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

Gas & Petroleum: Project Opportunities in Gujarat

 

PROFILE:

The Oil Industry is a very important industry in the world and a lot depends on the price of the oil and it has been observed that whenever the oil prices increase the price of various products also increases. Oil and gas sector is one of the key catalysts in fuelling the growth of Indian economy. With a 1.2 billion population and an economy that has consistently at approximately 8 per cent annually, India's energy needs are increasing fast, warranting a robust demand for oil and natural gas in the country. India has emerged as the 5th largest refining country in the world, accounting for 4 per cent of the world's refining capacity. India exported 50 million tonnes (MT) of refined petroleum products during 2010-11. With our refining capacity increasing further, this figure is likely to touch about 70 MT by 2014, making India one of the world major exporters of petroleum products.

RESOURCES:

Gujarat State is rich in the hydrocarbon resources and is the largest on land producer of oil and gas in country. Gujarat contributes about 18% of country’s total crude oil production. Similarly it contributes about 11% of country’s total gas production. If we compare on land crude production then it is almost 50% of crude and 40% of natural gas from the Gujarat State. Gujarat State Petroleum Corporation Ltd (GSPC) is an oil and gas exploration company in Gujarat, India. It is India's only State Government-owned oil and Gas Company with the Government of Gujarat holding approximately 95% equity stake. GSPC was incorporated in 1979 as a petrochemical company. Today GSPC has become a vertically integrated energy company, excelling in a wide gamut of hydrocarbon activities across India. The largest gas grid will generate opportunities for transmission and distribution of natural gas to domestic and industrial users. Three LNG terminals coming up in the state will provide the fuel for growth. Refineries and petrochemical complexes in operation, invites investment in downstream projects.

 

GOVERNMENT POLICIES:

The oil ministry has empowered state-run exploration firms ONGC and Oil India to choose customers for gas produced from small fields where output is less than 0.1 million standard cubic meters per day, which would reduce bureaucratic delays and help companies generate revenue expeditiously. Oil India Limited (OIL), a Government of India Enterprise, under the administrative set-up of Ministry of Petroleum and Natural Gas, is engaged in the business of exploration, production and transportation of crude oil and natural gas. The growing demand for crude oil and gas in the country and policy initiative of Government of India towards increased E&P  activity, have given a great impetus to the Indian E&P industry raising hopes of increased exploration. The government in order to increase exploration activity approved the New Exploration Licensing Policy (NELP) in March 1997 which would level the playing field in the upstream sector between private and public sector companies in all fiscal, financial and contractual matters. There will be no mandatory state participation through ONGC/OIL nor there did any carry interest of the government.   In order to increase the exploration and thereby enhance the production of oil and gas in the country the Government of India liberalized the hydrocarbon sector. With the announcement of the liberalization policy in the hydrocarbon sector by Govt. of India for the oil and gas. Pursuant to the signing of PSC many private Exploration and producing Companies started the petroleum operations in the State and thereby the activities in the hydrocarbon sector have increased. In order to cope up with the increasing activities Government of Gujarat created the Office of Directorate of Petroleum to monitor various activities of exploration and exploitation of oil and gas, their production and royalty paid thereon by various organizations in the State of Gujarat. Gujarat State Petroleum Corporation Ltd (GSPC) is an oil and gas exploration company in Gujarat, India. It is India's only State Government-owned Oil and Gas Company with the Government of Gujarat holding approximately 95% equity stake. Today GSPC has become a vertically integrated energy company, excelling in a wide gamut of hydrocarbon activities across India.

 

 

 

 

                     

MINING & MINERALS:Project Opportunities in Gujarat

 

 

PROFILE:

Minerals are valuable natural resources being finite and non-renewable. They constitute the vital raw materials for many basic industries and are a major resource for development. Management of mineral resources has, therefore, to be closely integrated with the overall strategy of development; and exploitation of minerals is to be guided by long-term national goals and perspectives. Ministry of Mines is responsible for survey and exploration of all minerals, other than natural gases, petroleum and atomic minerals, for mining and metallurgy of non-ferrous metals like aluminium, copper, zinc, lead, gold, nickel, etc. and for administration of the Mines and Minerals (Regulation and Development) Act, 1957 in respect of all mines and minerals other than coal, natural gas and petroleum.

RESOURCES:

Gujarat is the ideal state for the investment in mineral based industries looking to the state mineral resources and infrastructural facilities. There is ample opportunity to establish mineral oriented industries like Limestone based cement and soda ash industry, Lignite based power plants, Bauxite-based Alumina plant, Marble & Granite based cutting, polishing plants, Clay based ceramic units, Silica sand based glass units. GNMRL is well placed to take benefit of imminent boom staring at the energy spectrum. GNMRL is unique in itself which focus in coal mining, met coke productions as well as Oil and Gas exploration, the three prime resources which are in great demand. Total area of the State of Gujarat is 1,96,024 sq.kms. Out of which 1,27,000 sq. kms is rocky, which is mineral probable area. About 57,970 sq. kms of these rocky areas have been covered under the Remote Sensing Survey / Pre-detailed Mineral Survey, and about 23,596 sq. kms, under the Detailed Mineral Survey. Till now total 3,63,534 meters of drilling has been completed for various minerals at different places in the state. Out of this, 3,13,613 meters of drilling was conducted by the department, and the remaining 49,921 meters of drilling, by expeditious drilling programme by hiring men & machines. Remaining uncovered area of 69,030 sq. kms will be covered in the next five years by remote sensing / pre-detailed mineral surveys. Total 12,030 sq. kms will be explored by the department, and 57,000 sq. kms, through outsourcing/ private participation.

