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

Agro and Food Processing: Project Opportunities in Uttarakhand

PROFILE:

Food processing involves any type of value addition to agricultural or horticultural produce and also includes processes such as grading, sorting and packaging which enhance shelf life of food products. The food processing industry provides vital linkages and synergies between industry and agriculture. The Food Processing Industry sector in India is one of the largest in terms of production, consumption, export and growth prospects. The government has accorded it a high priority, with a number of fiscal reliefs and incentives, to encourage commercialization and value addition to agricultural produce, for minimizing pre/post harvest wastage, generating employment and export growth. India's food processing sector covers a wide range of products fruit and vegetables; meat and poultry; milk and milk products, alcoholic beverages, fisheries, plantation, grain processing and other consumer product groups like confectionery, chocolates and cocoa products, Soya-based products, mineral water, high protein foods etc.

RESOURCES:

Uttarakhand comprises of total are 5672568 Hectares, of which forest area is 3485847 hectares. Fruits such as apples, oranges, pear, grapes peach, plum apricot, litchi, mangoes and guava are widely grown in the state and therefore have immense potential for development of horticultural crops and processing units. The State Government will assist in establishing small & medium size Agro Parks, Food Parks etc., which will provide common infrastructure facilities for storage, processing, grading and marketing, thus ensuring that surplus fruits and vegetables do not go waste as at present. Four Agri Export Zones have already been declared under the AEZ scheme of the Government of India for Litchi, Horticulture, Herbs, Medicinal Plants and Basmati Rice. Further, efforts will continue to promote production for export and provide access to domestic and export markets for products from the State.

GOVERNMENT POLICIES:

The Ministry of Food Processing Industries (MOFPI) is a ministry of the Government of India is responsible for formulation and administration of the rules and regulations and laws relating to food processing in India. The ministry was set up in the year 1988, with a view to develop a strong and vibrant food processing industry, to create increased employment in rural sector and enable farmers to reap the benefits of modern technology and to create a of surplus for exports and stimulating demand for processed food.

•        Custom duty rates have been substantially reduced on food processing plant and equipments, as well as on raw materials and intermediates, especially for export production.

•        Wide-ranging fiscal policy changes have been introduced progressively in food processing sector. Excise and Import duty rates have been reduced substantially. Many processed food items are totally exempt from excise duty.

•        Corporate taxes have been reduced and there is a shift towards market related interest rates. There are tax incentives for new manufacturing units for certain years, except for industries like beer, wine, aerated water using flavouring concentrates, confectionery, chocolates etc.

•        Indian currency, rupee, is now fully convertible on current account and convertibility on capital account with unified exchange rate mechanism is foreseen in coming years.

•        Repatriation of profits is freely permitted in many industries except for some, where there is an additional requirement of balancing the dividend payments through export earnings.

 

Biotechnology: Project Opportunities in Uttarakhand

PROFILE

The Biotechnology sector in India is one of the fastest growing sectors of the Indian Economy. As the sector is mainly based on knowledge, it is expected that it will play an important part in shaping the Indian Economy, which is developing at a rapid pace. The Indian Biotechnology sector holds immense potential in terms of research and development, skill and cost effectiveness. As per the eight annual survey by the Association of Biotechnology-led enterprise (ABLE) and a monthly journal, Bio-Spectrum, the sector grew threefold in five years and reported a revenue of US$ 3 billion during 2009-2011 with a 17 per cent rise as compared to the previous year.

RESOURCES

Uttarakhand is an ideal destination to invest in biotechnology-based industries because of several inherent advantages and being host to vast diversity of flora and fauna and rare species of plants and animals. A high-level biotechnology board is being setup to pursue initiatives in the field of research. The state will accord the units coming under this sector with the industry status and aims to establish an internationally competitive business infrastructure and environment for the industry in the state. Further, a biotechnology park is to be developed that will integrate resources and provide a focused institutional set up for accelerated commercial growth of bio-technology and bio-informatics. The Government is also in the process of creating an Exchange for Medicinal and Aromatic Plants to serve as a common platform for research institutions, technology developers and producers.

GOVERNMENT POLICIES:

The Uttarakhand Board of Biotechnology (UBB) will help the R&D Institutions of the State to seek funds from the national and international funding agencies / donors to upgrade the infrastructure facilities. Depending upon the need, UBB and the State Government will also try to fund R&D facilities through its own resources. The State Government undertakes to provide the following facilities/terms to the companies desirous of establishing BT units in the State:

•        BT Units including related R&D Units will enjoy the status of industry and will be eligible for incentives and concessions as provided for the relevant category/class of industry in the Industrial Policy of the State. For this purpose they shall be treated as Priority Sector Industry. Department of Biotechnology will provide The State Government undertakes to provide the following facilities/terms to the companies “single-window clearance” and shall issue only one application form to set up BT Units in the State.

