphuric acid in processing of fertilizers and other industrial chemicals, coupled with rising initiatives by Government of India to collaborate with global manufacturing firms, are further expected to drive India sulphuric acid market during the forecast period. India is one of the largest consumers of sulphuric acid globally, accounting for 4% of demand while producing around 5% of all sulphuric acid. As such, India is a substantial influencer on the global sulphuric acid balance. Furthermore, many of India’s producers have the capability to switch between producing and purchasing sulphuric acid, and depending on market conditions this can swing the sulphuric acid balance significantly. The demand in the global sulfuric acid market will increment at a CAGR of 2.8% during the forecast period of 2017 to 2023. Revenue-wise, this long-established market for sulfuric acid is estimated to attain a valuation of US$85.4 billion by the end of 2023, swelling up from the market’s evaluated worth of US$72.4 billion as of 2017. The rise can be attributed to the presence of stringent environmental regulations to control emissions, which is expected to lead to the increased use of smelters to capture sulfur dioxide products. Increasing demand for the product from fertilizers, chemical manufacturing, paper & pulp, petroleum refinery, metal processing, and automotive industries for use as a catalyst, dehydrating agent, and a reactant is expected to boost the industry over the foreseeable period. Rising concerns about high crop yield and excellent food quality from agricultural sector are projected to propel fertilizer market growth, which, in turn, is likely to trigger sulfuric acid market. Increasing demand from the various end-use industries is considered to be one of the primary growth drivers for sulfuric acid market. Moreover, growing production of nutrient dense food crops, increasing use of sulphuric acid in metal processing, rising demand for sulfur based fertilizers, continuous and stable demand for sulfuric acid due to several end-user applications and rising demand from oil & gas industry, waste water treatment are the factors favouring the market growth. However, stringent government regulations, high raw material costs, weaker sales due to surplus and health concerns associated to sulfuric acid are some of the factors restraining the market. Automotive industry is projected to progress at the highest CAGR over the forecast period. Increasing use of sulfuric acid in automotive batteries is anticipated to trigger automotive application segment over the coming years. The Global Sulphuric Acid Market is mainly driven by the growing demand for Sulphur based fertilizers. Rising demand for sulphuric acid in the oil & gas industry and waste water treatment is expected to drive the sulphuric acid market for the forecasted period. Wide variety of application of the sulphuric acid in the chemical industry is driving the global sulphuric acid market. Additionally, with increasing population demand for better infrastructure, food crops and base metals is expected to increase. This is expected to increase the global demand for sulphuric acid. Also, various fertilizers are produce with the use of sulphuric acid; so increasing demand for fertilizers is further expected to increase the demand of sulphuric acid in the global market. The future of the sulfuric acid market is banking on the sustained demand coming from the fertilizers segment as a result of consistently increasing demand for food across the world. Arable land are limited and that is arising a need to exact the best out of limited opportunities and fertilizers are proven to serve the purpose. Key applications of sulfuric acid include processing of fertilizers, nitric acid, hydrochloric acid, hydrofluoric acid, and titanium dioxide. Demand for fertilizers, especially phosphate fertilizers, is anticipated to increase significantly due to the rising production of cereals and oilseeds such as wheat, rice, cotton, and soya bean as a result of global population growth. Sulfuric acid is one of the most high volume product chemicals being manufactured across the globe. Numbers given by manufacturers, industry related consultants and other market observers place the Sulfuric acid production in recent years to be around 200 million tonnes. Indeed it is because of this significant place Sulfuric acid production occupies in the industrial chemical manufacture sector, that it is commonly regarded that a country’s industrial development, and by extension, economic growth can be measured by its production contribution of Sulfuric acid. Chlorosulfuric Acid Chlorosulfonic Acid is a clear, corrosive, straw colored liquid with a strong odor. It reacts violently with water with evolution of heat and large quantities of dense white fumes. They are formed on decomposition. It is used principally in organic synthesis as a sulfating, sulfonating or chlorosulfonating agent. Its chemical formula is CISO2OH. The major use of CSA is for sulfating long chain alcohols. Specific areas of usage include; manufacture of surfactants for preparation of intermediates for making dyes and pigments, manufacture of pesticides for protection of crops and livestock, manufacture of pharmaceuticals for human and veterinary medicines, and others. Global Chlorosulfonic Acid Market is segmented on the basis of application, and region. Chlorosulfonic acid is primarily used to produce sulfates, sulfonates, sulfonyl chlorides with organic compounds like hydrocarbons, alcohols, phenols, amines. Chlorosulfonic acid is a strong oxidizing and dehydrating agent function as a catalyst in the esterification of aliphatic alcohols, alkylation of alkenes, and synthesis of alkyl halides from alkenic halides, and isoalkanes containing tertiary hydrogen. Chlorosulfonic Acid Market is classified, by application into Detergent, Pharmaceutical, Agrochemical, and Plastic Industries. Chlorosulfonic Acid Market is segmented, geographically into North America, Europe (Eastern Europe, Western Europe), Asia Pacific, Latin America, Middle East and Africa. Few Indian major players are as under: • Amal Ltd. • Kamar Chemicals & Inds. Ltd. • Mahadeo Fertilizers Ltd. • Nath Industrial Chemicals Ltd. • Rampur Fertilizers Ltd. • Shree Sulphurics Pvt. Ltd. Tags Manufacture of Sulfuric Acid, Sulfuric Acid, Production of Sulfuric Acid, Preparation of Sulphuric Acid, Sulfuric Acid Production, Manufacturing of Sulfuric Acid, Processes of Manufacture of Sulfuric Acid, Manufacture of Sulphuric Acid by Contact Process PPT, Sulphuric Acid Manufacture, Industrial Production of Sulfuric Acid, Sulphuric Acid Plant, Sulphuric Acid Plant Process Flow Diagram, Sulfuric Acid Manufacturing, Sulfuric Acid Production Process, Sulphuric Acid Plant Including Mfg. of Chlorosulphonic Acid, 23% Oleum, Manufacture of Sulphuric Acid (Contact Process), Sulfuric Acid Manufacturing Plant, Industrial Applications of Sulfuric Acid, Essential Chemical Industry, Chemicals Manufacturing Company, Plant to Manufacture Sulfuric Acid, Process of Making Chlorosulfonic Acid, Manufacture of Chlorosulphonic Acid, Chlorosulfonic Acid, Chlorosulfonic Acid Manufacturing Process, Chlorosulfuric Acid, Manufacture and Properties of Chlorosulfonic Acid, Sulphuric Acid Industry, Sulphuric Acid Production Plant, Sulphuric Acid Plant Cost, Sulphuric Acid Manufacturing Unit, Project Report on Sulphuric Acid Manufacturing Industry, Detailed Project Report on Sulphuric Acid Plant, Project Report on Chlorosulfonic Acid Manufacturing, Pre-Investment Feasibility Study on Chlorosulfonic Acid Manufacturing, Techno-Economic feasibility study on Sulphuric Acid Plant, Feasibility report on Chlorosulfonic Acid Manufacturing, Free Project Profile on Sulphuric Acid Plant, Project profile on Chlorosulfonic Acid Manufacturing, Download free project profile on Sulphuric Acid Plant