 

GOVERNMENT POLICIES:

 

The Government of Gujarat has envisaged specific policy initiatives for industrial minerals occurring in the state to attract investment in the fields mineral exploration, exploitation, and mineral-based industries. It is intended to create competitive environment to speed up industrial development in mineral potential area by enhancement of Human Resource capabilities, improvement in infrastructure & adopting modern technology. The approach is to make progress by increasing mineral production and export of value added material through local and global competitiveness. Efforts to develop with special attention to minerals which are only available in the Gujarat as compared to other states in the country and mineral occurring in few states & having high quality. Local employment is created through mineral exploitation while maintaining mine safety & striking ecological equilibrium is also an additional addendum of this policy. To regulate the minor minerals, State Government has framed Gujarat Minor Mineral Rules-1966 under the Section-15 of Mines and Minerals (Regulation and Development) Act- 1957 and Central Government has framed Granite Conservation and Development Rules-1999 and Marble Development and Conservation Rules-2000. In addition, mines are being regulated under other Acts and Rules of Central Government such as Mines Act-1952, Mines Rules-1955, Mineral Conservation and Development Rules-1988. In the major minerals (including Oil & Natural Gas), Gujarat is placed at 3 position as on March-2002 in Mineral Production value. Gujarat ranks second in working mining leases. Only Gujarat produces minerals like Agate, Chalk and Perlite in the country. Production wise Gujarat ranks first in Fluorite and Silica sand, second in Bauxite, Lignite, Fire clay and Clay (others) and third in Quartz and Ball clay and fourth in Limestone and China clay.

 

 

 

Agro and Food Processing: Project Opportunities in Gujarat

 

 

PROFILE:

Agro Industry means a unit which adds value to agricultural products/intermediates/residues; both food and non-food; by processing into products which are marketable or usable or edible, or by improving storability, or by providing the link from farm to the market or a part thereof. The term “agro-food processing industries” covers a wide range of activities utilizing farm, animal and forestry based products as raw materials. Agriculture sector contributes one-fourth of the country’s GDP. India is the largest producer of milk, fruits, pulses, cashew nuts, coconuts and tea in world and accounts for 10 % of the world fruit production. India’s food grain production is expected to rise to 208.5 million tons by March 2006, from 204.6 million tons in 2005. Horticulture sector contributes 30 % of the agriculture GDP and accounts for 8.5 % of cultivated area. In the Global food processing industry Asia-pacific is accounting for 31.10 % of global market. India is the World’s second largest producer of food, next to China and has potential to be number one.

 

RESOURCES:

Gujarat is endowed with abundant natural resources in terms of varied soil, climatic conditions and diversified cropping pattern suitable for agricultural activities. Gujarat is a leading producer of various agricultural crops within India as well as worldwide. Gujarat has highest production in the world for Castor (67%), Fennel (67%), Cumin (36%), Isabgol (35%), groundnut (8%), and Guar seed (6%). The state has also emerged as a frontrunner in several other sectors such as Dairy, Fisheries, Animal Husbandry, Traditional Horticulture and Floriculture. Gujarat is keen to promote the agro-processing industry, which currently consists of small and medium enterprises producing a wide variety of products. It has about 16,400 small enterprises in food processing, beverage and tobacco processing. The agro-processing sector accounts for a significant proportion of the working population in the State. Moreover, the State is well known for its success in dairy cooperatives. Gujarat Cooperative Milk Marketing Federation enjoys a significant market share in the processed foods sector.

GOVERNMENT POLICIES:

The Gujarat Agro Vision 2010 has been formulated with defined growth parameters of gross state domestic product, per capita income and increase in non farm income of rural population due to multiplier effect. A holistic approach has been envisaged with emphasis on agricultural research, conservation of soil and water, economic and social sustainability. A comprehensive Agro Industrial Policy 2000 has been formulated. Tiny, small, medium and large agro industrial units shall be given 6% back ended subsidy for 5 years on the interest on term loan, subject to a ceiling of Rs. 100 lacs. Gujarat government has announced a new Agri Business Policy during the summit 2009. Gujarat government has offered various incentives to attract the investment in agriculture and allied sectors. Some of the incentives include declaration of food processing industry as seasonal industry, cost subsidy to large projects in food processing sector and sops and incentives to enhance competitiveness of small and medium enterprises, etc.

 

SALT INDUSTRY:Project Opportunities in Gujarat

 

 

PROFILE:

India is the third largest Salt producing Country in the World after China and USA with Global annual production being about 230 million tonnes.  The growth and achievement of Salt Industry over the last 60 years has been spectacular.  When India attained Independence in 1947, salt was being imported from the United Kingdom & Adens to meet its domestic requirement.  But today it has not only achieved self-sufficiency in production of salt to meet its domestic requirement but also in a position of exporting surplus salt to foreign countries.  The production of salt during 1947 was 1.9 million tonnes which has increased tenfold to record 20 million tonnes during 2005. The main sources of salt in India are sea brine, lake brine, sub-soil brine and rock salt deposits. Sea water is an inexhaustible source of salt.  Salt production along the coast is limited by weather and soil conditions.

RESOURCES:

Gujarat is blessed with the longest coastline of 1600 km. in India, offering important resources such as salt and marine products for industry. Gujarat is the largest producers of salt in India and ranking 2nd highest export in the world. Gujarat contributes 76 percent to the total production, followed by Tamil Nadu (12 %) and Rajasthan (8%). It also became the highest tax charging state for salt production amongst the six other salt producing states. Apart from using salt for edible purposes, it is substantially used for production of inorganic chemicals.

 

 

 

GOVERNMENT POLICIES:

Salt is a Central subject in the Constitution of India and appears as item No.58 of the Union List of the 7th Schedule, which reads:

a)   Manufacture, Supply and Distribution of Salt by Union Agencies; and

b)   Regulation and control of manufacture, supply and distribution of salt by other agencies.

Central Government is responsible for controlling all aspects of the Salt Industry. Salt Commissioner’s Organisation plays a facilitating role in overall growth and development of Salt Industry in the country. The thrust of the Salt Commissioner’s Organisation currently is on Technological Development and Quality Improvement, Salt Iodisation Program for combating Iodine Deficiency Disorders, Infrastructure Development promoting Salt Industry, Labour Welfare Schemes for Salt Workers particularly housing under Namak Mazdoor Awas Yojna and export of Salt.

 

 

GEMS AND JEWELLERY:Project Opportunities in Gujarat

PROFILE:

Gems and jewellery industry in India occupies a significant position in the Indian economy. It is also one of the fastest growing Industries in the country. The cutting and polishing of Diamonds and precious stones is one of the oldest traditions in India and the country has earned considerable goodwill, both, in the domestic and international markets for its skills and creativity. India was also the first country to have introduced diamonds to the world. The country was the first to mine diamonds, cut and polish them and also trade them. It accounted for 16.7 per cent of India's total Merchandise Exports. At present India exports 95% of the world’s diamonds.