•        The Government proposes to establish in association with private sector a BT Park initially at Halide, Pantnagar where land/plots would be made available to prospective entrepreneurs on favourable terms. The latter, however, are also free to choose their own sites or locate the same in the other established Industrial Areas in the State.

Hydropower: Project Opportunities in Uttarakhand

PROFILES:

Hydroelectricity is the term referring to electricity generated by hydropower; the production of electrical power through the use of the gravitational force of falling or flowing water. India was the 7th largest producer of hydroelectric power in 2008 after Norway: 114 TWh and 3.5 % the world total in 2008. The potential for hydroelectric power in India is one of the greatest in the world. Small hydropower offers a wide range of benefits-especially for rural areas and developing countries. The resource is environmentally responsible and has substantial economic advantages. Efforts also being made to improve the exchange of ideas and technology related to small hydropower. In India, small hydropower up to capacity of 25 MW also includes the mini-and-micro hydropower projects which are usually confined strictly to local use. A potential of over 15,000 MW has been identified from small hydropower and Government of India has been according top priority to SHP development as thrust area.

RESOURCES:

Uttarakhand has a large network of rivers and canals which provides an immense scope for hydro-power energy. In India, the development of Micro, Mini, and Small Hydro Power Projects started in the year 1897. One of the first hydro-power stations in India was commissioned at Galogi in 1907. More power stations were subsequently developed over a period of time. In Uttarakhand, the estimated capacity of Small hydro power projects is about 1500 MW out of total estimated capacity of 20,363 MW Uttaranchal has a hydropower potential of the order of 20236 MW against which only about 1407 MW has been harnessed so far.

GOVERNMENT POLICIES:

The Government of Uttaranchal (GoU) has decided to encourage generation of power through small hydropower sources of energy, and has framed a policy so that the development of this sector serves as an engine to achieve the objective of promoting the all-round development of the region. To encourage generation of hydropower the government of Uttarakhand has formulated and implemented policies with following objectives:

•        Creation of conducive conditions for encouraging private sector participation

•        Harnessing water resources in an environment friendly manner

•        Meeting the energy demand of the state/country

•        Promotion of the overall development of the region

•        Generation of revenue from hydro resources

 

Mineral: Project Opportunities in Uttarakhand

PROFILES:

A mineral is a naturally occurring solid chemical substance formed through biogeochemical processes, having characteristic chemical composition, highly ordered atomic structure, and specific physical properties. India is endowed with significant mineral resources. India produces 89 minerals out of which 4 are fuel minerals, 11 metallic, 52 non-metallic and 22 minor minerals.

RESOURCES:

Mineral resources of Uttarakhand play a significant role in the economy of Uttarakhand. The Chamoli district of Uttarakhand is especially famous for housing a number of mineral resources in Uttarakhand. The northern division of the district consist entirely of medium to high grade metamorphic rocks, which also contains bands of volcanic rocks in some areas; the southern division contains sedimentary and low-grade metamorphic rocks, with bands of volcanic rocks in some regions. Although much is not known about the geology of the first division of Chamoli, yet the mineral resources contain rocks such as quartzite, marble, and various types of schist and gneiss. The southern division contains rocks such as gneiss, limestone, phyllites, quartzite, sericite-biotite schist and slate.

Some of the important minerals that form a major part of the mineral resources of Uttarakhand are: Asbestos, Magnestic, Soapstone or Steatite, Copper, Iron, Graphite, Gold, Gypsum, Lead, Slate, Limestone, Building Stone, Sulfur, and Bitumen. Beside these major mineral resources, some of the other mineral resources of Uttarakhand also play a major role in enhancing the economy of Uttarakhand. Some of those mineral resources are: Antimony, Arsenic, Lignite or Brown Marble, Mica, Silver, etc.

GOVERNMENT POLICIES:

NATIONAL MINERAL POLICY, 2008

Keeping in view the long term national goals and perspective for exploitation of minerals, Government of India has revised its earlier National Mineral Policy, 1993 and came up with a new National Mineral Policy 2008. Basic goals of NMP 2008 are-

1.       Regional and detailed exploration using state of the art techniques in time bound manner.

2.       Zero waste mining

For achieving the above goals, important changes envisaged are:

•        Creation of improved regulatory environment to make it more conducive to investment and technology flows

•        Transparency in allocation of concessions

•        Preference for value addition

•        Development of proper inventory of resources and reserves

•        Enforcement of mining plans for adoption of proper mining methods and   optimum utilization of minerals 

•        Data filing requirements will be rigorously monitored

•        Old disused mining sites will be used for plantation or for other useful purposes.