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Noodles, Vermicelli, Macaroni and Spaghetti Production Business
Noodles, Vermicelli, Macaroni and Spaghetti Production Business. Start a Profitable Pasta Product Manufacturing Industry Macaroni is a traditional food product that is formed by the use of dough, which is made by the use of flour, water, and eggs after which it is formed into different shapes. It can be simply put that macaroni is a dry pasta. Lastly, a curved macaroni is mostly referred to as elbow macaroni, which is popular among young children. Many macaroni and noodle products are being used in precooked frozen dinners of macaroni and cheese, macaroni and spaghetti and meat sauce, tuna and noodles and many others. Some what the some preparation techniques are used for freezing are used for canning. Spaghetti is long, thin pasta. Spaghetti with meatballs in marinara sauce is an Italian restaurant classic. Spaghetti is a popular Italian pasta, often served with a tomato sauce sometimes called spaghetti sauce. The Italian word spago means string, and spaghetti is the plural of spago — a description of what spaghetti looks like. Spaghetti straps are very thin shoulder straps found on dresses and summery tops. Spaghetti is generally served with some type of sauce; the sauce and the type of spaghetti are usually matched based on consistency and ease of eating. Northern Italian cooking uses less tomato sauce, garlic and herbs. In Northern Italy white sauce is more common. However Italian cuisine is best identified by individual regions. In Southern Italy more complex variations include spaghetti paired with fresh vegetables, olives, capers or seafood. Vermicelli is a type of fine pasta that is similar to spaghetti. The pasta features long rounded pasta strands that tend to be slightly thinner than spaghetti and somewhat thicker than angel hair pasta. In Italian, vermicelli literally means "little worms" and reflects the pastas distinctive worm-like shape. In India and other countries of the Indian Subcontinent, wheat vermicelli is known by various local names such as sev in Gujarati, shavige in Kannada, sevalu or semiya in Telugu, and semiya in Tamil and Malayalam. Vermicelli is made out of maida that is ground from very hard wheat. It is simply maida, water, and a little salt. Vermicelli is a popular instant food product. It falls under the category of extruded product and is made from wheat flour. At times tapioca or soya bean or groundnut flour is also added. Thus, it is rich in proteins and liked by people from all walks of life, irrespective of age. India celebrates more festival than other countries. These festivals are chiefly religious, secular and social. The festivals are therefore an intimate part of our religious as well as secular life. They are at the same time related to some ancient religious length, to the cycle of reasons, and to the community's need of change, release and economic well-seeing. Noodles were traditionally served in a hot or cold seasonal broth whilst pasta had a sauce added. Nowadays, though, fusion cuisine is offering all sorts of exciting new ways to prepare noodles. Market Outlook Noodles Noodles market in India is one of the fastest growing globally driven by steady economic growth and rise in disposable income of consumers. Rapid urbanization and a large young population are also helping Noodles market to grow further. Dried and Instant Noodles is the leading category in the Noodles market with Convenience Stores being the leading distribution channel. Urbanization, rising income levels, working couples, interstate migration and changing lifestyle of young India are key drivers for the noodles market. The product was positioned as meal which is filling and can be prepared in just a few minutes, thus offering both convenience and time saving. Noodles are value-added processed food items from flour. In addition, the product occupies 45% market share in the processed cereal products in India. According to the output and constitute, this is the largest segment in this sector of the processed food market. Generally, this item is more popular in the northern parts of our country. The product is an extruded product made of tapioca flour and maida. They are long thread-like of 0.22 to 0.4 mm. thickness. Trends in Indian noodle market • Traditional flavors still dominate: Masala, chicken and tomato are most popular flavors in the market • Addressing rural market: Noodles are primarily consumed in urban India and to expand this market companies have introduced small sized and low cost products to address the demand of rural market. The success of this effort is still to be seen. • Huge Rural market: rural India where close to 60% of Indian population resides is a huge consumption market virtually un-penetrated by any player. Low cost products with appropriate marketing can open up this huge market. Some of the major reasons for its popularity are: • Increasing population of the country. • Rapid industrialization in the country. • Increasing purchasing capacity of the people. • The durability of the product. • The changing eating habit of the population. • Increasing preference for ready to eat food because of the increasing numbers of working couples etc. Vermicelli: Five main features of vermicelli make it a highly demanded product in the market: • Ready to eat • Easy to prepare • Nutritious • Tasty and • Low Cost It is one of the most preferred ready to cook item in both Indian and foreign markets. With the rapid urbanization and growth of the economy, the demand of healthy and easy to prepare food products has reached sky high. This makes the vermicelli making business an ideal business opportunity to grab on as the demand for the same is in a highly growing trend. During Ramzan, the demand reaches at the top as kheer made of vermicelli is consumed all on a daily basis after daylong fasting. However, in compare to the other foreign countries, the consumption rate of vermicelli is comparatively low, thus there is a huge opportunity to grow and capture the market. Urbanization has changed the lifestyles of not only urbanites but even of semi-urban and rural areas. This along with increase in the purchasing power of people has fuelled demand for many fast food or instant food items and vermicelli is one such product. With the addition of groundnut or soya bean or tapioca flour, it also becomes a nutritive product and thus even health conscious people prefer it. Thus vermicelli has, become a very popular instant food. Variety since last few years and its demand is steadily growing. There are some established brands but the market is very large and growing. A small-scale unit can compete with these brands in the local market on the price front because of low overheads, less transportation costs and reasonable advertisement budget. Proper and adequate placement of product and thrust on publicity at