 

RESOURCES:

Gujarat is the leading state in India in gems and jewellery sector, as it contributes to about 72% of the total exports of India. Gujarat has a well established diamond industry. Diamond processing and trading unit are spread across the State in cities such as Surat, Ahmedabad, Palanpur, Bhavnagar, Valsad and Navsari. Gujarat accounts for about 80% of diamonds processed and 95% of diamonds export from India. Surat has 65% share in India's diamond trade. Highly skilled workforce Gujarat’s comparatively cheaper and skilledworkforce can be effectively utilized to setup large low cost production bases for domestic and export markets. Gujarat’s Gems & Jewellery sector is expected to grow at a rate of 15%.

 

GOVERNMENT POLICIES:

The government's interest in the sector is evident from the FDI policy which allows 100% FDI and 74% in exploration and mining of diamonds and precious stones and 100% for gold and silver and minerals exploration, mining, metallurgy and processing. Gems and Jewellery, diamonds and precious metals have been given a special thrust by the Ministry of Commerce & Industry, Government of India, under the Foreign Trade Policy through the following measures:

·         Allowing 100 per cent FDI in the gems and jewellery sector under the automatic route;

·         Abolishing duty on polished diamonds;

·         Lowering import duty on platinum and exempting rough, coloured, precious gems stones from customs duty.  Rough, semi –precious stones are also exempted from import duty;

·         Setting up of Gems and Jewellery Parks and SEZs to stimulate sectoral investments;

·         Allowing import of gold of 8 k and above under replenishment scheme, subject to the condition that import being accompanied by an Assay Certificate specifying purity, weight and alloy content;

·         Permitting import of Diamondson consignment basis for Certification /Grading, and re-export by the authorized offices/agencies of Gemological Institute of America (GIA) in India or other approved agencies.

 

CHEMICALS AND PETROCHEMICALS: Project Opportunities in Gujarat

 

 

PROFILE:

The Chemical and Petrochemical Industry occupies an important place in the country's economy, as the Chemical industry has grown at a pace outperforming the overall growth of the industry. Chemical industry is an important constituent of the Indian economy. Its size is estimated at around US$ 35 billion approx., which is equivalent to about 3% of India's GDP. The total investment in Indian Chemical Sector is approx. US$ 60 billion and total employment generated is about 1 million. Today, petrochemical products permeate the entire spectrum of daily useitems and cover almost every sphere of life like clothing, housing, construction, furniture, automobiles, household items, agriculture, horticulture, irrigation, packaging, medical appliances, electronics and electrical etc. Chemicals and Petrochemicals contribute to more than 62 % of national petrochemicals and 51% of national Chemical sector output. It leads all states in India in terms of the investments committed in the chemical and petrochemical sector, 30% of fixed capital investment is in the manufacturing of Chemical and Chemical Products. Manufacturing of chemicals and chemical products contribute to around one fifth of the total employment in state. The production capacity of major suppliers of polymers, PE/PP/PVC in Gujarat is nearly 70% of the whole country’s production. Large quantity of production of basic chemicals caustic soda, caustic potash and chloromethane, largest supplier of bio fertilizers, seeds, Urea and other fertilizers

 

RESOURCES:

Gujarat's chemicals and petrochemicals industry is one of the fastest growing sectors in the State's economy. The industry offers a wide spectrum of opportunities for the investors both from India and abroad. The well diversified chemical industry has complete portfolio of chemical products including petrochemicals and downstream products, pharmaceuticals, dyes and intermediates. The Chemical Industry in Gujarat comprises of about 500 large and medium scale industrial units, about 16,000 of small scale industrial units and other factory sector units. Gujarat emerged as leading Indian states in terms of the investments committed in the chemical and petrochemical sector. It contributes to more than 62% of national petrochemical and 51% of national chemical sector output. Around 6,000 chemical and petrochemicals products are produced in the state. Manufacturing of chemicals and chemical products contributes to around one fifth of the total employment in state. The chemical industry in Gujarat is a significant component of the State's economy, contributing to more than 51% of Indian production of major chemicals with revenues at approximately more than INR 12,000 crore. Petrochemical Industry in Gujarat produces 13,048 ('000 Tonnes) of petrochemical products and also contributes around 62% to the total production of the country. Gujarat contributes 15% of the total national chemical exports.

 

GOVERNMENT POLICIES:

In Chemical sector, 100% FDI is permissible, manufacture of most chemical products inter-alia covering organic/inorganic, dyestuffs and pesticides is de licensed. The entrepreneurs need to submit only IEM with the Department of Industrial Policy and Promotion provided no locational angle is applicable. Only the following items are covered in the compulsory licensing list because of their hazardous nature: Hydrocyanic acid and its derivatives, Phosgene and its derivatives,Isocynates and di-isocynates of hydrocarbons.

 

TEXTILES:Project Opportunities in Gujarat

 

 

PROFILE:

The textile industry is primarily concerned with the production of yarn, and cloth and the subsequent design or manufacture of clothing and their distribution. The raw material may be natural or synthetic using products of the chemical industry. India Textile Industry is one of the leading textile industries in the world. Though was predominantly unorganized industry even a few years back, but the scenario started changing after the economic liberalization of Indian economy in 1991. The opening up of economy gave the much-needed thrust to the Indian textile industry, which has now successfully become one of the largest in the world.

