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Best Business Opportunities in Togo, Africa- Identification and Selection of right Project, Thrust areas for Investment, Industry Startup and Entrepreneurship

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Micronutrients Fertilizer

Micronutrient-efficient varieties grow deeper roots in mineral deficient soils and are better at tapping subsoil water and minerals. When topsoil dries, roots in the dry soil zone (which are the easiest to fertilizer) are largely deactivated and the plant must rely on deeper roots for further nutrition. The micronutrients are boron (B), copper (Cu), iron (Fe), manganese (Mn), molybdenum (Mo), zinc (Zn), and chloride (Cl). Micronutrient-efficient varieties grow deeper roots in mineral deficient soils and are better at tapping subsoil water and minerals. When topsoil dries, roots in the dry soil zone (which are the easiest to fertilizer) are largely deactivated and the plant must rely on deeper roots for further nutrition. Mixing micronutrients with fluid fertilizers has become a popular method of application. Clear liquids are commonly used as starter fertilizers for row crops and some micronutrients, especially zinc sources, are easily applied with these fluids. Micronutrient fertilizers can provide an optimal nutrient balance, tailored to the demands of the specific crop, soil and climate conditions Agriculture micronutrients are gaining popularity globally for obtaining better yield output. The global agriculture micronutrients market value is anticipated to increase from US$ 6,576.9 Mn in 2015 to US$ 13,344.2 MN by 2024, expanding at a CAGR of 8.3% during the forecast period (2016–2024). Increasing need for effective fertilizers due to poor soil quality and high demand for quality and uniform yield in view of the increasing population across the globe are factors anticipated to drive the growth of the agriculture micronutrients market over the forecast period. As a whole any entrepreneur can venture in this project without risk and earn profit. Few Indian major players • Abellon Agrisciences Ltd. • Agro Extracts Ltd. • Aries Agro Ltd. • Bayer Cropscience Ltd. • Champion Agro Ltd. • Coromandel Agro Products & Oils Ltd.
Plant capacity: Micronutrient Fertilizer for Fruit: 1,250 Kgs/Day Micronutrient Fertilizer for Vegetable: 750 Kgs/DayPlant & machinery: Rs.58 Lakhs
Working capital: -T.C.I: Cost of Project: 345 Lakhs
Return: 27.00%Break even: 55.00%
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Oxygen and Nitrogen Gas Plant (Medical and Industrial Grade)

Limelight used oxygen derived from sources such as the barium oxide Brin process. This process was based on the production of barium peroxide by roasting barium oxide in air at 590°C, then raising the temperature to 870°C. At 870°C the peroxide formed decomposes back into oxide, releasing more or less pure oxygen which can then be cooled and compressed into steel gas cylinders. Although crude, the process was ingenious in that it required no continuous input of raw materials other than air and energy. Oxygen is non corrosive and can be contained in any common metals. However care must be taken to remove all oil, grease and other combustible material from piping and containers before putting them into oxygen service. Nitrogen gas is a compound that forms from elemental nitrogen, which is found abundantly throughout the planet’s atmosphere and in most biochemical reactions. One of nitrogen’s unique properties is its ability to form multiple bonds with various other elements and compounds. Nitrogen is the chemical element with the symbol N and atomic number 7. It was first discovered and isolated by Scottish physician Daniel Rutherford in 1772, nitrogen is the principal gas in air (78%). Its first major industrial use lay in the manufacture of ammonia, used within the chemical industry as an intermediate for many compounds but especially nitrogenous fertilisers. In the combustion process, the oxygen in air is broken down to make carbon dioxide, water, and energy. Nitrogen is not an essential part of the process. In fact, nitrogen in air has negative impacts on combustion processes. Nitrogen gets heated by the reaction to very high combustion temperatures and is carried out through the flue. Essentially, the heated nitrogen leaving the flue is like throwing fuel out of the stack. Nitrogen blanketing is used to protect flammable or explosive solids and liquids from contact with air. Certain chemicals, surfaces of solids and stored food products have properties that must be protected from degradation by the effects of atmospheric oxygen and moisture. Protection is achieved by keeping these items in a nitrogen atmosphere. 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. As a whole any entrepreneur can venture in this project without risk and earn profit. Few Indian major players • Air Liquide India Holding Pvt. Ltd. • Arrow Oxygen Ltd. • Bellary Oxygen Co. Pvt. Ltd. • Bhagawati Oxygen Ltd. • Bhilai Oxygen Ltd. • Govind Poy Oxygen Ltd. • Howrah Gases Ltd. • Linde India Ltd.
Plant capacity: 3200 cumtrs/DayPlant & machinery: Rs. 183 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 675 Lakhs
Return: 26.00%Break even: 50.00%
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Woven PP Cement Sacks

Woven polypropylene bags are specializing in packing and transporting bulk commodities. Due to strength, flexibility, durability and lower cost, woven polypropylene bags are most popular products in industrial package, which are widely used in packing grain, feeds, fertilizer, seeds, powders, sugar, salt, powder, chemical in granulated form. Polypropylene bags also referred as 'Polypropylene bags' or 'PP bags'. Woven, or weaving is a method by many threads or tapes woven in two directions (warp and weft), to form a fabric for plastic industry needs. In the plastic woven industry, with a plastic film is drawn into filaments, woven into fabric/sheet/cloth. It can be into a tarpaulin, woven bags, container bags, tons of bags, geotextiles fabric, and color of the cloth and so on. Polypropylene bags are versatile, attractive bags most commonly used for packaging small items such as beads and lollies. These bags can be sealed with a heat sealer like many other plastic bags. While polypropylene is similar to cello, polypropylene bags are much clearer with neater seals, and have the advantage of being less expensive than cello bags. PP woven bags are increasingly used to pack food. Common food woven bags include rice PP weaved bags, flour PP woven bags, maize woven bags, etc. Geotechnical engineering: PP woven fabrics are extensively used in the construction of irrigation works, roads, railways, ports, mines, buildings, and more. Having the functions of filtering, draining, isolation, and anti-seepage, PP woven fabrics are one of the most popular geo synthetics. The special woven bags also are used to serve some special purposes. For example, UV resistant woven bags have UV protection and anti-aging function, allowing them a longer lifespan in the sunlight. The global market for polypropylene woven bags and sacks market was valued at US$ 3,421.5 million in 2017. The market is expected to expand at a CAGR of 4.2% over the forecast period, 2018-2028. Thus, due to demand it is best to invest in this project.