the point of sales would also be crucial. Pasta Product Market: The global market for pasta can be classified into spaghetti, macaroni, and noodles. It can also be bifurcated into fresh and dried pasta. While the former is prepared from simple dough of eggs and flour, the latter is made from finely ground semolina flour and water, sans egg mostly. Fresh pasta has a comparatively shorter shelf life than dried pasta and hence it is more expensive. Dried pasta generates accounts for a dominant share vis-à-vis sales in the global market for pasta. The overall global pasta market is expected to grow moderately in the upcoming years. Global Pasta Market is projected to witness at the CAGR of 5.85% and it is projected to reach USD 32.78 Billion during the period of 2017 to 2023. The global pasta market is being driven by a number of favorable factors. The changing preferences of the consumers, resulting from the western influences and urbanization in the developing regions, have contributed to the market growth. Further, as a result of hectic lifestyle, the consumers prefer easy-to-make food products. Since, pasta is a healthy carbohydrate-rich food and convenient to prepare, the demand for different types of pasta products such as fusilli, macaroni and vermicelli, has been on a surge. Moreover, manufacturers are introducing product innovations such as gluten-free pasta, organic pasta and vegan pasta to attract a larger consumer-base. Geography-wise, the global market for pasta has been segmented into Asia Pacific, Europe, North America, and the Rest of the World. Among them, Europe accounts for maximum percentage share in terms of consumption and North America comes next. Markets in China and India, emerging economies whose growth rate has surpassed that of all other countries in the world, have proved to be tough ones to crack. Per capita sales of pasta is low in India and China on account of lesser priced regional staples such as rice and noodles. Besides the lack of affordability and cultural preferences, the abundant availability of pasta is another factor hobbling the growth of the Asian markets. Going forward, however, tables might likely turn due to rising per capita income in emerging economies, particularly India and China. This, coupled with rising urbanization, is anticipated to push substantial growth in the near future. The spaghetti segment is projected to register the higher growth rate (5.77%) during the forecast period of 2017 to 2023. Change in consumer lifestyle, increasing disposable income, increase in health awareness, and rise in demand for convenience food and consumption will a positive impact on the market during the forecast period. Packaged foods are convenient to carry, store, and use. Thus, all these factors together will drive the market. The primary factors catalyzing the growth of the pasta market in India include rising urbanization, changing lifestyles and surging demand for ready-to-eat products. In addition to this, the market is also influenced by an increasing women employment rate coupled with rising disposable incomes. Further, the health-conscious consumers are demanding food products with healthier ingredients, which has led to a rise in the demand for pasta made with whole-wheat and quinoa. Some of the other forces that have been proactive in maintaining the market growth are longer shelf-life and ease of preparation. Looking forward, the market value is projected to reach US$ 709.1 Million by 2023, registering a CAGR of 16.2% during 2018-2023. Tags Macaroni Production, Macaroni, Macaroni Production Process, Manufacture of Pasta, Macaroni, Noodle, and Spaghetti Production, Pasta Production Process Pdf, Pasta Manufacturing Project Report, How is Pasta, Pasta Manufacturing Process PPT, Macaroni Manufacturing, Pasta Processing, Pasta Production, Pasta Manufacturing, Spaghetti Making Process, Production of Pasta and Spaghetti, Food Processing Plant, Industrial Production of Pasta, How to Make Spaghetti? 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Hydrazine Hydrate Manufacturing Industry
Hydrazine Hydrate Manufacturing Industry. Investment Opportunities in Chemical Business Hydrazine is a colorless inorganic compound with odor similar to that of ammonia. Hydrazine hydrate is mainly used as a foaming agent in polymer foams. In agrochemicals field, it helps in manufacturing of pyrazole and its derivatives that have a significant use in pesticide chemistry because of its biological properties. Pyrazoles demonstrate antimicrobial, antihyperglycemic, antipyretic, antihelmintic, antioxidant, and herbicidal properties. Uses: Hydrazine Hydrate is primarily used as an intermediate in the production of blowing agents, but may also be used in boiler water treatment, as an intermediate in the production of pharmaceuticals and agricultural products. Hydrazine hydrate is also used in the production of several drugs for veterinary applications. It is also used in the treatment of tuberculosis in the pharmaceutical field. Applications: • As rocket fuel in space application. • As energy source in fuel cells. • As blowing agent in plastic industry. • In boilers-used as oxygen scavenger for boiler feed water in energy industry. • Prevention of corrosion in boilers by formation of a magnetite corrosion "shield" in boiler surface. • In synthesis of organic nitrogen compounds which are very useful intermediates in drugs 7 pharmaceutical industries. • In making herbicides & pesticides in agro-industry. Hydrazine hydrate is possessed of several advantages: (1) With a high storage capacity, the hydrogen reserve of hydrazine hydrate is 8% (mass fraction); (2) It appears as liquid under room temperature, which can be stored and delivered safely; (3) The decomposition of hydrazine hydrate can merely generate hydrogen and ammonia gas without any solid-state byproduct. Market Outlook Global Hydrazine Hydrate Market is anticipated to reach USD 531.23 Million by 2023, growing at a CAGR of over 5%, in value terms due to the growing popularity of polymer foams as Hydrazine hydrate is primary a precursor to blowing agents in polymer foams. Moreover, the rising demand of hydrazine hydrate in the waste-water treatment industry coupled with the increasing application as fuel in eco-friendly fuel cells will ensure robust growth of the market in the next five years. Based on the concentration of hydrazine hydrate, the 60%-85% segment is expected to hold the largest market share during the forecast period owing to its use in manufacturing of veterinary drugs, chemical synthesis, polymerization, or as a blowing agent. Based on the application, the polymerization & blowing agents segment is expected to grow at the highest CAGR by 2023 due to the increasing demand of polymers in end-use industries like automobile, electronic gadgets etc. Asia-Pacific region is projected to lead the market in the next five years due to growing demand in agrochemical and wastewater treatment industries. Rising demand of polymer foams in polymer industry will have a great influence on the hydrazine hydrate market throughout the forecast timeframe. Its application in a wide range of products which includes food containers, foamed core pipes, vinyl sheets, and structural foam wood grain furniture will propel the market growth. The growth in the end-user industries such as building & construction, packaging, automotive, and furniture & bedding industries will drive the market for polymer foams in the coming eight years. Due to wide-ranging chemical properties, hydrazine hydrate finds application in numerous end-use industries. It has an odor similar to ammonia and is typically colorless. The exposure to hydrazine hydrate is restricted to some extent due to its toxic nature. High use of hydrazine hydrate in end-user, such as pharmaceuticals, agrochemical, water treatment and polymerization & blowing agent is expected to drive the market in upcoming years. Furthermore, the carcinogenic property of the hydrazine hydrate may impact the growth of the market in the forecast period. Nevertheless, increasing demand of hydrazine hydrate in polymer industries is expected offer ample opportunities in the coming years. The global hydrazine hydrate market can be segmented on the basis of end-user, concentration level, and regions. On the basis of end-user, the global market can be segregated into water treatment, pharmaceuticals, polymerization & blowing agents, and agrochemicals. Hydrazine hydrate is widely used in agrochemicals for various purposes such as insecticides, pesticides, and fungicides, which in turn is expected to fuel the global hydrazine hydrate market. On the basis of concentration level market is classified into 24%-35%, 40%-55%, 60%-85% and 100%. Hydrazine hydrate possesses applications such as foamed core pipes, structural foam wood grain furniture food containers and vinyl sheets which are expected to fuel the market growth in the forecast period. Among various applications, polymerization & blowing agents is estimated to be the largest application of the global hydrazine hydrate market. In polymerization & blowing agents segment, hydrazine hydrate is used to manufacture plastics and rubber chemicals. Derivatives of hydrazine hydrates such as azobisisobutyronitrile and azodicarbonamide are used as polymerization initiators and low temperature blowing agents. In addition, there are several other hydrazine-based chemical blowing agents such as benzene and toluenesulfonylhydrazide, which are used in low temperature applications. Steady growth in the polymer industry is expected to propel the global hydrazine hydrate market size, with its primary usage as a precursor to blowing agents in polymer foams. The demand for fertilizers and pesticides is higher in the Asia Pacific as compared to other regions such as North America, Latin America, and Europe. China and India in the region are expected to spur the hydrazine hydrate market due to the growing agrochemicals industry and rapid economic growth. Moreover, the China-based manufacturers are manufacturing hydrazine hydrate to expand its existing production facilities for satisfying local needs of hydrazine hydrate, used majorly for manufacturing azodicarbonamide (ADC) required in the polymer industry. It is expected to be the fastest growing concentration level segment of the hydrazine hydrate market, in terms of value, during the forecast period due to its ability to manufacture hydrazine salts from inorganic acids. The application of 60%-85% concentration grade of hydrazine hydrate in fuel cells as an effective substitute to hydrogen and oxygen is expected to present many opportunities to the hydrazine hydrate manufacturers. The worldwide market demand for hydrazine hydrate is 80 to 90 thousand tons a year. Consumption is roughly 32% for pesticides, 33% for foaming agents, 20% for water treatment agents and 15% for others. Demand will grow steadily in future, with demand in advanced countries declining while demand in developing countries, Asian countries in particular, growing rapidly. Due to increasing downstream demand, global hydrazine hydrate production varied from 137182 Ton in 2013 to 148616 Ton in 2017, with an average increase rate of 2.02%. In the future, we predict that this trend will continue. By 2024, global production may be 187381 ton. Few Indian major players are as under: • Aditya Chemicals Ltd. • Andhra Farm Chemicals Corpn. Ltd. • Arihant Chemicals Inds. Ltd. • Jay Chemical Inds. Ltd. • Naveen Enterprises Ltd. • S V Trading & Agencies Ltd. Tags Hydrazine Hydrate, Inorganic Compound, Manufacturing Process of Hydrazine Hydrate, Process for Production of Hydrazine Hydrate, Production of Hydrazine, Preparation of Hydrazine Hydrate, Manufacture of Hydrazine Hydrate, Hydrazine Hydrate Manufacturing Plant, Chemical, How to Make Hydrazine, Hydrazine Hydrate Manufacture, Hydrazine Hydrate Production, Hydrazine Hydrate Manufacturing Process, Hydrazine Hydrate Unit, Hydrazine Hydrate Industry, Hydrazine Hydrate Manufacturing, Production of Hydrazine Hydrate, Hydrazine Hydrate for Manufacturing of Several Insecticides, Pesticides and Fungicides, Hydrazine Hydrate Production Process, Hydrazine Hydrate Plant, Hydrazine Hydrate Industry, Industrial Chemicals, Industrial Hydrazine Hydrate, Project Report on Hydrazine Hydrate Manufacturing Industry, Detailed Project Report on Hydrazine Hydrate Manufacturing, Project Report on Hydrazine Hydrate Manufacturing, Pre-Investment Feasibility Study on Hydrazine Hydrate Manufacturing, Techno-Economic feasibility study on Hydrazine Hydrate Production, Feasibility report on Hydrazine Hydrate Production, Free Project Profile on Hydrazine Hydrate Production, Project profile on Hydrazine Hydrate Production, Download free project profile on Hydrazine Hydrate Manufacturing
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Production of Industrial Gases and Speciality Gases Mixture
Production of Industrial Gases and Speciality Gases Mixture. Investment & Business Opportunities in Oxygen, Nitrogen and Argon Gas Manufacturing Plant Industrial gases are comprised of elements, molecular compounds, or mixtures. Industrial gases belong to a special class of chemicals that functions in a large number of applications in several end user industries. They are composed at ambient temperature and pressure. These are formed in both liquid and gaseous forms. Industrial gases are specific gaseous materials produced for industrial purposes, with the most prominent ones being oxygen, nitrogen, carbon dioxide, helium, and hydrogen, although various other mixtures are also manufactured and provided as gas cylinders. A number of industries require these customized gases, including steel, oil and gas, chemicals and petrochemicals, biotechnology, medicine, environmental protection, and nuclear power, and the market for the same is feeding off the prosperity of each of them. Industrial gases are used in a wide range of industries, which include oil and gas, petrochemicals, chemicals, power, mining, steelmaking, metals, environmental protection, medicine, pharmaceuticals, biotechnology, food, water, fertilizers, nuclear power, electronics and aerospace. Industrial gas is sold to other industrial enterprises; typically comprising large orders to corporate industrial clients, covering a size range from building a process facility or pipeline down to cylinder gas supply. Specialty Gases Specialty gases represent gases which are rare or ultra-high purity (99.995% and above). Many industries, including analytical, pharmaceutical, electronics and petrochemical benefit from the unique properties of specialty gases that help to improve yields, optimize performance and lower costs. Specialty gases are used in analytical methods such as gas and liquid chromatography as well