RESOURCES:

Gujarat is one of the leading industrial states in India and textile industry in particular had contributed in a big way to the industrialisation of the State. In fact, development of many industries likes, Dyestuff, Chemicals, Engineering/Foundry and Cotton farming is solely dependent on this sector. The State is well known for development of Hybrid Cotton, Ginning, power looms, composite mills, spinning units and independent processing Houses. Gujarat being the largest producer of cotton, has obtained tremendous opportunities towards higher and higher value addition product by setting up Modern Process Houses (with the technology of low polluting and less energy costs) in one hand and Knitwear/Ready-made Garments in a big way on the other to fulfil the domestic and international market. Investment opportunities may be, therefore, explored for Cotton Ring Spinning (25,000 spindles), Open End Spinning (1000 rotors), Modern Process House, Shuttleless Weaving (50 looms), Ready-made garments unit and Non-woven and Technical Textile unit with appropriate technology. Bandhani or Bandhej of Gujarat is one of the best tie and dye fabrics in India. Dhamadka and Ajrakh, Mashru are some of the other fabrics of Gujarat. Dhamadka is the art of printing fabrics with wooden blocks. Mashru is a mixed fabric, woven with a combination of cotton and silk. It was originally used by Muslim men, as they were prohibited from wearing pure silk.

 

GOVERNMENT POLICIES:

The Gujarat government is planning to come up with a policy to boost the textile and apparel industry in the state and help it remain competitive in the post-quota regime of the World Trade Organisation. Gujarat’s textile policy provides incentives that are more favourable for large textile units. It provides 25% capital subsidy on purchase of machineries. Custom duty on textile machinery is only 5%. Also, various human resource development activities for the textile industry have been initiated by state government. Subsidy at 50% of R&D expenditure is provided to industries carrying out research. Interest subsidy at 3% is provided for capital equipment for five years. Assistance is also provided for infrastructural development, market promotion and environment protection. Gujarat is also the largest producer and exporter of cotton, the production of which has been increasing over time. So raw material is plentiful. It is the largest producer of denim. Surat is a strong base for synthetic fibers and provides a big market.

 

Waste management: Project Opportunities in Gujarat

 

PROFILE:

Waste utilization, recycling and reuse plays a major role in limiting resource consumption and the environmental impact of waste. Recycling is an integral part of any waste management system as it represents a key utilization alternative to reuse and energy recovery (Waste-to-Energy). Which option is ultimately chosen depends on the quality, purity and the market situation. 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:

Gujarat is an ideal location for an effective functioning of the projects, which depend on reasonable volume of generated wastes, waste characteristics, public acceptance and potential network of the industry for the zero discharge of the waste. Gujarat is characterized by wide spread industrial establishments, robust infrastructure development and stable socio-political environment. The industrial development has remained and is the robust backbone of Gujarat’s economical and industrial prospects and a driving force of a future economic growth. In a meantime, the rapid industrial development throughout the state has lead resulted in generating abundant industrial wastes which need proper care in pollution mitigation and recycling in and around urban centres of Ahmedabad, Bharuch, Surat etc. 

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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Production Business of Glass Vials for Medicine (for Cosmetic & Other Injectable)

Glass vials are commonly used to package liquid medicines, elixirs, and other commodities that must be delivered in small quantities. Glass vial packaging is more convenient to use than plastic bottles or cardboard boxes, and it offers additional advantages such as safety, mobility, and other advantages. Vials are small glass containers that can be used to hold chemicals and food in addition to chilled medicine. To be effective, liquids, dry powders, and lyophilized substances in vials must be reconstituted before use. Because vials are the most frequent type of packaging for injectable medicines and vaccines, they are exposed to a wide variety of temperatures throughout their lives. Despite the availability of plastic vials, glass vials are extensively used in medicine to package liquids such as vaccinations and other medications. They're often packaged in brown bottles with screw-on caps, though some people prefer plastic vials to glass bottles because glass bottles can be harmful if dropped or damaged. Plastic or glass vials are commonly used in modern containers. They're commonly employed in medical and molecular biology applications to hold small amounts of liquid. Closure systems come in a variety of shapes and sizes, and they're all used on a regular basis. Screw vials (closed with a screw cap or dropper/pipette), lip vials (closed with a cork or plastic stopper), and crimp vials (closed with a cork or plastic stopper) are all examples of glass vials (closed with a rubber stopper and a metal cap). With plastic vials, other closure methods, such as 'hinge caps,' which snap shut when pressure is applied, can be used. Other names for them are flip-tops and snap caps. Vials are most commonly used in the medical field. They're utilised to organise diagnoses and specimens. Swabs are kept in tubes, which are similar to vials. In the criminal court system, forensic labs frequently use vials. The entomology division of the forensics division investigates insects and violent crimes. Killing jars are small jars used to collect and kill insects with minimal injury. In certain facilities, insects are raised from eggs kept in clear vials, allowing for more accurate monitoring of the growth process. Vials are also used by criminal investigators to try to keep crime scenes clean. Glass is still the ideal material for storing sensitive medications and injectables, and it's also used extensively in general laboratory applications. Glass shields medicines and formulations from light and moisture while allowing them to last a long time on the shelf. Glass transports some of the world's most precious liquids, from scorpion venom to insulin. Benefits of Glass Vial: The smooth, transparent surface of a glass vial allows you to visually evaluate the contents for contamination or degradation. One of the reasons why glass is the most commonly utilised container material for injectable liquids is because of this. Borosilicate glass is chemically inert, with the exception of a few acids, and will not react with other chemicals. As a result, you won't have to worry about your samples being damaged by borosilicate glass, and you can count on a lengthy shelf life. Due to its low coefficient of thermal expansion, borosilicate glass is less susceptible to thermal shock than other materials. Borosilicate glass is good for chromatography because of its characteristics. The India Glass Packaging Market is estimated to develop at a CAGR of 6.94 percent over the forecast period. Packaging manufacturing and production, as well as related enterprises, are only active in a few countries where packaging makes a significant contribution to GDP. The focus has shifted away from the country's glass packagers and toward the pharmaceutical industry. Vitamins, pharmaceuticals, and other goods stored in glass vials will not lose their aroma or taste since glass is nonporous. It decreases the possibility of evaporation or contamination from items trapped in the pores of a container. Glass is made from a variety of basic resources, including sand, and is reusable and sustainable. You can feel good about using glass vials because you're helping to save the environment. The Global Vials Market was valued at USD 3,200.2 million in 2021, and it is expected to increase at a CAGR of 6.8% over the next five years. North America is the largest market for vials. The Global Vials Market was valued at USD 3,200.2 million in 2021, and it is expected to increase at a CAGR of 6.8% over the next five years. Vials have been the standard packaging for drugs for many years and are expected to continue to be so in the future. India's pharmaceutical and biotechnology industries employ the world's second-largest workforce. The pharmaceutical business is predicted to grow in size during the next decade, according to the Indian Economic Survey 2021. The pharmaceutical market in the country is expected to grow from USD 41 billion in 2021 to USD 65 billion in 2024, and then to USD 120-130 billion by 2030. Key Players: • Elder Projects Ltd. • Haldyn Glass Ltd. • Hindusthan National Glass & Inds. Ltd. • Makcur Laboratories Ltd. • Nipro Tube Glass Pvt. Ltd. • S G D Pharma India Pvt. Ltd. • Schott Kaisha Pvt. Ltd.
Plant capacity: 2,00,000 Pcs Per DayPlant & machinery: 24 Cr
Working capital: N/AT.C.I: Cost of Project: 34 Cr
Return: 23.00%Break even: 53.00%
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Start Production Business of Micronutrient Fortified Energy Dense Food