Plant capacity: PP Woven Sacks (for Cement Bag 50 Kgs Size):258000 Nos/ day PP Woven Jumboo Sacks (for Cement Bag 1500 Kgs Size):956 Nos/day Plant & machinery: Rs. 566 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 891 Lakhs
Return: 14.00%Break even: 48.00%
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Lithium Ion (LiFePO4) Cell Manufacturing

The Lithium Iron Phosphate Battery (LiFePO4 battery) or LFP Battery (lithium ferrophosphate), is a type of lithium-ion battery using LiFePO4 as the cathode material (on a battery this is the positive side), and a graphitic carbon electrode with a metallic backing as the anode. Cylindrical lithium cells are used for high specific energy density and good mechanical stability. Li-ion batteries have a higher energy density when compared to other rechargeable batteries. Li-ion batteries are composed of four main components namely cathode, anode, electrolyte, and separator. Lithium-ion battery generates electricity because of continuous reactions of lithium Li-ion Batteries have high power capacity without being too bulky. Lithium ion batteries are thus used in electronic equipment like mobile phones and laptops, which need to operate longer between charges while consuming more power and need batteries with a much higher energy density. Memory effect refers to as the process of losing maximum energy capacity of rechargeable batteries due to repeated recharges after being only partially discharged. They are used in telecommunication equipment, instruments, portable radios and TVs, pagers. They are used to operate laptop computers and mobile phones and aerospace application. Also used in electric vehicles, cell phones, camcorders, lap-top and palmtop computers, portable electronic devices, etc. The li-ion batteries are used in cameras, calculators; they are used in cardiac pacemakers and other implantable device. They are used in telecommunication equipment, instruments, portable radios and TVs, pagers. The lithium iron phosphate batteries market, by application, is segmented on the basis of the end-users it caters. The portable segment was the largest market in 2018 owing to its increased demand from the automotive sector, which is the major demand-generating industry for lithium iron phosphate batteries. The market for lithium-ion battery in India is expected to grow at a CAGR of 34. 8% during the forecast period of 2019 – 2024. In addition to it, the lithium-ion battery has comfortable rechargeable property, lightweight, long-lasting; thus, it perfectly contributes to the electric vehicle market to grow in the forecast period. Thus, due to demand it is best to invest in this project. Few Indian major players • BYD Company Ltd. • A123 Systems LLC, • K2 Energy • Electric Vehicle Power System Technology Co., Ltd. • Bharat Power Solutions
Plant capacity: 25000 nos/dayPlant & machinery: Rs. 3618 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 4626 Lakhs
Return: 25.00%Break even: 39.00%
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Production of Lithium Ion (LiFePO4) Cell batteries for electric vehicles

In today's portable electronics, two types of batteries are used: lithium-ion and lithium iron phosphate. Although they have some similarities, the high energy density, long life cycles, and protection of both are significant differences. The majority of people are familiar with lithium-ion batteries since they own a smartphone, tablet, or computer. Lithium iron phosphate is a newer type of battery that is gaining popularity in the manufacturing industry due to its low cost materials and high temperature stability. Related books:- Automobile Industry, Automotive Components & Allied Products Engine Parts, Piston, Pin, Piston Ring, Valve, Control Cable, Engine Mounting, Auto Lock, Disc Brake, Drum, Gear, Leaf Spring, Shock Absorber, Silencer, Chain, Cylinder Block, Chassis, Battery Advantages of Lithium Ion (LiFePO4) Cell batteries High energy density paves the way for even greater capacities. When fresh, there is no need to prime it for a long time. All that is required is a single daily fee. Self-discharge is less than half that of nickel-based batteries, suggesting that they have a poor self-discharge. Low Maintenance: There is no need for a periodic discharge, and there is no memory. Specialty cells can provide a large amount of current to applications like power tools. Lithium Ion (LiFePO4) Cell manufacturing process Cathode, anode, electrolyte, and separator are the four primary components of Li-ion batteries. The continuous reactions of lithium in a lithium-ion battery produce electricity. Cathode A Li-ion battery's power and voltage are determined by its cathode. Since lithium is unstable in its element form, the cathode of a Li-ion battery is lithium oxide. The frame of the cathode is held together by a thin aluminium foil, which is coated with a paste made up of active material, conductive additive, and a binder. Related project: - Lithium Ion Battery Anode The anode is also coated with an active material that allows for the reversible absorption or emission of lithium ions released from the cathode while also allowing for the flow of electric current through the external circuit. Lithium ions are contained in the anode rather than the cathode when the battery is charged. Lithium ions migrate back to the cathode via the electrolyte as the conducting wire binds the cathode to the anode in the discharge state, and electrons are isolated from lithium ions and travel along the wire, producing electricity. Electrolyte The electrolyte in a Li-Ion Battery allows the transfer of lithium ions between the cathode and the anode, as well as the movement of electrons through the wire. To allow the movement of lithium ions, an electrolyte is usually made up of chemicals with high ionic conductivity. Separator The cathode and anode determine the battery's basic efficiency, while the electrolyte and separator determine the battery's safety. By holding the cathode and anode separate, the separator serves as a physical barrier. It also prevents electrons from flowing directly through the internal microscopic hole, allowing only lithium ions to pass through. Synthetic resins such as polyethylene (PE) and polypropylene (PP) are widely used in commercialized separators (PP). Market outlook The demand for lithium iron phosphate batteries in North America, Europe, Asia-Pacific, Latin America, and the Middle East and Africa. North America is