•        Mining infrastructure will be upgraded through PPP initiatives

•        State PSU involved in mining sector will be modernized

•        State Directorate will be strengthened to enable it to regulate   mining in a proper way and to check illegal mining

•        There will be arms length distance between State agencies that mine  and those that regulate

•        Productivity and economics of mining operation, safety and health of workers and others will be encouraged.

Tourism: Project Opportunities in Uttarakhand

PROFILE:

Tourism in India is the largest service industry, with a contribution of 6.23% to the national GDP and 8.78% of the total employment in India. The tourism industry in India is substantial and vibrant, and the country is fast becoming a major global destination. India’s travel and tourism industry is one of them most profitable industries in the country, and also credited with contributing a substantial amount of foreign exchange. Indian Tourism offers a potpourri of different cultures, traditions, festivals, and places of interest.

RESOURCES:

Uttarakhand - the land of gods, the home of Himalayas and truly a paradise on earth, allures everyone from everywhere. Uttarakhand is paradise for different types of adventure activities. Like River Rafting, Trekking, Skiing, Camping, Rock Climbing, Rappelling, River Crossing. Mountaineering, Paragliding and Hot Ballooning make Uttarakhand one of the most attractive destinations for adventure sports not only in the India but the world. Gangotri and Yamunotri, the sources of both the Ganges and Yamuna fall in the upper reaches of the state and together with Badrinath (dedicated to Vishnu) and Kedarnath (dedicated to Shiva) form the Char Dham, one of Hinduism's most spiritual and auspicious pilgrimage circuits. Haridwar, meaning "Gateway to God" is a prime Hindu destination. Haridwar hosts the Kumbha Mela every twelve years, in which millions of pilgrims take part from all parts of the India and the world. Rishikesh near Haridwar is known as the preeminent yoga centre of India. The state has an abundance of temples and shrines, many dedicated to local deities or manifestations of Shiva and Durga, references to many of which can be found in Hindu scriptures and legends.

GOVERNMENT POLICIES:

In order to develop tourism in India in a systematic manner, position it as a major engine of economic growth and to harness its direct and multiplier effects for employment and poverty eradication in an environmentally sustainable manner, the National Tourism Policy was formulated in the year 2002. Broadly, the Policy attempts to:-

•        Position tourism as a major engine of economic growth;

•        Harness the direct and multiplier effects of tourism for employment generation, economic development and providing impetus to rural tourism;

•        Focus on domestic tourism as a major driver of tourism growth.

•        Position India as a global brand to take advantage of the burgeoning global travel trade and the vast untapped potential of India as a destination;

•        Acknowledges the critical role of private sector with government working as a pro-active facilitator and catalyst;

•        Create and develop integrated tourism circuits based on India’s unique civilization, heritage, and culture in partnership with States, private sector and other agencies; and ensure that the tourist to India gets physically invigorated, mentally rejuvenated, culturally enriched, spiritually elevated and feel India from within.

 

Waste management and recycling: Project Opportunities in Uttarakhand

PROFILE:

Rapid industrialization last few decades have led to the depletion of pollution of precious natural resources in India depletes and pollutes resources continuously. Further the rapid industrial developments have, also, led to the generation of huge quantities of hazardous wastes, which have further aggravated the environmental problems in the country by depleting and polluting natural resources. Therefore, rational and sustainable utilization of natural resources and its protection from toxic releases is vital for sustainable socio-economic development.

Hazardous waste management is a new concept for most of the Asian countries including India. The lack of technical and financial resources and the regulatory control for the management of hazardous wastes in the past had led to the unscientific disposal of hazardous wastes in India, which posed serious risks to human, animal and plant life.

RESOURCES:

Investments are aimed at improving public health and the environmental quality in the Program towns and the adjacent open land and water bodies by increasing solid waste collection coverage from 50% to 72% and supporting sound solid waste disposal methods. Improvements will be directed at (i) segregation of solid waste at household level and handling and management improvements at wards and town levels with an emphasis on waste minimization, (ii) provision of solid waste collection and transportation equipment, and (iii) construction of sanitary landfills in accordance with GoI’s Municipal Solid Waste Management and Handling Rules 2000. These will develop into a State wide SWM strategy, action plan, and town wise SWM master plan reports supported by capacity building of ULBs in SWM.