Energy Dense Food with Micronutrient Fortification ensures that you obtain all of the critical micronutrients you need to stay healthy and eat well. Micronutrient Fortified Energy Dense Food adds vitamins A, C, B12, zinc, and iron to food and meals to give consumers the most nutritional options at every meal of the day. Deficits in one or more micronutrients, such as iron, zinc, and vitamin A, are common in low- and middle-income nations, putting millions of people's physical and mental health at danger. Fortification of foods is a low-cost method that has been shown to benefit health, the economy, and society. Food fortification has grown in popularity in LMICs over the last two decades for a variety of reasons, including increased urbanisation and rising household spending power, which has led to a greater reliance on processed foods by a larger proportion of the population. Iron insufficiency kills 0.8 million people per year (1.5 percent of all deaths), whereas vitamin A deficiency kills a similar number of people, resulting in a large number of lives lost. According to a large body of research, LSFF appears to have public health implications in both HICs and LMICs. According to a recent review of 50 trials in LMICs, iodine, folic acid, vitamin A, and iron fortification resulted in significant decreases in serious disease. Several country-level studies on the effect of food fortification on micronutrient status have yielded encouraging results. The market for micronutrient fortified foods is expected to grow at a CAGR of 6.1 percent from 2021 to 2026, reaching $172.4 million in 2020. Foods that have been supplemented with nutrients that aren't naturally present in them are known as fortified foods. These foods are designed to provide nutrition as well as health benefits. Calcium could be added to fruit juice extracts because vitamin D is commonly supplemented in milk. As a result of fortified food consumption, common nutrient-deficiency ailments such as rickets and pellagra have practically vanished, and this driver is propelling the fortified foods market forward over the projected period of 2021-2026. While mandatory food fortification has been used in high-income countries (HIC) to prevent micronutrient deficiencies since the 1920s in Europe and North America—when the first salt was iodized—it is still uncommon in LMICs, where food systems are failing to deliver nutritionally adequate diets due to the production and consumption of only a few major starchy food crops (maize, rice, wheat) with low micronutrient content and/or bioavailability.
Plant capacity: 1600 Kgs Per DayPlant & machinery: 23 Lakhs
Working capital: N/AT.C.I: Cost of Project: 56 Lakhs
Return: 28.00%Break even: 65.00%
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Ethanol from Broken Rice Production

Ethanol is a colourless, transparent liquid with a distinctive and pleasant odour. It has a moderately pleasant flavour in dilute aqueous solutions, but a scorching flavour in more concentrated solutions. Ethanol (CH3CH2OH) is a chemical substance with a hydroxyl group (-OH) attached to a carbon atom in each of its molecules. Ethanol is a colourless, combustible, and mildly poisonous chemical molecule found in alcoholic beverages. It is also known as ethyl alcohol, drinking alcohol, or grain alcohol. It is commonly referred to as "alcohol" in everyday discourse. EtOH, CH3CH2OH, and C2H5OH, as well as the empirical formula C2H6O, are some of its chemical formulae (which it shares with diethyl ether). Carbohydrates have been fermented to produce ethanol since prehistoric times. This approach continues to produce all ethanol for human use as well as more than half of the ethanol used in industry. The raw ingredient is simple sugars. The yeast enzyme zymase converts simple carbohydrates to ethanol and carbon dioxide. Ethanol can be used as a standalone vehicle fuel or combined with gasoline to form "gasohol." The most common ethanol-to-gasoline blends have 10% and 85% ethanol, respectively. In the United States, about 1 billion gallons of ethanol are combined with gasoline each year. A 10% ethanol mixture will run OK in the majority of spark-ignited gasoline engines. The majority of spark-ignited gasoline engines will run fine with a 10% ethanol mixture. Most spark-ignited gasoline style engines will run well with mixtures of 10% ethanol. Anhydrous ethanol (ethanol with less than 1% water) can be blended with gasoline in varying amounts up to pure ethanol (E100), and most spark-ignited gasoline style engines will run well with mixtures of 10% ethanol (E10). The majority of cars on the road in the United States now can operate on ethanol mixes of up to 10%, and 10% ethanol fuel is required in some cities where harmful levels of auto emissions are feasible. The most common application of ethanol is in the manufacture of gasoline. The amount of greenhouse gases released during combustion is lowered when a fraction of bioethanol is added to conventional gasoline. In Europe, bioethanol blends with 5 to 10% bioethanol by volume are frequently utilised. E5 or E10 is the designation for the resulting fuel. Far larger combinations, up to and including 100 percent bioethanol vehicle operation, are typical in other parts of the world, such as South America. Flexible fuel vehicles (FFVs) can run on any combination of gasoline, methanol, or ethanol. Ethanol is also utilised in the manufacturing of paints, inks, varnishes, and alkyd resins, as well as as a heat bearer, in aerosols, and in the offshore industries, to name a few. Ethanol is used as a flavour enhancer, in winemaking, and as a foundation for a variety of drinks and confectionery. One of the most often used chemicals in medications is ethanol. Cough syrup, medical capsules, and disinfectants all contain it as a solvent and chemical reactant. Due to increased ethanol usage in sectors such as fuel additives and beverages, the India ethanol market is expected to rise from $ 2.50 billion in 2018 to $ 7.38 billion by 2024, with a CAGR of 14.50 percent from 2019 to 2024. Ethanol is a prevalent alcoholic beverage that can be found in a variety of forms such as beer, cider, wine, spirits, and ale. In an effort to minimise the country's reliance on imported crude oil, the Indian government is pressuring sugar growers to manufacture ethanol for Oil Marketing Companies (OMCs). According to the OECD-FAO Agricultural Outlook 2018-2027, demand for biofuels is shifting to emerging economies, which are rapidly establishing policies to promote the domestic biofuels sector. Furthermore, according to market projections, developing countries will account for 84 percent of worldwide ethanol demand growth. Several countries have mandatory blending legislation that require a certain quantity of ethanol and biodiesel to be used in transportation fuel. In 2019, the global demand for industrial ethanol is expected to reach around 116.9 billion litres. Between 2020 and 2025, demand is expected to grow at a CAGR of 2.5 percent, reaching a volume of around 135.5 billion litres. Chemicals, medications, plastics, and the beverage sector, which includes cosmetics, paints, cleaning products, and alcoholic beverages, account for approximately 13-15 percent of overall ethanol consumption. Key Players: • Ammana Bio Pharma Ltd. • Ghaziabad Organics Ltd. • India Glycols Ltd. • Jeypore Sugar Co. Ltd. • Piccadily Sugar & Allied Inds. Ltd. • Shamanur Sugars Ltd.
Plant capacity: Ethanol: 30 Units per day | Cattle feed as by Product: 27 Units per dayPlant & machinery: 24 Cr
Working capital: N/AT.C.I: Cost of Project: 39 Cr
Return: 26.00%Break even: 41.00%
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Business Plan for Abrasive Grinding Wheels Business