divided into three parts: the United States, Canada, and Mexico. Germany, the United Kingdom, Italy, France, and the rest of Europe make up Europe. China, India, Japan, and the Rest of Asia-Pacific make up Asia-Pacific. Because of its proven automotive sector and rising consumer electronics demand, Asia-Pacific dominated the global market. From 2020 to 2027, the global lithium iron phosphate battery market is projected to expand at a compound annual growth rate (CAGR) of 15.2 percent. Related videos: - Renewable Energy Sector, Green Power, Solar Energy, Biofuel, Hydroelectric, Wind, Non-conventional Energy, New and Renewable Energy Govt policies On November 11, 2020, the government approved the production-linked incentive (PLI) scheme in advance chemistry cell (ACC) battery manufacturing, as well as 10 other industries. The battery strategy of the scheme aims to make producers more internationally competitive, increase exports, achieve economies of scale, and develop cutting-edge goods. This is part of an attempt to encourage the use of electric vehicles (EVs), which have been hindered in India by high battery costs and a lack of supporting infrastructure. Battery imports account for more than half of the cost of an electric vehicle in India. The government has suggested that local manufacturing facilities be built in order to minimize costs and promote competition. The government has made it clear that it wants to drive India toward clean energy and transportation, as evidenced by the ambitious target of 450 GW of renewable energy production by 2020. Apart from promoting EVs, there has been a notable drive for renewable energy to be available around the clock, which includes energy storage like ACC batteries. Market Research; - Market Research Report The proposed battery policy is output-based rather than input-based, which is one of the scheme's key features. The subsidy is based on the amount of production generated and the amount of value added by private businesses. Only private companies would be eligible for a government subsidy if they reach a 60 percent value addition within five years of the project's start date, which is when full-scale development is planned. Any new technology that emerges in the next ten years will be eligible for a subsidy as well. Next, the government has set aside 570 billion (US$7.7 billion) for the car industry over the next five years as part of the programme. In reality, ACC manufacturing industries have been allocated 180 billion (US$2.4 billion) in advance. The government would pay the producer a fixed subsidy (as determined by the private entity's bid) for a period of ten years, subject to discounting over time. Economies of scale and lower production prices will be factored into the discounting. Key Players:- • BYD Company Ltd. • A123 Systems LLC, • K2 Energy • Electric Vehicle Power System Technology Co., Ltd. • Bharat Power Solutions • OptimumNano Energy Co., Ltd. • LiFeBATT, Inc. Related Projects: - Renewable Energy, Non-conventional Energy, Solar Energy, Biofuel, Biomass Projects Tags:- #LithiumIonBattery #LithiumIonBatteryProduction #LithiumIonBatteryIndustry #LithiumIonBatteryManufacturing #ElectricVehicles #ElectricVehiclesIndustry #ElectricVehiclesProduction #ElectricalIndustry #ElectricIndustry #RenewablePower #DetailedProjectReport #businessconsultant #BusinessPlan #feasibilityReport #NPCS #entrepreneurindia #startupbusiness #ProjectReport #startup #projectconsultancy #businessopportunity #IndustryDemands #profitablebusiness #ManufacturingBusiness
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Packaged Drinking Water with PET Bottles

Humans need clean tasty and safe drinking water free from any microorganism when human is thirsty and is ready to pay substantially if need be. This is available in Pouch, Bottles and cans as per requirement of the customers. The water used for potable purposes should be free from undesirable impurities. The water available from untreated sources such as Well, Boreholes and spring is generally not hygienic and safe for drinking. Thus it is desirable and necessary to purify the water and supply under hygienic conditions for human drinking purpose. Bottled water is drinking water (e.g., well water, distilled water, mineral water, or spring water) packaged in plastic or glass water bottles. Bottled water may be carbonated or not. Sizes range from small single serving bottles to large carboys for water coolers. Bottled water is the most dynamic market of all the food and beverage industry. Mineral water is bottled under very hygienic conditions under strict quality control before being marketed. Its major use is in five star Hotels, Hospitals, tourist place, function & People houses where good quality pure water is required for potable purposes. It is marketed at places and regions where hygienic drinking water is not freely available. The bottled water industry in India witnessed a boom soon after BISLERI launched its packaged drinking water in the country. This significant growth was fueled by a surge in advertising by the industry players that "bottled water was pure and healthy" As it is being considered as healthy compare to tap water or other water sources, the people conscious about health are opt for bottled water of known brand. India's packaged bottled water industry is currently dominated by the top five players, including PARLE (BISLERI, BAILLERY), PEPSICO (AQUAFINA), COCA COLA (KINLEY), DHARIWAL (OXYRICH) AND NOURISH CO. (HIMALYAN). Apart from these other leading bottled water brands in India are: KINGFISHER, TATA WATER PLUS, QUA, BLUEFIN, OVIVO, etc. The market is expected to reach INR ~403.06 Bn by the end of 2023, from its current value of INR ~160 Bn, expanding at a compound annual growth rate (CAGR) of ~20.75% from 2018. Based on volume, the market is likely to reach ~35.53 Bn liters by 2023, expanding at a CAGR of ~18.25% from 2018 to 2023. As a whole there is a good scope for new entrepreneur to invest in this business.
Plant capacity: Packaged Drinking Water 200 ml Size Bottle:28,800 Bottles per Day Packaged Drinking Water 500 ml Size Bottle:28,800 Bottles per Day Packaged Drinking Water 1000 ml Size Bottle:38,400 Bottles per DayPlant & machinery: 306 Lakh
Working capital: -T.C.I: Cost of Project:632 Lakh
Return: 24.00%Break even: 51.00%
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Production of Micronutrients Fertilizer. Most Profitable Industries to Launch Startups.