as Fourier transform infrared (FTIR) and non-dispersive infrared (NDIR). Other analytical methods are described in the various subpages. Oxygen Oxygen is a gas. It is a colorless, tasteless, odourless gaseous element that constitutes 21% of the atmosphere and is found in water, in most rocks and minerals, and in numerous organic compounds, that is capable of combining with all elements except the inert gases, that is active in physiological processes, and that is involved especially in combustion processes. Oxygen is the third most abundant element in the universe after hydrogen and helium and the most abundant element. Oxygen dissolves more readily in water than nitrogen, and in freshwater more readily than seawater. Water in equilibrium with air contains approximately 1 molecule of dissolved O2 for every 2 molecules of N2 (1:2), compared with an atmospheric ratio of approximately 1:4. The solubility of oxygen in water is temperature-dependent, and about twice as much (14.6 mg•L?1) dissolves at 0°C than at 20°C (7.6 mg•L?1). Uses The largest user of oxygen is the steel industry. It is also used in the manufacture of other metals, notably copper and lead. It is more economical to use pure oxygen, or oxygen-enriched air, rather than air as this increases the reaction rates and means that smaller chemical plants can be used. Further it makes it easier to ensure that no gases such as sulfur dioxide are lost and pollute the atmosphere. The gas is also used in the manufacture of many chemicals including nitric acid, hydrogen peroxide, epoxyethane and chloroethene (vinyl chloride), the precursor to PVC. Among its other uses is the burning off of carbon deposited on the fluid catalyst used in the catalytic cracking of gas oil A growing use for oxygen is in treating sewage and effluent from industry. Polluted rivers and lakes can be cleaned by dissolving oxygen gas directly into the water to encourage a better ecological balance. It is used, for example, in fish farming to provide this balance. It is also used, with sodium hydroxide, to bleach paper pulp as an alternative to chlorine dioxide or sodium chlorate (I) (sodium hypochlorite). Nitrogen Nitrogen gas is one of the most abundant resources on the planet. It makes up around 70 percent of the air around us. What makes it so special is that it is a nearly inert gas that doesn’t react with other compounds in the air. Various industries take advantage of purified nitrogen’s inert characteristics and use the gas to their advantage. Uses: Nitrogen gas is used in many varying industries—a few of them are highlighted below: • Food Packaging – Nitrogen is used to displace oxygen in food packaging. By eliminating the oxygen, the food can last longer. It can also add a cushion around the food to keep it safe from breaking in transport. • Light Bulb Production – In incandescent light bulbs, nitrogen gas is often used as a cheaper alternative to argon. • Chemical Plants – Nitrogen is used to displace oxygen and prevent explosions in highly dangerous atmospheres, such as chemical plants and manufacturing facilities. • Tire Inflation – Nitrogen offers many benefits when used to fill tires, such as giving them a longer life by reducing oxidation. It also improves tire pressure retention to give drivers better gas mileage. • Electronics – When electronics are being assembled, nitrogen gas is used for soldering. Using nitrogen reduces the surface tension to provide a cleaner breakaway from the solder site. • Stainless Steel Manufacturing – By electroplating the stainless steel with nitrogen, the finished product is stronger and resistant to corrosion. • Pollution Control – Nitrogen gas can be used to remove the VOCs in liquids before they are discarded. • Pharmaceuticals – Almost every major drug class contains some nitrogen, even antibiotics. Nitrogen, in the form of nitrous oxide, is also used as an anesthetic. • Mining – In the mining industry, nitrogen gas is used to quickly extinguish fires by eliminating the oxygen from the air. And when an area is going to be abandoned, they use nitrogen to ensure the area will not explode. Nitrogen is used to make ammonia. It is also widely used to provide an inert atmosphere, a process known as 'blanketing', principally to exclude oxygen. For example, nitrogen is used in this way in food packaging, glass making, and semiconductor manufacture. It is also used to purge out pipes prior to welding (for example, oil pipes) to ensure that no flammable vapours are left behind. Liquid nitrogen is being increasingly used to refrigerate food during transportation. Medical samples containing, for example blood, viruses for vaccinations and semen, can be stored for long periods if kept cool in liquid nitrogen. Argon Argon is a colourless, odourless, inert gas sourced through the fractional distillation of liquid air. The omnipresent argon gas exists in its natural form in the form of multiple isotopes such as 40Ar, 36Ar, and 38Ar. Owing to its inert reactivity, argon is one of the most preferred gases for shielding metals from oxidation during welding. It is also used for joining several nonferrous and ferrous alloys. Owing to these reasons, the argon gas also finds great usage in aerospace, aircraft and automotive industry where it is used to weld parts and frames. The argon gas has better thermal insulation properties than air and hence, it is one of the most widely used gases for filling the dry suits used for scuba diving. Excimer lasers, which are used for the production of microelectronic devices, use a mixture of argon, fluorine and helium. Argon is also used for a variety of other purposes. For instance, it is used in incandescent lamps and phosphorescent tubes, fire extinguishers and airbag inflation. It is also used during cryosurgery spectroscopy and decarburizing of stainless steel. Although argon is nontoxic in nature, excessive contact can lead to asphyxiation. Market Outlook India industrial gases market was valued at $ 2.1 billion in 2017 and is forecast to grow at a CAGR of over 11% to surpass $ 3.9 billion in 2023 on account of growing demand from metal industry, particularly steel. Moreover, regular capacity expansions by automobile, refinery and chemical companies coupled with increasing number of new applications of industrial gases is further augmenting demand for industrial gases in the country. Additionally, continuing growth in the country’s healthcare sector and booming food & beverages sector is anticipated to augur well for the industrial gases market in India through 2023. Growth in the market is anticipated on account of growing demand from various end user industries such as metallurgy and petrochemicals, coupled with implementation of various favorable government policies to support manufacturing sector. Various upcoming steel projects are integrating industrial gas production units to address the bulk requirements for industrial gases, thereby aiding the industrial gases market in the country. On the basis of type, the industrial gases market in India has been segmented into three categories, namely, Oxygen, Nitrogen and Argon. Region-wise, east region is forecast to dominate the industrial gases market in India over the next five years on account of various upcoming metallurgical projects coupled with presence of major steel production units in this region. Moreover, regular capacity expansions by automobile, refinery