GOVERNMENT POLICIES:

National policy on waste management is set out in the October 1998 policy statement on waste management- Changing our ways. It outlines the Government's policy objectives in relation to waste management, and suggests some key issues and considerations that must be addressed to achieve these objectives. The policy is firmly grounded in an internationally recognised hierarchy of options, namely prevention, minimisation, reuse/recycling, and the environmentally sustainable disposal of waste which cannot be prevented or recovered.

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IV Cannulas Manufacturing Uni

Intravenous (IV) cannulation is a technique in which a cannula is placed inside a vein to provide venous access. Venous access allows sampling of blood, as well as administration of fluids, medications, parenteral nutrition, chemotherapy, and blood products. ‘Cannula exactly the same thing– a flexible tube inserted into the body to administer or withdraw fluids or to keep another tube patent. Intravenous cannulation is a technique in which a cannula is placed inside a vein to provide venous access. Venous access allows sampling of blood as well as administration of fluids, medications, parental nutrition, chemotherapy, and blood products. One of the IV cannula uses that changed the lives of individuals and helped clinical staff to perform intravenous treatments easily is with the presence of the Safety I.V cannula. Wellbeing I.V cannula. Implies a gadget that is utilized to flexibly liquids legitimately or in a roundabout way to the patient’s circulatory system. IV Cannula has veterinary use, nasal or oral use too. Cannula can also be used for piercing. The common uses are rapid transfusion of blood, transfusion of IV drugs. Pediatric patients or adults with small veins undergoing long term medication or blood transfusion are subjected to IV Cannula. It is also used on oncology patients undergoing Chemotherapy. Intravenous Cannulas allow the introduction or withdrawal of fluids from the human circulatory system. The short flexible and kink-resistant cannula is introduced into a blood vessel over a hollow introducer needle. It is also used on oncology patients undergoing Chemotherapy. The global peripheral I.V. cannula. Market was valued at $3,702.2 million in 2015, and it is expected to grow at a CAGR of 6.0% during the period 2016 – 2022. The global market is increasing, due to growing geriatric population and increasing incidence of chronic diseases. Entrepreneurs who invest in this project will be successful. Few Indian major players • Angi Plast Pvt. Ltd. • Global Medikit Ltd. • Hemant Surgical Inds. Ltd. • Hindustan Syringes & Medical Devices Ltd. • Mediplus (India) Ltd. • Smiths Medical India Pvt. Ltd.
Plant capacity: IV Cannula with Wings & with Injection Port Needle: 40000 pcs/day IV Cannula with Wings & with Injection Port Needle: 32000 pcs/day IV Cannula with Wings & with Injection Port Needle: 32000 pcs/dayPlant & machinery: Rs.1705 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 14615 Lakhs
Return: 35.00%Break even: 31.00%
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Glucose Saline

Glucose, also known as dextrose, is a simple sugar that can be found in nature and are chemically identical. Dextrose may decrease body protein and nitrogen losses, promote glycogen deposition, and decrease or prevent ketosis if sufficient doses are given. Since dextrose is usually metabolized to carbon dioxide and water, administration of a solution of dextrose and water is equivalent to providing the same volume of free water. Dextrose is readily metabolized; it increases blood glucose concentrations and provides calories. Dextrose may decrease body protein and nitrogen losses, promote glycogen deposition, and decrease or prevent ketosis if sufficient doses are given. Since dextrose is usually metabolized to carbon dioxide and water, administration of a solution of dextrose and water is equivalent to providing the same volume of free water. Following oral administration, dextrose, a monosaccharide, is rapidly absorbed from the small intestine principally by an active mechanism. It used for balancing the body fluid and it is added to the human body to balance the body fluid by injection which will recover fatality of the human being and recover the inside body pressure. Treatment of discarded water and electrolyte metabolism, especially in severe cases. Therapy of acid base in balances. The volume substitution and volume replacement in surgery of accident victim suffering blood lose. Arenteral nutrition for severally ill and post-operative patients. Saline is also often used for nasal washes to relieve some of the symptoms of the common cold. The solution exerts a softening and loosening influence on the mucus to make it easier to wash out and clear the nasal passages for both babies and adults. In this case "home-made" saline may be used: this is made by dissolving approximately half a teaspoon of table salt into 8 ounces (approx. 240ml) of clean tap water. The global intravenous solutions market reached a value of US$ 8.5 Billion in 2019. IV solutions and electrolytes are mainly used for fluid resuscitation, routine maintenance, replacement, and redistribution. The Market size value in 2020 is USD 86.2 million and Revenue forecast in 2025 is USD 121.7 million is expected to exhibit a CAGR of 7.1% from 2018 to 2025. As a whole any entrepreneur can venture in this project without risk and earn profit. Few Indian major players • Amanta Healthcare Ltd. • Baxter Pharmaceuticals India Pvt. Ltd. • Bayer Pharmaceuticals Pvt. Ltd. • Denis Chem Lab Ltd. • Meridian Enterprises Pvt. Ltd. • Pfizer Healthcare India Pvt. Ltd. • Pfizer Ltd. • Pharmacia Healthcare Ltd. • Shree Krishna Keshav Laboratories Ltd. • Vikrant Pharmaceuticals Ltd.
Plant capacity: 200000 Bottles/ dayPlant & machinery: Rs. 2170 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 4083 Lakhs
Return: 25.00%Break even: 37.00%
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Vitamin ‘C’ from Sorbitol