Introduction: Nutrients are needed for the survival of all living things. Plants, too, require vital nutrients in order to complete their life cycle. Carbon, Hydrogen, and Oxygen are all naturally occurring elements that are not supplied to plants. Major nutrients such as nitrogen, phosphorus, and potassium are needed in greater amounts by plants and must be supplied on a regular basis. Calcium, Magnesium, and Sulphur are secondary nutrients that are needed in smaller amounts than main nutrients. Micronutrient Fertilizer is required in very limited amounts by plants and plays an important role in their physiology. Related projects:- Disinfectants, Pesticides, Insecticides, Mosquito Repellents, Destroyers, Phenyl, Fertilizer, Fungicides, Herbicides, Plant Regulator, Plant Growth Regulator, Mixture, Intermediates, Agrochemicals, Bio Stimulate, Growth Activator, Organic Pesticides Zinc [Zn], Boron [Bo], Iron [Fe], Manganese [Mn], Copper [Cu], Molybdenum [Mo], Silicon [Si], Nickel [Ni], Cobalt [Co], and Sodium [Na] are all micronutrients. Plant micronutrients play an important role in flower initiation, fertilization, fruit set, and disease resistance. Sulfates are the most common micronutrient fertilizer sources for Zn, Cu, and Mn, but chelates are the most common Fe source, and borax and sodium molybdate are used for B and Mo, respectively. The soil property that has the greatest effect on micronutrient availability is soil pH, and for all but Mo, the higher the pH, the lower the plant availability. Liming, according to Mo, will potentially avoid deficiencies. Organic matter content, particularly for Cu, oxidation/reduction conditions, especially for Fe and Mn, soil texture, Fe and Al oxide content, and soil moisture conditions are also essential in bioavailability. Uses and Types of Micronutrients: We're all familiar with the basic nutrients for plants: nitrogen, phosphorous, potassium, magnesium, calcium, and sulphur. They're known as macronutrients. However, there is a long list of plant micronutrients that are also important for the health of your plants in far smaller amounts. These micronutrients, such as boron, iron, zinc, and others, not only promote healthy growth, but also aid in the fight against pests and diseases in your garden. Related Books:- Biofertilizer, Biofertiliser, Biogas, Organic Farming, Vermicompost, Vermiculture, Biotechnology Adding organic compost to your garden soil is the safest long-term way to keep it rich in the micronutrients it needs. Compostable materials such as grass clippings, leaves, plant trimmings, and table scraps already contain a variety of micronutrients. Their presence in your compost means that certain micronutrients are returned to the soil. Many regions have increased their use of micronutrients as a result of increased information gained over the last 25 years about plant requirements, sources, and the most successful methods of applying them. Higher crop yields, which are generally the product of higher NPK fertilizer prices, can also result in increased micronutrient requirements. Furthermore, the rapid change in the tropics to higher-analysis fertilizers like urea, triple superphosphate, and ammonium phosphate has reduced the amount of micronutrients added to the soil as fertilizer contaminants. Micronutrients are small amounts of basic elements used by plants. Crop absorption of most micronutrients is less than one pound per acre. Despite this low requirement, if micronutrients are not available, essential plant functions are hampered, resulting in plant abnormalities, reduced growth, and lower yield. In such situations, costly, high-demand crop inputs like nitrogen and water can be squandered. Growers are evaluating all possible obstacles to top grain production, including micronutrient shortages, as a result of higher yields, higher commodity prices, and higher crop input costs. Related project:- Micronutrients Fertilizer Production Process: By simply mixing the process with the right formula, a specific fertilizer grade of mixed micronutrients can be created. Micronutrients are divided into two categories based on their use. The one for foliar spray is different from the one for soil application. Micronutrients are essential for providing healthy nutrition to plants, and a lack of them can limit crop growth. One of the major factors driving the market's growth is the increasing occurrence of micronutrient deficiencies in soils around the world. Market Outlook: The Global Micronutrient Fertilizers Market is expected to expand at a rate of 10.2% over the next five years. However, the prevalence of micronutrients in soil is now decreasing at a faster rate, allowing for their artificial addition. This is where the micronutrient fertilizer industry has a lot of space to develop. The global Micronutrients Fertilizers market has the following segments based on the type: Boron, Copper, Iron, Manganese, Molybdenum, Zinc, and Others. The increase in soil degradation due to extensive cultivation and shrinking farmland will drive the micronutrient fertilizers market. Based on type, the global Micronutrients Fertilizers market is segmented into the following categories: Boron, Copper, Iron, Manganese, Molybdenum, Zinc, and Others. The demand for micronutrient fertilizers would be motivated by a rise in soil depletion due to intensive agriculture and diminishing farmland. Furthermore, rising demand for high-value crops such as fruits and vegetables would drive up demand for micronutrient fertilizers. The micronutrient fertilizers market is likely to be hindered by limited product availability. Related Videos:- Fertilizers, Biofertilizer, Inorganic Fertilizers (Mineral Fertilizer), NPK, Nitrogen Fertilizer, Nitrogenous Fertilizer, Diammonium Phosphate Projects Increased agricultural investment in developed countries, on the other hand, would open up opportunities for the micronutrient fertilizer industry. Based on feature, the global market for micronutrient fertilizers is divided into the following segments: soil, foliar, fertigation, and others. The agricultural micronutrients market is expected to expand due to factors such as increasing soil micronutrient deficiencies and rising awareness about food security. In terms of both value and volume, Asia-Pacific was the largest market for crop micronutrients. The rising demand for high-quality food, as well as farmers' increased awareness and acceptance of micronutrients, are some of the major factors driving the crop micronutrients market in Asia Pacific. Furthermore, the crop micronutrients market in this area is expected to be driven by an increase in agricultural practices and the demand for high-quality agricultural produce. Government Policy Micronutrients Fertilizers: India is a zinc-deficient country, according to an ICAR report under the Ministry of Agriculture and Farmers Welfare, with about 37% of soil