and chemical companies coupled with increasing number of new applications of industrial gases is further augmenting demand for industrial gases in the country. The Indian market for specialty gases will grow at a CAGR of more than 12% by value during 2017-2026. Specialty gases are ultra-pure gases or minor gases used in specific quantities and proportions for specialized operations in various end user applications. Owing to their unique properties and nature, specialty gases find use in many industries, improving the production process, optimizing operations, improving efficiency and reducing labor time, thus bringing down the overall cost. The two key segments set to drive the specialty gases market in the country are metal & mining and healthcare. The global industrial gases market size is projected to reach $71.0 billion by 2022, growing at a CAGR of 6.2% during the forecast period. The factors driving the growth of the market include large base of end-use industries, increasing government initiatives toward alternate sources of energy, and increasing healthcare expenditure. Rising demand from the major end-use industries such as chemicals, petrochemicals, oil and gas, and energy has resulted in the development of the global industrial gases market. With rising environmental concerns, renewable resources are witnessing a growth worldwide, thereby facilitating the market. Apart from this, increasing urbanization and industrialization in the countries of Asia-Pacific and Middle East are expected to provide a thrust to industries such as food and beverages, transportation, chemical and metal fabrication, which in turn will amplify the demand for industrial gases. Additionally, improving economic scenario, climate control initiatives, increased energy demand and healthcare needs in both the developing and developed regions are projected to contribute in the expansion of the market. Asia Pacific is the largest regional market for industrial gases owing to the growth of several associated end-user industries in this region. Asia Pacific, apart from being the largest market, is expected to be the fastest growing regional market for industrial gases. In terms of demand, Asia Pacific was followed by North America and Europe. However, these regional markets are anticipated to lose out some of their market share to the other emerging markets such as Asia Pacific and Latin America. Oxygen Gas The growth of industries such as agriculture, automobiles, beverages, chemicals, construction equipment, food, glass, medicine, ship building, space explorations, steel manufacture etc. require stable oxygen for processes; which is increasing the demand for oxygen production throughout the world. The versatile uses of oxygen in chemical industry as an oxidizing agent and catalyst are contributing to the growth of oxygen market. Oxygen consumption as breathing aids and apparatus is increasing around the globe because of the increasing pollution, which contaminates air and reduces quantity of natural oxygen in the breathing air. Liquid oxygen is extremely cold apart from its vast applications. Oxygen is being used instead of air to improve performance and capital efficiency in various industries. Oxygen can also enable and activate carbon capture processes. Oxygen is used in gasification processes, process heaters, industrial fermentation and boilers to enhance productivity. In water treatment plants, oxygen is being added directly to the waste water in order to improve the effectiveness of removing pollutants from the water. Most of the celebrities undergo oxygen facials at spas, these facials provide instant nutrition and radiance to the skin. A pressurized steam of oxygen under hyperbaric therapies fortifies the skin with vital nutrients. Nitrogen Gas The industrial nitrogen market was valued at USD 15.03 Billion in 2017 and is expected to reach USD 19.96 Billion by 2022. The market is projected to grow at a CAGR of 5.83% during the forecast period. The base year considered for the study is 2016, and the market size is projected from 2017 to 2022. Increasing wide range of applications of nitrogen gas springs across various industries such as automotive, manufacturing, and healthcare sectors is a key factor expected to drive growth of the global nitrogen gas springs market. Nitrogen gas springs are used in vehicles, furniture such as in office chairs, beds, cabinets, kitchen shelves, etc. in order to provide ease of handling and are efficient for lifting, supporting, and motion control of bonnets, hatches, doors, lids etc. However, prime application areas include automotive and industrial sectors. In addition, abundance availability of nitrogen gas, low cost, and various usable properties of the product are other major factors expected to fuel market growth in the coming years. Moreover, major advantages of nitrogen gas springs over conventional springs is expected to further drive growth of the market. Other advantages are that these are corrosion-free, heavy-duty, and have an average lifespan of around 10 years which is expected to drive market growth. Argon Gas The increase in the sale of argon is pivotally being driven by the consumption and demand from the thriving metal fabrication industry. Escalating application of argon as a cryogenic inert gas is aiding in the development of the argon gas market. Argon is used during manufacturing and storage in food and beverage and pharmaceutical packaging industry. The thriving electronics industry is also one of the pivotal industry boosting the demand for argon gas. Since argon gas provides the inert atmosphere needed for rapid cooling and heating of materials, it is used for manufacturing semiconductors, flat panels, solar pv cells and microelectronic devices in the electronics industry. The growing popularity of 3-D printed parts, components and even complete systems, is driving growth for the argon gas market. Global argon market is expected to grow over the forecast period, owing to risings demand in numerous application segments such as electronics, stainless steel and fabricated metal working markets. Argon is often substituted by helium in various sectors; however, rising helium prices are projected to boost argon demand in several applications. Growing infrastructural activities is expected to foster demand of steel which in turn is expected to drive argon market over the forecast period. Expanding automobile sector is also anticipated to increase product demand as steel is one of the main components of this sector. Increasing urbanization in emerging economies of Asia Pacific, South America and Africa are expected to drive the demand for argon for lighting purposes. In addition, rapid industrialization in these regions is expected to augment the demand for argon over the next few years. Furthermore, argon is being increasingly used for lightning purposes as it does not cause any harm to the environment. However, inhalation of argon gas is harmful to human life as excessive inhalation causes asphyxiant, which in turn can lead to death. The automobile industry is anticipated to increase demand of steel, eventually supporting the growth of the global argon market. The growing energy market is likely to increase demand of argon due to its application in insulated window and solar energy. The solar energy market demands massive volumes of argon for manufacturing