Vitamin c is chemically the simplest of the vitamins and for this reason was among the first to be isolated, characterized, and purified and to have its structure determined. More vitamin C is produced industrially than any other vitamin, or indeed all the other vitamins put together. Vitamin C has itself been said to have almost magical properties and it is useful to get a picture of the chemistry and biochemistry of this enigmatic compound. This has unearthed a rich vein of chemistry involving L-ascorbic acid as both a redox companion and as a complexion agent; indeed the reaction of L-ascorbic acid with oxygen and other oxidizing agents is catalyzed by transition metal ions, especially copper (II), so that sometimes solution are stabilized by the addition of EDTA, which complexes the metal ions and arrests the catalysis. It is one of the few pure chemical compounds which is taken routinely by human beings in gram quantities (a possible challenger is sugar). It appears to have no harmful effects even in these large amounts and it is a medicine which it is a pleasure to take, especially in the form of fruit or vegetables. Its role (as a constituent of fruits and vegetables) in the cure and prevention of scurvy was widely debated for hundreds of years. Ascorbic acid is generally used in bread due to its properties that help extend shelf life, high profile industrial bakers such as Hovis and Kings mill both use ascorbic acid in the majority of their loaves. Using ascorbic acid in an industrial bakery can contribute to higher profit yields, lower production times and higher buyer satisfaction longer shelf life, reduced number of damaged loaves during transport. The global Ascorbic Acid market is expected to witness moderate growth over the forecast period on account of increasing demand from pharmaceutical industry. The majority of ascorbic acid manufactured is used as an antioxidant. The major end-user industries of ascorbic acid are pharmaceuticals, food & beverages, personal care, and others. The pharmaceutical industry is the largest consumer of ascorbic acid. Vitamin C helps to recycle vitamin E. The presence of a broad distribution network of companies in this region will boost the Asia Pacific vitamin ingredients market in the near future. Analysts predict this regional market to rise at a CAGR of 5.40% from 2017 to 2025 in terms of value. Entrepreneurs who invest in this project will be successful. Few Indian major players • Dishman Pharmaceuticals & Chemicals Ltd. • Glaxosmithkline Pharmaceuticals Ltd. • Gulshan Polyols Ltd. • Kasyap Sweetners Ltd. • M S Healthcare Pvt. Ltd. • Pfizer Healthcare India Pvt. Ltd. • Pfizer Ltd. • Procter & Gamble Health Ltd. • Unicorn Organics Ltd.
Plant capacity: 600 kg/dayPlant & machinery: Rs. 371 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 717 Lakhs
Return: 24.00%Break even: 50.00%
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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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Weaving of Fiberglass Fabric for Composites of Domestic as well as Export Markets (using e Class Imported Yarns)