samples analyzed for accessible zinc being found deficient. Owing to zinc deficiency, the World Health Organization (WHO) estimates that about 800,000 people die each year as a result of zinc deficiency, with 450,000 of them being children under the age of five. Low zinc intake could affect 60-70 percent of the population in Asia and Sub-Saharan Africa, according to estimates. Profile- Project Reports & Profiles This amounts to about 2 billion people in Asia and 400 million people in Sub-Saharan Africa in absolute terms. Zinc malnutrition has resulted from widespread zinc deficiency in humans, especially in developing countries like India. This has drew the attention of India's government and politicians, raising consciousness about the value of zinc in human health. In terms of fertilizer policy, the position of zinc was targeted through an Rs 500 per ton additional subsidy under the Nutrient Based Subsidy (NBS) Scheme, which was launched in 2010. Under the National Food Security Mission (NFSM), the government is actively promoting the use of zinc by providing farmers with an additional subsidy of Rs 500 per hectare for using micronutrients, including zinc fertilizers. Big fertilizer companies are also making forays into the zinc fertilizer market in India. Key Players: 1. Abellon Agrisciences Ltd. 2. Agro Extracts Ltd. 3. Aries Agro Ltd 4. Bayer Cropscience Ltd. 5. Champion Agro Ltd. 6. Coromandel Agro Products & Oils Ltd. 7. Good Value Mktg. Co. Ltd. For More Details:- https://www.niir.org/profile-project-reports/profile/2890/micronutrients-fertilizer.html
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Scope in Production of Woven PP (Polypropylene) Cement Sacks/Bags. Profitable Business Plant for Investment

Introduction: PP woven sacks, also known as polypropylene woven sacks, can be used in a surprising number of areas. They sound like they're only used for major big stuff because of their big name. This can be used in a number of locations, including grocery stores, department stores, fishermen, shipping staff, and so on. PP Woven bags are polypropylene woven bags that are widely used for material packaging in the fertilizer, cement, sand, food grains, sugar, and cattle feed, and other industries. Western Packaging is a major polypropylene bag manufacturer. They come in a variety of sizes, forms, and colours to meet the needs of a wide range of individuals and businesses. They are solid and long-lasting, capable of bearing even the heaviest loads. These are some of the most advantageous packaging options for ensuring that your goods are safe and kept fresh. Related projects:- Packaging Industry, Beverage Can, Bottles, Blister Packs, Carton, Bags, Plastic Bottles, Skin Pack, Tin Can, Boxes, Shrink Wrap, Paper Board, Food, Beverage PP Woven Sacks have proven their worth in the packaging units of many businesses over the years. These sacks are considered to be the toughest packaging bags on the market, and they are in high demand in the industry. These bags are made of non-woven fabric that is soft and comfortable, breathable, has good water absorption and anti-leakage properties, has good tensile strength, is non-stimulating and light, and has a waterproof PE film on the bottom layer that ensures cleanliness and hygiene. For added strength and longevity, these polypropylene bags are woven. Woven PP Cement Sacks Uses: The use of PP woven bags is critical in reducing the negative effects of flooding. Sandbags made of woven polypropylene are commonly used in the building of river banks, dams, and other related projects. PP woven bags are used by almost all, including staff, farmers, and cargo agents. Woven polypropylene bags have the following advantages: • It is non-toxic. • Reusable to the greatest degree possible • It is non-staining. • Durable • Environmentally friendly • Tear-resistant to prevent/minimize product loss • Antibacterial and easy to clean • Low density/lightweight • It's simple to make and cost-effective. • Waterproof or breathable (with laminated film) • Extremely stress and crack prone • Many acids, alkalis, organic solvents, and degreasing agents are immune to it. • Can withstand high temperatures (melting point of 167°F) Related Books:- Packaging Industry, Beverage Can, Bottles, Blister Packs, Carton, Bags, Plastic Bottles, Skin Pack, Tin Can, Boxes, Shrink Wrap, Barrel, Crate, Aseptic, Container, Active, Flexible, Rigid Plastic, Metal, Flexible, Glass, Paper Board, Food, Beverages These bags have a lot of design versatility, a lot of printing options, and a lot of strength. Many of our customers prefer woven polypropylene packaging bags because of these advantages. Rice, Sugar, Wheat etc. are commonly stored in polypropylene bags. This type of PP woven bag is primarily used to package cement and other items. The material may be directly filled with a hose, and once it is complete, the valve closes automatically, providing a locking mechanism. Manufacturing Process: Woven sacks can be laminated or unlamented and are made of polyethylene or polypropylene materials. These sacks are one of the most flexible packaging solutions available, with applications including fertilizers, construction materials, food grains, pesticides, cattle feedstock, and grocery products. Woven sacks are lightweight, moisture-proof, and long-lasting, with high strength and low seepage. The key processes in the production of pp woven bags are extrusion, circular weaving, flexo printing, gravure printing, lamination, bag cutting, LDPE/HDPE inserting, gusseting, and bag sewing. To give you, our valued customers, a better understanding of how to make a PP woven wallet. Polypropylene (PP) is used in the packaging industry and a variety of other industries to create a wide range of PP bags and packaging material. It is a very strong and long-lasting material. As a result, companies won't have to worry about the fabrics or bags lasting a long time if they're made of PP. Extrusion or blow moulding of polypropylene or polyethylene into a film, which is cut and stretched into a flat braid, and then woven into a woven fabric, creates woven cement bags. To radically increase the tension of woven bags, use high-quality polypropylene pp as a raw material that is not afraid of tearing. Enable customers to feel at ease. Related Video: Plastics Projects The following are some of the measures involved in making Woven PP Cement Bags: 1. Extrusion and winding are the first two steps in the process. 