Metalworking and machining industries employ abrasive grinding wheels to grind, shape, and polish metal products. These metalworking tools are available in a variety of shapes, sizes, and materials, each of which influences their function and performance. The cylindrical abrasive grinding wheel is the most popular form of grinding wheel (CAGW). The grinding medium for these wheels is the abrasive substance that spins between two metal hubs that keep the wheel together and allow for solid installation on the machine spindle or chuck. Natural or synthetic abrasive materials are linked together in a matrix to form grinding wheels. While some home workshop owners may be familiar with these tools, the great majority were invented and used by industry. Grinding wheels have been an integral part of this business for over 150 years. Grinding wheels are a cost-effective solution for manufacturers to shape and finish metals and other materials. Abrasives are often the only means to produce items with precise dimensions and smooth surfaces. Grinding wheels are used to cut steel and masonry blocks, sharpen knives, drill bits, and a variety of other equipment, and clean and prepare surfaces for painting or plating in practically every industrial organisation in the world today. Grinding wheels, in particular, are used to ensure that the precision of automotive camshafts and jet engine rotors is maintained. The three types of abrasive product manufacturing include abrasive grain production, bonded abrasive product production, and coated abrasive product production. Other abrasive producers use ingredients developed by abrasive grain producers to make abrasive products. When choosing grinding wheels, there are a number of critical factors to consider. Grain size, material, wheel grades, grain spacing, and bond type are five of these factors. The colour codes on the wheel's label represent all of these characteristics. Grinding wheels come in a variety of shapes and sizes, each with its own set of characteristics. Sharpening, polishing, cutting, and smoothing metal are just a few of the applications. The abrasive used, the size created, and the ultimate result all influence them. The following are some examples: The most basic grinding wheels can be found in practically each workplace on the planet. They're used in a variety of tools, including chisels. It is capable of grinding a wide variety of materials. Straight grinding wheels are similar to large-diameter grinding wheels, although they are significantly larger. The outside of circular products, such as carbide blanks, is ground with these wide-surfaced wheels. It's also used in the oil and thermal spray industries for OD grinding. Grinding wheels with a diameter of up to 36 inches are available. The cylinder, often known as the wheel ring, is used to create flat surfaces. The end face of the wheel is used for grinding. Grinding Cup Wheel: Polishing stone or concrete is one of the most common applications for Grinding Cup Wheels. Dish grinding wheels resemble cup grinding wheels, except they are shallower and have a thinner surface edge. The market is likely to be driven by rising demand for grinding and polishing applications in end-use sectors such as automotive, metal fabrication, electronics, and electrical (E&E) equipment and machinery. The product is useful for changing operational parameters in the manufacturing of automobile components, such as noise levels and high-performance engine carbon dioxide emissions, as well as component machining. The India Abrasive Market was valued at USD362.26 million in 2021, with a predicted CAGR of 6.61 percent over the next five years. Initiatives like the "Smart Cities Mission" and "Housing for all," as well as rising demand for electrical gadgets and automobiles, are propelling India's abrasive industry forward. Key Players • Carborundum Universal Ltd. • Sak Abrasive Ltd. • Sak Industries Pvt. Ltd. • Sterling Abrasives Ltd. • Wendt (India) Ltd.
Plant capacity: Resin Bonded Grinding Wheel Size (180x6): 500 Pcs Per Day | Resin Bonded Grinding Wheel Size (230x3): 740 Pcs Per Day | Vitrified Grinding Wheel Size (180x30): 235 Pcs Per Day | Vitrified Grinding Wheel Size (230x20)253 Pcs Per DayPlant & machinery: 150 Lakhs
Working capital: N/AT.C.I: Cost of Project: 343 Lakhs
Return: 28.00%Break even: 56.00%
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Set up Cocoa Processing Unit Cocoa Butter, Cocoa Couverture and Cocoa Powder (Further Processed Products: Spreads and Chocolate Syrups)