Fiberglass is a popular material that is extremely versatile and is used in many aspects of our everyday lives. Next time you get on a plane or go down a waterslide or turn on the television you will be more knowledgeable about the construction as well as the amazing contributions of fiberglass. Highly flexible material it is used in various household products and industries. Some common places you can find fiberglass are air-craft, windows, roofing, boats and bathtubs. The implementation of fiberglass helped the boat industry tremendously due to the cost effectiveness of fiberglass materials. These positives surrounding fiberglass are also found in the cooling tower industry. Cooling towers tend to be moist areas that need protection from rust and corrosion. This versatile product is also used as screening to mark off dangerous areas. Fiberglass is a great material when it comes to making aviation equipment and ducts. Engine cowlings, bulkheads, storage bins and ground handling equipment all include fiberglass during their construction. Circuit board manufactures are also constructed with fiberglass as well as televisions, radios, computer and cell phones. Fiberglass is used to make a variety of everyday items, such as doors, swimming pools, surfboards, sporting equipment, and automobile bumpers, to name a few. Fiberglass and glass fibers are often combined with carbon, aramid, and other fibers to make specialty laminates or moldable fabrics for canoes, kayaks, and other high-strength, lightweight applications. The light yet durable nature of fiberglass also makes it ideal for more delicate applications, such as circuit boards. Plus, the excellent cost-performance relationship of these textiles makes them a natural choice for a wide range of applications. This high temperature insulation material makes for a great thermal barrier, proving its value and versatility. Fiberglass is widely implemented as a composite in jet engines and aircraft interiors as well as a solution for reducing aircraft weight. The light yet durable nature of fiberglass also makes it ideal for more delicate applications, such as circuit boards. Plus, the excellent cost-performance relationship of these textiles makes them a natural choice for a wide range of applications. The global fiberglass market is projected to grow from USD 11.5 billion in 2020 to USD 14.3 billion by 2025, at a CAGR of 4.5% from 2020 to 2025. As a whole any entrepreneur can venture in this project without risk and earn profit. Few Indian major players • Everlast Composites Pvt. Ltd. • Goa Glass Fibre Ltd. • Jushi India Pvt. Ltd. • Magnus Composites Synergies Pvt. Ltd. • U P Twiga Fiberglass Ltd.
Plant capacity: 3,446 Sq. Mts./ DayPlant & machinery: Rs. 793 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 1162 Lakhs
Return: 23.00%Break even: 44.00%
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Single Wall Steel Water Bottle

Water bottles are available in different shapes, colors, and sizes. The stainless steel bottle comes with a string to provide ease of carrying. Stainless steel fridge bottle is made from high-quality steel, food-grade and BPA-free stainless steel material that make the bottles safe for use on a regular basis. The taste and nutritive value of the drinks remains intact making the bottle very appropriate choice for storing beverages. Water bottles can be either disposable or reusable. Single-walled metal bottles readily transfer temperature of contents to external surfaces, which make them unsuitable for use with unusually hot or cold liquids. Double-walled metal bottles are insulated to keep cold liquids cold and hot liquids hot, without the external surface being too hot or too cold. Because double-walled bottles have more metal in them, they are more expensive. They are typically vacuum-insulated. Metal water bottles are growing in popularity. Made primarily from stainless steel or aluminium (aluminium), they are durable; retain less odor and taste from previous contents than most plastic bottles. Double-walled metal bottles are insulated to keep cold liquids cold and hot liquids hot, without the external surface being too hot or too cold. Because double-walled bottles have more metal in them. Single wall stainless steel water bottles prevent condensation and don’t allow sweat to happen. The outside of the bottle remains normal, even having cold water inside. The bottles have a single layer of steel that helps you keep drink hot or cold for long hours. Be it a chilled winter morning or a warm day at work, you can always have a refreshing sip of drink from these bottles. Steel bottles are environment-friendly and can be used for multiple years and do not end up in landfills owing to their 100% recyclability. Stainless steel water bottles can be used more than hundreds of times. You just need to clean them after one use, and they will be ready for the next use. Investing once in steel bottles, you don’t have to even think about reinvesting in them for like multiple years. 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. Entrepreneurs who invest in this project will be successful. Few Indian major players • Borosil Ltd. • Cello International Pvt. Ltd. • Hamilton Housewares Pvt. Ltd. • M-Pol Industries Bangalore Pvt. Ltd. • Nirlon Ltd.
Plant capacity: 2,000 nos/ dayPlant & machinery: Rs. 138 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 439 Lakhs
Return: 29.00%Break even: 64.00%
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Magnesium Powder from Dolomite Stone