2. Weaving Fabric 3. Conversion of Bags 4. Yarn with Many Filaments 5. FIBC Manufacturing 6. Testing and packaging Market Outlook: The global demand for polypropylene woven bags and sacks is projected to rise at a CAGR of 4.2 percent over the next five years. Because of the huge demand for polypropylene products from the fast-moving consumer goods, packaging, and construction industries in the Asia-Pacific region, the Asia-Pacific region is the largest market for the production of polypropylene raw materials and recycled thermoplastics, as well as a growing understanding of the polypropylene plastics recycling industry's significant market potential in society, are propelling the region to the forefront of global demand for recycled polypropylene plastics. Polypropylene woven bags and sacks are non-toxic and 100% reusable. The market for Polypropylene Woven Bags and Sacks is expanding at a faster rate, with significant growth rates over the last few years. Books: - BOOKS & DATABASES The growth of the Polypropylene Woven Bags & Sacks market is fueled by the packaging industry's positive growth, which is a major factor driving the global Polypropylene Woven Bags & Sacks market. Furthermore, the market's growth can be attributed to changing lifestyles in developing countries and increasing per capita income, both of which are driving the Global Polypropylene Woven Bags & Sacks Market. The market for polypropylene woven bags and sacks is expected to rise steadily. The growth of the Polypropylene Woven Bags & Sacks market is fueled by the packaging industry's positive growth, which is a major factor driving the global Polypropylene Woven Bags & Sacks market. Polypropylene woven bags and sacks are used in a variety of industries. Polypropylene woven bags and sacks are widely used in agriculture, food processing, geotechnical packaging, tourism and transportation, everyday necessities, and flood control devices, to name a few. Several major polypropylene woven bag and sack manufacturers are concentrating on biodegradable bio-based polypropylene woven bags and sacks that can be quickly recycled without harming the environment. Food and beverage packaging, which uses polymer bags, is primarily driving the global market. Cosmetics, medicinal devices, chemicals, and fertilizers can all be packaged using this material. Key Players: ? Abdos Polymers Ltd. ? Berry Global, Inc. ? Emmbi Industries Limited ? Al-Tawfiq Company ? Muscat Polymers Pvt. Ltd. ? Mondi Group plc ? Palmetto Industries ? Printpak Inc. ? United Bags, Inc. ? Uflex Ltd. For More Details:- https://niir.org/profile-project-reports/profile/846/pp-bags-for-cement-manufacturing-plant-detailed-project-report-profile-business-plan-industry-trends-market-research-survey-manufacturing-process-machinery-raw-materials-feasibility-study-investment-opportunities-cost-revenue.html
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Emerging Business of Industrial Gases (Industrial Gases Market Size is expected to Rise Significantly) Start the Production Plant of Oxygen and Nitrogen Gas

Introduction: Industrial gases are used in a variety of industries and are gaseous at room temperature and pressure. Chemicals, electricity, medicine, electronics, aerospace, and even food are among these industries. These gases, as useful as they are, can be flammable and pose other risks. Gases, liquids, and cryogenic liquids are all possible uses for industrial gases. They are commonly accepted by industrial users as gases that are used in significant quantities in their pure form. No animal can survive without oxygen, which is a natural resource. Fish and other marine organisms depend on oxygen gas dissolved in water in the same way as humans do. Another money-saving option is an oxygen plant that includes a molecular screen battery drier device for moisture and carbon dioxide separation. It removes acetylene and other hydrocarbons from the process air, removing the need for separate acetylene absorbents and, more importantly, the expense of caustic soda. Related Projects: Oxygen and Nitrogen Gas Plant (Medical and Industrial Grade) Nitrogen gas is an inert gas that can be found in abundance in nature, both free and as part of industrially important compounds. Nitrogen gas is colourless, odourless, and tasteless, as well as being inert. These characteristics make it suitable for use in a variety of manufacturing processes, but they also make it a potential safety hazard for workers. As a result, nitrogen gas producers and consumers must take sufficient nitrogen safety measures. The chemical element nitrogen has the symbol N and the atomic number 7. Nitrogen is the lightest element of Periodic Group 15, also known as the pnictogens. It is a common factor in the universe, with a total abundance estimated to be about seventh in the Milky Way and Solar System. Two atoms of the element join together at normal temperature and pressure to form dinitrogen, a colourless and odourless diatomic gas with the formula N2. Uses of Oxygen and Nitrogen Gas Plant: The industrial and medical gases industries represent a sizable number of customers in the city. Industrial gases are needed in almost all manufacturing processes. In the essential and infrastructure sectors, large amounts of oxygen, nitrogen, and argon are used. For cutting and welding, shipyards and the automotive industry use acetylene, propane, and mixtures of fuel gases and oxygen. In the recycling of plastics, packaging, and scrap tyres, liquid nitrogen is important. All major industrial gases are used as a raw material or for inerting in the chemical industry. Cylinder gas and mixtures make up the other smaller industry group. In steelmaking, oxygen is needed for the reaction that converts carbon to carbon dioxide gas, which occurs at high temperatures in a blast furnace. The carbon dioxide emitted enables iron oxides to be reduced to more pure iron compounds. Other applications that include metal and require high temperatures, such as welding torches, use oxygen. Hydrocarbon molecules are broken apart by heating, and oxygen is used to degrade them. This is used to generate combustion, which produces water and carbon dioxide in most cases, but also the hydrocarbons acetylene, propylene, and ethylene in some cases. Nitrogen gas is used by some factories on a daily basis in remote areas. Related Project: Oxygen and Nitrogen Gas Plant Due to safety concerns and time delays, delivering liquid nitrogen to these locations is not feasible. It is important for industries such as chemical production, offshore drilling, and some pharmaceutical firms to have on-site nitrogen. On-site nitrogen generation not only ensures a consistent nitrogen solution, but it also helps these industries to adjust their purity levels depending on the application. The importance of nitrogen as a purging gas in the steel industry cannot be overstated. It's used as an assist gas to blast molten material away, resulting in a better, corrosion-resistant stainless or aluminized steel product. When formation pressures start to dwindle, nitrogen produced by various standard methods can be injected into an oil reservoir as an enhanced oil recovery technique. These secondary recovery strategies can restore and extend the life of well-produced goods. Manufacturing of Oxygen and Nitrogen Gas