The process of turning cocoa beans into chocolate, cocoa powder, and other related products such as cocoa butter, cocoa liquor, and so on is known as cocoa processing. One of the three basic components of the cocoa processing business is the Cocoa Processing Unit (CPU). The Cocoa Processing Unit (CPU) market includes Cocoa Butter & Powder, which account for the majority of the market, as well as Cocoa Liquor and Others, which are emerging categories. One of the most significant discoveries made in the 18th century was "Theobroma cacoa," a term referring to the tree that bears cocoa, a crucial raw ingredient in the manufacture of chocolate. Chocolate was discovered to have originated in South America's Amazon basin. Carolus Linnaeus, a Swedish botanist, named the cocoa tree "Theobroma cacoa," which means "food of Gods" in Greek. Cocoa trees thrive in tropical climes. Cocoa tree cultivation is usually done in the shade of a large shady tree, and it requires a lot of water and nutrients to grow. Cocoa can be affected by a variety of rots, wilts, and fungal infections. Massive, long leaves with pale-colored blossoms generate large pods on the cocoa tree. The tree produces fruit in its third year and continues to do so until it reaches the age of twenty. Despite the fact that processing's global market share has been consistent, grindings have expanded to meet demand. The Netherlands is one of the largest processing countries in terms of volume, accounting for over 13% of global grindings. Europe and Russia together account for approximately 38% of the processing market. The average yearly increase in demand since 2008 has been just over 3%. The majority of the chocolate is either melted into the liquor and separated into cocoa solids and cocoa butter, or chilled and formed into raw chocolate blocks. It's mostly utilised in the production of chocolate (typically in conjunction with additional cocoa butter). Theobroma oil, often known as cocoa butter, is a light-yellow vegetable lipid derived from cocoa beans. Cocoa butter is made by fermenting, drying, roasting, stripping, and pressing cocoa beans. Biscuits, ice cream, dairy drinks, and desserts all contain cocoa powder. In addition to being utilised as a flavour, it's employed to make confectioner's coatings and frozen treats. Chocolate spread is a sweet chocolate-flavored paste that can be used over breads, toasts, waffles, pancakes, muffins, and pitas. Chocolate syrup is a sweet sauce with a chocolate flavour. It's typically used as an ice cream topping or dessert sauce, or combined with milk to make chocolate milk or a chocolate milkshake. The global cocoa products market will be driven by increased confectionery syrup and chocolate production. Increasing disposable income, enhanced retail distribution channels, expanded availability of foreign brands, and the usage of cocoa in snack food categories such as sweet biscuits and others are all expected to help drive market growth. Cocoa will continue to be popular in scrubs, ointments, creams, face masks, toners, and lotions. In 2020, the Indian chocolate market is expected to reach US$ 1.9 billion, making it one of the world's fastest-growing chocolate markets. Between 2021 and 2026, the market is expected to increase at a CAGR of 11.3 percent, according to IMARC Group. We're constantly monitoring and evaluating the pandemic's direct and indirect effects, taking COVID-19's uncertainty into account. In recent years, India's robust economic growth has increased per capita disposable income, boosting the chocolate industry to new heights. As a result, rather than purchasing chocolates for special occasions, people are purchasing them more frequently. Key Players • Ambriona Cacao Blends Pvt. Ltd. • Candico (I) Ltd. • Dugar Overseas Pvt. Ltd. • Dukes Consumer Care Ltd. • Ferrero India Pvt. Ltd. • Gandour India Food Processing Pvt. Ltd.
Plant capacity: Cocoa Liquor: 2,000 Kgs Per Day | Cocoa Butter: 974.4 Kgs Per Day | Cocoa Powder: 512.8 Kgs Per Day | Chocolate Spread: 530.2 Kgs Per Day | Chocolate Syrup:2,263.9 Kgs Per Day Plant & machinery: 1582 Lakhs
Working capital: N/AT.C.I: Cost of Project: 2422 Lakhs
Return: 26.00%Break even: 39.00%
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Spinning Mill Business | Most Profitable Textile Spinning Business

Introduction A spinning mill is a textile production facility that turns raw materials like cotton, wool, linen and silk into threads used in weaving textiles. Most spinning mills purchase their cotton from wholesalers and use it to produce yarn for sale. Other spinning mills spin their own raw materials on-site to create fabrics or textile products. A company may have one or more spinning mills that serve as its primary means of fabric production. In addition, large manufacturers may also contract out some of their thread production to smaller spinning mills. Visit this Page for More Information: Start a Business in Textile Processing Industry The Start-Up Procedure for a Spinning Mill A Step-by-Step Guide: Starting a spinning mill from the ground up, no matter how lucrative it may appear, is not easy. If you wish to establish a spinning mill, you must first learn everything there is to know about it. Here's how: First and foremost, establish your business site — obtaining land and developing space with the necessary infrastructure will take a considerable investment. Then build your entire plan around it. Product selection — what kind of product do you want to make? What is the price range? Who are you going to target as your customers? This list may go on and on, but one thing you must do first is create clear goals for yourself. Read Similar Articles: Textile Industry Start small - Don't be intimidated by large numbers or ambitious ambitions at first; start small and gradually increase your success. Feel free to extend your operations once you've established a solid basis for your company. Maintain employee satisfaction — Startups sometimes fail due to a lack of finance, poor management, or poor planning. You don't want your business to suffer as a result of any of these factors, so pay close attention to aspects like employee satisfaction and overall company culture at all stages of development. Related Project Report: Rising Demand in Spinning Mill Always have a contingency plan in place — in business, unexpected events are going to occur, which is why you should always be prepared for them. The greatest way to deal with obstacles is to meet them straight on rather than attempting to avoid them altogether. Be adaptable, robust, and flexible, and keep developing until you find a solution that works for your company. Read our Books Here: Textile Spinning, Processing, Natural Fibers, Natural Dyes, Pigments, Textile Dyes, Pigments, Dye Intermediates, Woollen Spinning, Weaving, Knitting, Dyeing Technology Starting a Spinning Mill Has Its Benefits Owning your own mill provides you with several tax benefits that are not available to people who don’t own and operate their own business. For example, most types of income generated by a spinning mill are considered pass-through income, which means they do not get taxed twice—once at the corporate level and again when they reach your hands. In addition, you can use various tax deductions to offset any taxable profits you make from selling textiles, yarns and rovings. Related Feasibility Study Reports: TEXTILE BLEACHING, DYEING, SPINNING, WEAVING, PRINTING, FINISHING AND TEXTILE AUXILIARIES PROJECTS Depending on how your business is structured, these deductions could include depreciation for property used in production; clothing purchases for employees; and travel expenses related to sales. Income made from selling textiles or yarns is also exempt from Social Security taxes if certain requirements are met. And if you hire employees to work in your textile processing operation, you will be able to claim exemptions for hiring veterans and disabled workers through Work Opportunity Tax Credits (WOTC). Market Outlook The worldwide textile industry was valued at USD 1000.3 billion in 2020, and between 2021 and 2028, it is predicted to increase at a CAGR of 4.4 percent. Over the forecast period, the market is predicted to be driven by rising demand for garments from the fashion industry, as well as the rise of e-commerce platforms. The textile industry is based on three main principles: designing, producing, and distributing flexible materials like yarn and clothes. Knitting, crocheting, weaving, and other methods are commonly employed to make a wide range of completed and semi-finished goods in the bedding, apparel, garment, medicinal, and other accessory sectors. Watch other Informative Videos: Textile Industry The textile industry is at the top of the food chain in India's manufacturing industry. It was expected to contribute 14% to industrial output, 4% to GDP, and around 11% to India's export revenues. In addition, it directly employs over 35 million people, making it the country's second largest employer. It has direct linkages to the rural economy, which is based on fibre crops, as well as a range of crafts, including as those involving cotton, wood, and silk, and handlooms, which employ millions of farmers and craftsmen in rural and semi-urban areas. In a global context, the industry accounts for 61% of loomage, 22% of spindleage, 12% of textile fibres and yarn output, and 25% of total world cotton yarn production. See More Links: Start a Business in Asia Start a Business in Potential Countries for Doing Business Best Industry for Doing Business Business Ideas with Low, Medium & High Investment Looking for Most Demandable Business Ideas for Startups Start a Business in Africa Start a Business in India Start a Business in Middle East Related Videos Related Books Related Projects Related Market Research Reports
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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How to Start Tiles Adhesive (Polymer Modified Cementatious)