Magnesium (Mg) is a silvery white metal that is similar in appearance to aluminium but weighs one-third less. Magnesium is strongly reactive with oxygen at high temperatures; above 645°C (1,190°F) in dry air, it burns with a bright white light and intense heat. For this reason, magnesium powders are used in pyrotechnics. At room temperature, a stable film of water-insoluble magnesium hydroxide forms on the metal’s surface, protecting it from corrosion in most atmospheres. The highly reactive metal is used in the manufacture of reagents, which are essential in modern metal processing. But Magnesium allows for so much more. As an example: The bonding of powder molecules by atomic diffusion process in the shaping production of components by pressure or sintering, will result in components superior to other metals with regard to their characteristics. In particular their weight is a clear benefit. magnesium powder is widely used in such scientific areas as military and aviation industries, The chemical performance of magnesium is very active, which is mostly used in metallurgical industry. Magnesium powder can serve as desulfurizer or cleaning agent for steel-making industry and casting of non-ferrous metals, and reducer for production of rare metal. In chemical industry, magnesium powder can be used as dehydrator for organic compound or to directly make organic compound of magnesium. Magnesium allows the bonding of powder molecules by atomic diffusion process in the shaping production of components by pressure or sintering, will result in components superior to other metals with regard to their characteristics. In particular their weight is a clear benefit. Magnesium powder can serve as desulfurizer or cleaning agent for steel-making industry and casting of non-ferrous metals, and reducer for production of rare metal. Magnesium powder is an essential nutrient for plant growth; it enhances food quality. Magnesium (Mg) plays a vital role in chlorophyll formation and photosynthesis. It influences various metallic processes and reactions such as photophosphorylation (i.e., ATP formation in chloroplasts), photosynthetic carbon dioxide (CO2) fixation, protein synthesis, partitioning and utilization of photo-assimilates, generation of reactive oxygen species, and photooxidation in leaf tissues. The market in Asia-Pacific dominated the global market with a share of over 40% in 2018 and is projected to register the highest CAGR of over 6.5% during the forecast period. The Global Magnesium Powder Market is projected to register a healthy CAGR of 5.50% to reach USD 1,334.6 Million by the end of 2024. Thus, due to demand it is best to invest in this project.
Plant capacity: 166.7 MT/dayPlant & machinery: Rs. 4160 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 13904 Lakhs
Return: 26.00%Break even: 72.00%
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Trichloroisocyanuric Acid

Trichloroisocyanuric acid is an organic compound with the formula (C3Cl3N3O3). It is used as an industrial disinfectant, bleaching agent and a reagent in organic synthesis. Trichloroisocyanuric acid (TCCA) is a versatile and efficient reagent for chlorination and oxidation reactions. Depending on the reaction conditions employed, it can release either an electrophile chlorine atom (Cl+) or a radical chlorine atom (Cl.) promoting selectively different pathways of reaction. It was effectively used to synthesize many classes of compounds such as: chlorinated arenes, N?chloramines and amides, ??halo?carbonyl compounds, benzyl chlorides, esters, carboxylic anhydrides, and amides. It is widely used in civil sanitation for pools and spas, preventing and curing diseases in animal husbandry and fisheries, fruit and vegetable preservation, wastewater treatment, as an algaecide for recycled water in industry and air conditioning, in anti shrink treatment for woolens, for treating seeds and in organic chemical synthesis. It is used in chemical synthesis as an easy to store and transport chlorine gas source, it is not subject to hazardous gas shipping restrictions, and its reaction with hydrochloric acid produces relatively pure chlorine. Trichloroisocyanuric acid as used in swimming pools is easier to handle than chlorine gas. It dissolves slowly in water, but as it reacts, cyanuric acid concentrations in the pool will build-up. It is used in chemical synthesis as an easy to store and transport chlorine gas source, it is not subject to hazardous gas shipping restrictions, and its reaction with hydrochloric acid produces relatively pure chlorine. Intensifying demand for safe and treated water across the Asia Pacific region for constraining diseases that is innate from polluted water. Such factor is expected to significantly driving the trichloroisocyanuric acid market growth during the forecast period. Moreover, the positive impact of various regulations and standards regarding safe water infrastructure and system across North America and European region are also projected to lay a strong base for trichloroisocyanuric acid market growth in the upcoming years. The Middle East and Africa and Latin America are projected to witness robust growth in the global trichloroisocyanuric acid market during the forecast period. As a whole any entrepreneur can venture in this project without risk and earn profit. Few Indian major players • Aditya Birla Chemicals • Kashyap Industries
Plant capacity: Trichoroisocyanuric Acid: 16.7 MT/day Hydrochloric Acid 32% by product: 24.5 MT/dayPlant & machinery: Rs.178 Lakhs
Working capital: -T.C.I: Cost of Project: Rs.1095 Lakhs
Return: 31.00%Break even: 73.00%
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Linear Alkyl Benzene Sulfonic Acid (LABSA) Business Plan for Production