Plant: Compressed oxygen, liquid oxygen, and nitrogen are the four materials. d) All liquid nitrogen is extracted in the same plant from air. The raw material, air, is cryogenically liquefied, and the liquid oxygen and liquid nitrogen components are separated in a fractional distillation column. Compressors / pumps bottle compressed oxygen and nitrogen gases into cylinders. After vaporisation of the respective liquid fractions, compressed oxygen and nitrogen gases are bottled into cylinders by compressors / pumps. The air is compressed to a pressure of 30kg/cm2 in three steps. Following that, water vapour and carbon dioxide are removed using a battery of molecular sieves. The carbon dioxide and water vapor-free air is compressed still more to a pressure. External refrigeration is used to compress the outgoing carbon dioxide and water vapour free air to a pressure of 100 kg/cm2 and cool it significantly. The outgoing product gases cool the high-pressure air even further in heat exchangers. The majority of the cold air is allowed to expand via an expansion motor, while the remainder is redirected via an expansion valve. The expansion engine's downstream air reaches a pressure of 5 kg/cm2 and a significantly lower temperature. Partially liquefaction of air occurs when the other stream of air passing through the expansion valve is extended to a pressure of 5kg/cm2. Related Videos: Industrial, Medical and Specialty Gases Manufacturing Project Ideas Both streams of air are combined and added to the bottom column of the double rectification column as a liquid vapour mixture (fractional Distillation Column). Because of mass and heat transfer at each perforated tray in the column, nitrogen-rich liquid vapour collects at the top trays, while an oxygen-rich liquid-vapor mixture collects at the bottom trays. The liquid nitrogen that has accumulated at the top of the bottom column is drawn out and stored in vacuum-insulated cryogenic tanks as a product. This liquid nitrogen is pumped from the storage tank via vaporizers for gasification and bottling into cylinders to produce nitrogen gas. The oxygen-rich liquid-vapor mixture at the bottom column's sump is redirected to the distillation column's top column, which operates at a lower pressure of 0.5kg/cm2. Further separation of oxygen and nitrogen vapour occurs in this low-pressure column through a mass and heat transfer process at the various trays inside the column. Related Books: - BOOKS & DATABASES Due to heat exchange with the cooler liquid nitrogen produced at the top of the bottom column, the separated oxygen vapours settle at the bottom of this column and condense to form liquid oxygen. The liquid oxygen that has accumulated at the bottom of the top column is extracted as a result and stored in vacuum-insulated cryogenic tanks. This liquid oxygen can be vaporised by heat exchange between incoming process airs and compressed by oxygen compressors for bottling into cylinders to produce compressed oxygen. Alternatively, the stored liquid oxygen may be pumped into vaporizers for gasification and cylinder filling. The plant's processing modes can be changed to produce: 1) Liquid nitrogen and compressed oxygen, with in-built vaporizers filling compressed oxygen, or 2) Liquid oxygen only, with external vaporizers filling compressed oxygen, depending on requirements. Market Outlook: The rising demand for alternative energy sources is driving the growth of the industrial gases industry. Furthermore, the global industrial gases market is being driven by increasing demand for industrial gases in the health care sector. In the other side, the government is strict. Its business development is being hampered by laws and regulations relating to environmental emissions and safety concerns. At a compound annual growth rate (CAGR) of -0.9 percent, the global industrial gas demand is forecast to decrease from $101.8 billion in 2019 to $100.9 billion in 2020. The industrial gases industry is expanding due to growing demand for renewable energy sources. Furthermore, rising demand for industrial gases in the health-care sector is driving the global industrial gases market. The government, on the other hand, is strict. However, the industrial gases industry is capital-intensive and needs significant investment, which may be a limiting factor in the market's growth. The global industrial gases market has a plethora of growth prospects in emerging economies. Increasing Demand of Oxygen Gas Due to Covid-19: The COVID-19 epidemic resulted in a major rise in global demand for medical oxygen. The rising prevalence of chronic diseases and infectious diseases such as Covid-19, cancer, asthma, diabetes, heart attack, and others, as well as an increase in the global geriatric population, are driving the medical oxygen gas cylinders industry. The compressed oxygen gas in commercial oxygen gas cylinders is used for medical purposes. Patients suffering from illnesses such as asthma, cancer, and others benefit greatly from medical oxygen gas cylinders. The primary goal of an oxygen cylinder is to keep the body supplied with pure oxygen. Oxygen cylinders are in high demand in hospitals, home care settings, and other places. With the number of Covid-19 cases in the electricity approaching 19,000, demand for oxygen has increased as a result of patients needing breathing assistance due to the disease's lung complications. Now is the time to put medical oxygen first. Oxygen should be viewed as a critical utility, much like electricity. Key Players: • Air Liquide India Holding Pvt. Ltd. • Arrow Oxygen Ltd. • Bellary Oxygen Co. Pvt. Ltd. • Bhagawati Oxygen Ltd. • Bhilai Oxygen Ltd. • Govind Poy Oxygen Ltd. • Howrah Gases Ltd. • Linde India Ltd. • Madhav Industrial Gases Pvt. Ltd. • Niket Udyog Ltd. • Praxair India Pvt. Ltd. • Pushya Industrial Gases Ltd. • Rukmani Metals & Gaseous Pvt. Ltd. • Saraogi Oxygen Ltd. • Southern Gas Ltd. • Travancore Oxygen Ltd. For More Details: https://niir.org/profile-project-reports/profiles/industrial-gases-projects/z,,23,0,a/index.html
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Start an Innovative Industry of Soya Nuggets (Soya Chunks, Soya Bean) Soy Nuggets Processing Business Ideas & Opportunities