process. Argon gas is used for insulation of windows to prevent the cold air from glass panes to enter inside. Growing number of malls and shopping complexes using lighting is expected to boost the market during the forecast period. Tags Industrial Gas, Industrial Gas Manufacturing, Industrial Gases Industry, Industrial Gas Manufacture, Industrial Gases Pdf, Industrial Gas Manufacturing Industry, Industrial Gas Business, Industrial Gases Production, Manufacturing of Industrial Gases, Projects on Industrial Gases, Opportunities in Industrial Gases Industry, Industrial Gases and Gas Mixtures, Oxygen & Nitrogen Gas Manufacturing, Speciality Gases, Manufacturing Process for Specialty Gases, Production of Specialty Gases, Specialty Gases Manufacturing Project Ideas, Specialty Gas Production, Specialty Gases Plant, How Oxygen is Made, Production of Oxygen Gas, Industrial Production of Oxygen, Oxygen Gas Production Plant, Oxygen Plant, Oxygen Gas Manufacturing Process, Uses And Applications of Oxygen Gas, Oxygen Manufacturing Plant Cost, Liquid Oxygen Plant in India, Manufacturing Process of Oxygen, Nitrogen Gas, Industrial Gas Manufacturing Plant, Industrial Nitrogen Gas, How is Nitrogen Produced for Industrial Applications? Nitrogen Gas Uses, Nitrogen Production Process, Industrial Preparation of Nitrogen, Nitrogen Plant Flow Diagram, Liquid Nitrogen Plant, Industrial Production of Nitrogen Gas, Process for Making Liquid Nitrogen Gas, Nitrogen Production, Manufacturing Process of Nitrogen Gas, Nitrogen Gas Plant, Producing Oxygen and Nitrogen Gases, Argon Production, Production of Argon, Argon (Ar) Gas Manufacture, Argon Gas Manufacture, Project Report on Oxygen Manufacturing Industry, Detailed Project Report on Industrial Gases Production, Project Report on Specialty Gases Plant, Pre-Investment Feasibility Study on Oxygen Manufacturing, Techno-Economic feasibility study on Nitrogen Production, Feasibility report on Nitrogen Production, Free Project Profile on Nitrogen Production, Project profile on Specialty Gases Plant, Download free project profile on Industrial Gases Production
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Ferro Vanadium Production Business
Ferro Vanadium Production Business. Ferrovanadium Market is expected to Expand at a CAGR of 5.0% between 2018 and 2028. Ferro Alloys Industry Ferro Vanadium is an alloy which is formed by combining iron and vanadium with a vanadium content range of 35%-85%. Ferrovanadium is a universal hardener, strengthener and anti-corrosive additive for steels like high-strength low-alloy (HSLA) steel, tool steels, as well as other ferrous-based products. Ferro vanadium belongs to the category of ferroalloy. Ferro vanadium is an alloy which is formed by combining iron and vanadium. Ferrovanadium contains 35% to 85% of vanadium depending on applications of the product in end-use industry. Ferrovanadium is an alloy material that is used in manufacturing of steel. It imparts desirable properties such as abrasion resistance, high temperature and hardenability. Ferrovanadium used for manufacturing of steel offers the end product with high stability against alkalis as well as acids such as sulphuric and hydrochloric acids. In addition, products containing ferro vanadium are at reduced risk to be susceptible to corrosion. Ferro vanadium also helps in reducing the overall weight of the material as well as increasing the overall tensile strength of the end product. In addition, it helps in promoting fine grain size and increasing hardenability through precipitation of nitrides and carbides. Ferro vanadium is manufactured using an electric arc furnace in which scrap iron is melted initially and then it is combined with the mixture of aluminum as well as flux such as calcium fluoride and calcium oxide. It is usually supplied in pallet boxes or in shrink wrapped in super bags. Ferro Vanadium is produced from Vanadium Sludge & usually available in the range with V: 50-85%. Ferro Vanadium acts as universal hardener, strengthener and anti-corrosive additive for steels like high-strength low-alloy (HSLA) steel, tool steels, as well as other ferrous-based products. Origin of Ferro Vanadium is mainly India and China. Vanadium is applied for alloying titanium, niobium, and chromium-based alloys widely used in aviation, rocket and space engineering. Pure metallic vanadium is used in the nuclear industry and in the manufacture of electronic devices. Ferrovanadium increases hardenability and resistance to tempering. It is used to enhance toughness, resistance of steel to alternating loads. Ferrovanadium is also used to obtain fine-grained structure of steel. Ferro Vanadium was primarily recovered from titanium-bearing magnetite ore processed to produce pig iron. The process produces a slag containing 20% to 24% vanadium pentoxide, which can be further processed to ferrovanadium containing 40% to 50% vanadium. 84% came from ferrovanadium and nearly all of it (99%) went into steel manufacturing. The Ferro Vanadium is used as an alloying agent for the metals iron and steel and also aerospace. Application The most important use of vanadium is as an additive for steel. It is used for the production of rust resistant, spring and high speed tool steels. It is also added to steels to stabilize carbides. Vanadium foil is also used to bond titanium to steel. Due to its low fission neutron cross section vanadium is also used in nuclear applications. The Ferro Vanadium is used as an alloying agent for the metals iron & steel and also aero. Ferro Vanadium is used primarily as an alloying agent for iron and steel and, with the exception of the steel industry, the aerospace market is the primary user of the metal. It is found in deposits of titaniferous magnetite, phosphate rock and uraniferous sandstone and siltstone. Significant amounts are also present in bauxite and carboniferous materials such as crude oil, coal, oil shale and tar sands. Vanadium is usually recovered as a by-product or co-product, and thus world resources of the element are not fully indicative of available supplies. Vanadium is also useful in the production of aerospace titanium alloys and as a catalyst in producing maleic anhydride and sulfuric acid. Most of the ferro vanadium manufactured is utilized in the alloying process used to manufacture hardened steel. Hardened steel further finds application in the manufacturing of axles, bicycles frames, crankshafts and other highly critical steel components. Thus, the growing steel industry is expected to boost the overall growth in the demand for the ferro vanadium market. Market Outlook The steel industry accounts for around 92% of vanadium consumption. Tool, high speed and high alloy steels contain around 20% vanadium, and high strength low alloy (HSLA) steel contains less than 0.5% vanadium. Around 4% of annual vanadium production is as a titanium alloy for aerospace and industrial purposes. This alloy Ti6-4 (4% vanadium) is the workhorse titanium alloy used in aerospace applications. The main demand drivers for ferro-vanadium are global steel production rates and the vanadium consumption rate used within the steel industry. The main vanadium raw material is referred to as vanadium pentoxide. Vanadium can either be derived from mined ore, from steelmaking slags, or from petroleum residues. The leading vanadium-producing nations remained China, Russia, and South Africa. Japan and the