Introduction (LABSA) Linear alkyl benzene sulfonic acidic is used to make anionic, non-anionic, and amphoteric surfactants, and its degradability in nature is crucial. It's a water-soluble emulsifying agent. Because of its low cost, high performance, and biocompatibility due to its linear chain, alkyl benzene sulfonic acid is one of the most commonly used anionic surfactants. Hydrophilic and hydrophobic groups coexist in this anionic surfactant. The sulfonation process produces these non-volatile compounds. These compounds are made up of phenyl and sulfonate groups in carbon chains ranging from 10 to 14 carbons long. Related Projects: - Production of Linear Alkyl Benzene Sulphonic Acid Linear Alkyl Benzene Sulphonic Acid’s Specific Uses Linear alkyl benzene sulfonic acid is primarily used in the manufacture of household detergents such as laundry powders, liquids, and other cleaners, as well as in a variety of industrial applications such as coupling agents and emulsifiers for agricultural herbicides and emulsion polymerization. In the first phases of the sewage-treatment process, a significant portion of the LAS is eliminated from the aqueous phase of the wastewater due to adsorption on the sludge or sedimentation in the presence of calcium or magnesium. When reacting with calcium, the LAS homologs with the longest alkyl chain have a higher propensity to adsorb on solids and become less dissolved. Related Books: - The Complete Technology Book on Chemical Industries Production of Linear Alkyl Benzene Sulphonic Acid The sulphonation reaction of Alkyl Benzene with Sulphur trioxide produces LABSA (Linear Alkyl Benzene Sulphonic Acid) (SO). Other processes can call for the use of oleum or sulfuric acid. The final decision will be influenced by a number of factors, including raw material availability, plant location, plant size, and plant operation mode, to name a few. Nonetheless, when major factors such as cost, availability, versatility, and protection are taken into account, SO remains the reaction's preferred reagent. LABSA is one of the most popular active ingredients in soaps and detergents. It also makes up a higher percentage of the raw materials used in the manufacture of liquid soaps. Chemithon and Ballestra are two of the major producers. Both companies use the same steps to create LABSA. However, the technology differs slightly, particularly at the sulphonation level, where Chemithon uses a Falling Film Reactor or Jet Reactor and Ballestra uses a Stirred Tank Reactor/Cascade Reactor or Multitube Falling Film Reactor. Market Outlook The market for linear alkyl benzene sulfonic acid can be divided into three categories: type, purity, and application. The market can be divided into two types: alpha-olefin sulfonate (AOS) and alkyl sulphate (AS). The market can be divided into linear alkyl benzene sulfonic acid (90 percent) and linear alkyl benzene sulfonic acid (90 percent) based on purity (96 percent). The global market can be divided into two categories based on application: soap and detergent and personal care. One of the active ingredients used in the soap and detergent industry is linear alkyl benzene sulfonic acid. It has outstanding foaming and consistency characteristics. North America, Asia Pacific, Europe, Latin America, and the Middle East and Africa are the regions in which the global linear alkyl benzene sulfonic acid market can be divided. The demand for linear alkyl benzene sulfonic acid is dominated by Asia Pacific, followed by Europe. Rise in population in Asia Pacific developing economies, improvement in people's lifestyles, and increased focus on investment. Related videos: - Chemicals (Organic, Inorganic, Industrial) Rise in population in developing economies of Asia Pacific, improvement in lifestyle of the people, and increase in emphasis on improving hygiene standards in the food & beverages industry are propelling the demand for linear alkyl benzene sulfonic acid in Asia Pacific. Germany, the United Kingdom, and France are Europe's top consumers of linear alkyl benzene sulfonic acid, owing to their large customer bases. The largest consumers of linear alkyl benzene sulfonic acid in Europe are Germany, the United Kingdom, and France, owing to their large customer bases and rising demand for dishwashing cleaners and liquids. The linear alkyl benzene sulfonic acid market in the region is also benefiting from an increase in demand for industrial cleaners to maintain industrial hygiene. In North America, the United States is the largest producer of linear alkyl benzene sulfonic acid. The global Linear Alkyl Benzene Sulphonic Acid market is projected to expand at a CAGR of 3.5 percent from 2021 to 2026, from 3606.9 million USD in 2021 to 4601.4 million USD by the end of 2026. Key Players: - • Nirma Ltd. • Reliance Industries Ltd. • Tamilnadu Petroproducts Ltd. For More Details, Click Here: - Handbook on Chemical Industries #DetailedProjectReport #businessconsultant #BusinessPlan #feasibilityReport #NPCS #entrepreneurindia #startupbusiness #ProjectReport #startup #projectconsultancy #businessopportunity #IndustryDemands #profitablebusiness #ManufacturingBusiness #LinearAlkylBenzeneSulfonate #LinearAlkylBenzeneSulfonateMarket #LASProduction #LABSProduction #LASBusiness #ChemicalBusiness #ChemicalIndustry #ChemicalProduction
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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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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  • One Crore is equivalent to ten million (10,000,000)
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