Introduction: Soya nuggets, nutri nuggets, soy chunks, and soy nuggets are some of the other names for soya nuggets. Soya chunks are an odourless and tasteless food with a high nutritional value and a high protein content. Everyone's favourite food item, soya nuggets are a wonder bean for adults and teenagers alike. Soybeans have been one of the most divisive foods. Soybeans are making their way into a lot of kitchens around the world. Controlling blood sugar levels, lowering cholesterol, regulating bowel movements, and relieving constipation are all benefits of soy beans. The beans are fermented and used to make flavouring pastes in addition to the traditional tofu or bean curd. In Indian cuisine, soya chunks are commonly used in pilaf, biryani, and a number of curries. Related Project: Soya bean Nuggets (automatic Plant) These Nutri nuggets are a wonderful dish that adds flavour to the palate when mixed with aromatic spices. Soya beans go well with roti, chapatti, and paratha, as well as hot steamed rice. Soybean cultivation is successful in hot summer climates, with ideal temperatures ranging from 20°C to 30°C. Temperatures below 20°C and above 40°C have been found to significantly slow development. It thrives in a variety of soils, but thrives best in moist alluvial soils with high organic content. Modern soybean varieties grow to about 1 m (3 ft) in height and take 80-120 days to mature from seed to harvest. Soya chunks come in a variety of sizes and shapes, including standard big chunks, mini chunks, and granules, and can be used in a variety of ways. Benefits & Uses of Soya Nuggets: Soya's high protein content, vitamins, minerals, and insoluble fibre are its main advantages. They contribute a maximum of 50 percent protein to the vegetable proteins. They're also widely used as meat substitutes because they're cholesterol-free. Because of its high nutritional value, these Soya nuggets can be used in the preparation of a variety of food items in both households and restaurants. Vitamin B, fibre, magnesium, and potassium are among the nutrients contained in it. While soya beans can be used to make delicious curries, soya milk, tofu, and soya chunks are also becoming increasingly common. Soya chunks, in particular, work well in a number of dishes, including pulao, daily curry, and Asian stir-fry. Bodybuilders will love soya chunks, particularly vegetarians. Related Books: Food Processing, Food Industry, Agriculture, Agro Processing, Processed Food, Cereal Food, Fruits, Vegetables, Bakery, Confectionery, Milk, Dairy, Meat, Fisheries, Spices Oils, Fats, Coconut, Tea And Tobacco Based Products It contains a decent amount of protein and calcium, both of which are important for muscle growth and bone health. Calcium is a mineral that aids in the strengthening of bones and teeth, as well as muscle contractions. Each 100g serving of soya chunks contains over 300 mg of calcium. Calcium intake for an average adult should be 1000 mg per day. Women over the age of 50 and men over the age of 70, on the other hand, can take 1200 mg per day. Soya chunks contain very little fat; instead, the calories come from carbohydrates and protein. Approximately 340 calories are included in a 100g serving. Based on a 2000-calorie diet, this amounts to around 17% of total consumption. Iron, an electrolyte mineral, is used to transport oxygen in the body. A lack of iron in the body can result in a weakened immune system, physical weakness, and fatigue, among other things. Soya chunks were discovered to have a high iron content. The iron content of a 100g serving is approximately 10mg. A typical adult needs 8mg per day. Women aged 19 to 50, on the other hand, need 18mg per day. Manufacturing Process: India is one of the world's leading soy bean producers. Soya nuggets, also known as Soya Chunks or "Bari," are a form of vegetarian meat. Extrusion cooking is used to prepare it from defatted Soya flour. The protein in the flour undergoes structural changes and forms a fiber-like network throughout the process. After soaking in water, the texturized food absorbs the water and develops meat-like and chewy characteristics, which is why nuggets are referred to as vegetarian meat. Defatted soy flour, a by-product of soybean oil extraction, is used to make soya chunks. It has a protein content that is comparable to beef. It's fast and simple to prepare. Related Videos: Agro-Food Processing Industries Defatted soy flour or byproducts left over after extracting oil from soybeans are used to make soya chunks. When immersed in warm water or gravy, they have a rough texture that quickly shifts to smooth and spongy. Soya chunks are high in omega-3 fatty acids and protein, making them a good meat replacement. Market Outlook: Around 2018 and 2020, the global soybean market consumed 347 million metric tonnes of soybeans. In the forecast period of 2021-2026, consumption is projected to rise at a CAGR of 2%, reaching a volume of 373 million metric tonnes by 2026. Demand for soya nuggets is more as more health-conscious urban Indians begin to consume them. Animal feed and pet food are two of the most popular uses for soybeans. The value of imported soybeans has changed dramatically on the global soybean market. The soybean market takes centre stage here because its commodity is steadily replacing dairy by offering the same nutrients while still ensuring environmental sustainability. Soybean is high in amino acids and is particularly helpful to people who have lactose intolerance. Soybeans are commonly used in the food industry as salad dressings and other cooking ingredients. Market Research: - Market Research Report Soybeans are also common as a low-cholesterol and low-fat alternative to fatty foods. Lactose intolerant people will appreciate this dairy option. These factors would propel the soybean market forward. Soy milk, tofu, tempeh, silken tofu, and soy curd are only a few of the items available in the soybean market that can fully substitute milk and its products in our daily lives. As a result, in the coming years, soybean dairy-like products will disrupt the market and shape its course. It also has a high nutrient content of fibres, protein, antioxidants, phytoestrogens, and omega-3 fatty acids, among other things, which provides various health benefits. Increased obesity cases have resulted in a transition to soybean-based snack and food items such as soy chocolate nuts and soy crisps, propelling the soybean market even higher. It is also beneficial for people with anaemia since it is high in iron and copper, which aids in the production of red blood cells. As a result, increasing health consciousness and demand for dairy alternatives are propelling the global soybean market forward. Key Players: ? Ruchi Soya Industries Ltd. ? NOW Health Group ? Davert GmbH ? Sita Shree Food Products Ltd. ? Mahakali Foods Pvt. Ltd. ? MDH Spices For More Details: https://niir.org/profile-project-reports/profiles/soya-soy-based-food-products-soy-sauce-soy-yogurt-soybean-flour-soybean-oil-soy-milk-soya-extract-soy-protein-soya-nuggets-soya-paneer-tofu/z,,e8,0,a/index.html #DetailedProjectReport #businessconsultant #BusinessPlan #feasibilityReport #NPCS #entrepreneurindia #startupbusiness #ProjectReport #startup #projectconsultancy #businessopportunity #NewBusinessPlan #BusinessProfessional #BusinessConsulting #SoyaNuggets #SoyFood #SoyabeanMarket #SoyabeanProduction #SoyaProduction #SoyaBusiness #SoyaIndustry #SoyaProducts #FoodProcessing #SoyaFood #SoyFoodProcessing
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