United States were thought to be the only countries to recover significant quantities of vanadium from petroleum residues. The major consumption of the ferro vanadium that is being manufactured is used in the process of alloying that is used in the manufacturing of the hardened steel. Hardened steel is used in the applications such as in the manufacturing of bicycles frames, axles, crankshafts, and other very critical components of steel. Thus, the industrial progress of the steel industry will trigger the growth of the ferro vanadium market. In the manufacturing of the high carbon steel alloy, ferro vanadium is used widely. This high carbon steel is used in the production of the medical tools. When vanadium is used in the alloys of titanium they can be used for manufacturing of the high-speed airframes and in jet engines. The overall weight of the steel is reduced by using ferro vanadium; hence, it is used in the manufacturing of the automobiles that are light in weight. Ferrovanadium is an alloy used to strengthen steel. It is a combination of iron and vanadium in which vanadium content varies from 35%-80%. It is used as an additive to enhance the quality of ferroalloys. When added to steel, the products are light in weight with extremely high tensile strength. The market for ferrovanadium is primarily driven by increasing demand for high strength steel and high strength low alloy steel from the construction and automotive and transportation industries. The growth of these industries will be the key contributor responsible for the growth of the market of ferrovanadium during the forecast period. As these industries are most prominent industries consuming majority of the steel consumption across the globe. The global ferrovanadium market has been segmented as FeV40, FeV50, FeV60, FeV80 and nitride ferrovanadium. On the basis of production method, the ferrovanadium market is segmented into aluminothermy reduction and silicon reduction. On the basis of end use, the global ferrovanadium market is segmented into aerospace, automotive & transportation, construction, oil & gas industrial equipment and others. In the others segment of end use industries. The growth of the region will be supplemented by the growing construction and automotive sector. In addition, the Chinese ferrovanadium market is anticipated to witness additional demand for ferrovanadium in the coming years, mainly due to revised standards by the Chinese government for increasing the tensile strength of rebar products. Ferrovanadium is the most commonly and widely used alloy for enhancing the strength of reinforcing bars used in buildings, bridges and tunnels. The global ferrovanadium market is expected to register a CAGR of 5.0% over the forecast period (2018-2028) in value terms. The estimated volume of ferrovanadium market in 2018 is 90,033 MT, and it is expected to grow at a CAGR of 3.4% to reach 125,698 MT by the end of 2028. The Indian alumina plants, which are mostly based on East Coast bauxite and that which have to meet the internal demand. On the other hand, with growth of Automobile and Casting Sectors, demand for ferrovanadium is expected to increase and this will have to be met by imports. The accelerated growth in the Forging Industry and increased demand for die steels and tool steel too, have paved way for increased vanadium consumption. Tags Ferrovanadium, Process for Production of Ferro-Vanadium, Ferrovanadium Production, Process for Producing Ferrovanadium Alloys, Ferro Vanadium, Vanadium, Production of Ferrovanadium, Ferrovanadium Production Process, Ferrovanadium Formula, Ferro Vanadium Uses, Vanadium and Ferrovanadium, Production of Vanadium Alloys, Ferro Alloys, Manufacture of Ferro Alloys, How to Start Production of Ferroalloys, Ferro Vanadium Industry, Project Report on Ferro Vanadium, Vanadium Industry, Vanadium Processing, Ferro Vanadium Manufacture, Ferro Vanadium Manufacturing, Project Report on Ferrovanadium Production Industry, Detailed Project Report on Ferrovanadium Production, Project Report on Ferrovanadium Production, Pre-Investment Feasibility Study on Ferrovanadium Production, Techno-Economic feasibility study on Ferrovanadium Production, Feasibility report on Ferrovanadium Production, Free Project Profile on Ferrovanadium Production, Ferro Alloys Production Process Pdf, Project profile on Ferrovanadium Production, Download free project profile on Ferrovanadium Production, Opportunities in the Ferroalloy Sector
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Hosiery Products (Vest, Briefs, T-Shirts & Socks)
Hosiery also referred to as legwear, describes the garments, worn directly on the feet and legs. The term hosiery is also being used for the type of knitted fabric, its weight and thickness. It is manufactured in a wide range of fabric weights, knits and colors. In general, heavier weight fabrics are stronger and more durable, but are thicker and show less of the natural skin tone. On the other hand, lighter garments look and feel more luxurious but are not strong as compared to the heavier ones. The hosiery includes categories such as sheers, support hosiery, control tops, opaques, tights, stay-ups, stockings, maternity pantyhose and run-resistant garments. The growth of the global hosiery market is driven by the robust demand for comfortable and stylish hosiery among the consumers. Changing lifestyles and demographic factors are bringing changes in demand patterns for hosiery. Further, the global demand for hosiery is increasing due to the increasing employment rate across various countries in the world. Further, rising disposable income is expected to intensify the growth of the global hosiery market. Moreover, rapid urbanization is anticipated to positively impact the growth of the hosiery market. Rising personal disposable income along with changing lifestyle is anticipated to expand the growth of global hosiery market during the forecast period. Apart from this, propagation of modern retail formats such as supermarkets, discount stores, and pharmacy stores is resulting in increasing product visibility. This enables easier accessibility to clothing products such as hosiery to consumers. The increasing sales from online commerce sector is fuelling the growth of global hosiery market as it saves the time of buyers and offer various discounts on the products. Thus, the online store is expected to be the fastest growing segment which is anticipated to expand the growth of global hosiery market over the forecast period. The global hosiery market is expected to witness a steady growth attributed to considerable demand in the healthcare and fitness industry. Consumption of hosiery products is expected to remain high among women in terms of demography. Socks is predicted to witness significant demand in the global market as compared to other products. Increasing spending on fashion products coupled with growth in disposable income of consumer is anticipated to drive the demand for the hosiery market during the forecast period. Furthermore, in developing economies, rising preference towards western outfits resulting in higher spending on fashion clothing is in turn projected to drive the demand for hosiery products over the forecast period. Beside this, increasing population across the globe is also projected to drive the demand for hosiery products.
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