A tile adhesive is one of a variety of substances used to join tiles together. Tile adhesives come in several forms, including pneumatic and plastic injection guns, tubes and trowels. The most common tile adhesive today is polymer modified cementitious composites (PMCCs), which are usually pumped into molds that make up a certain area of a floor or wall. Other options include epoxy, hot-melt and natural cement tile adhesives. PMCC tile adhesives work well for indoor residential installations where moisture levels are not too high, as well as for swimming pools and commercial properties like gyms. In some cases, grout joints might be necessary when installing PMCC tile adhesives; often these joints can be filled with other types of cements as well. Visit this Page for More Information: Start a Business in Adhesives and Sealants Industry Production process of Tile Adhesives: Step 1: Selecting raw materials, Step 2: Mixing raw materials, and Step 3: Powder feeding system are all steps in the production of polymer modified cementatious tiles adhesive. Constant flow production defines the manufacturing process, which necessitates continuous raw material delivery and fluidization. A piece of powder is picked up and then delivered into an atomizer, where it is hung in air as particles are beaten in continuous flow production. After that, a portion of the powder is dispersed and blended in a fluidizer. Related Feasibility Study Reports: Adhesives and Sealants, Industrial Adhesives Finally, the mix is delivered to a tank with the appropriate amount of water for liquid mixing, which includes a pelleting mechanism. The efficiency of a fluidized bed has been noted to be dependent on efficient electrical equipment such as an agitator and a blower, without which it may fail at times. Compactors are also sometimes used to make pellets of a specific size. This polymer modified cementatious tiles adhesive is ready to use as a cement additive in concrete mixtures or precast concrete components (fibre reinforced plastic goods) with either glass or mineral wool reinforcing. Read Similar Articles: Adhesives and Sealants Uses Tiles adhesives are used to bond different substrates, such as ceramic, granite and marble surfaces. The applications include kitchen backsplashes, bathroom walls and floors, shower stalls, tub surrounds and other surfaces requiring waterproofing. The glue is also ideal for countertops that consist of multiple materials or natural stone. This bonding material can be applied to one or both sides, depending on your project requirements. It won’t crack, chip or peel away. Read our Books Here: Gums, Adhesives & Sealants Technology (With Formulae) Benefits of Starting Tiles Adhesive Manufacturing Business On account of demand, it is a new industry in India. Its demand is growing at a high rate due to increased use by various industries including construction, infrastructure and real estate. There is an untapped market for tiles adhesive that can be exploited by new entrepreneurs. It requires less investments as compared to normal cement business and have better profit margins. Trained manpower and manufacturing equipment availability makes it easy for entrepreneurs to set up their units in record time which will lead to a faster growth rate. Mini-plants or small scale plants are available as well with cost effective price range and hence also helps entrepreneurs to start their own tile adhesive business in lesser investment. Related Project Report: Polymer Modified Cementitious Tile Adhesives Market outlook The Tile Adhesive Market is predicted to expand at a rate of roughly 8% per year. Demand for quick-fix adhesives and long-lasting tile glue is continuing to grow. Furthermore, increased awareness of the benefits of titles adhesive, such as its durability and time-saving factor due to its quick mixing ability, is driving demand for tiles adhesive. In recent years, as a huge number of people have begun to migrate from rural to urban regions in pursuit of jobs, the use of sophisticated adhesives in the construction of residences and commercial structures has expanded in developing countries. As a result, the real estate market has grown, as has the usage of tile adhesives in the construction of homes and businesses. Furthermore, because today's consumers seek a more stylish and appealing interior in their homes, tiles adhesive is critical in ensuring the tiles' long-term resilience and endurance. Watch other Informative Videos: Adhesives and Sealants, Industrial Adhesives, Glues, Gums and Binders, Synthetic Resin, Resins (Guar Gum, Adhesive [Fevicol Type], Hot Melt Adhesives) Asia Pacific Tiles Adhesive Market Outlook The largest market for tile adhesive is Asia Pacific. More than 40% of the global tile adhesive market is accounted for by the Asia Pacific region. Demand in Asia Pacific is expected to develop fast during the estimated period as the number of operations in the end-use industry grows (2021-2031). The tile adhesive industry in Asia Pacific is dominated by China and India. The number of small and large-scale commercial construction projects has increased as international firms expand their investment in India's information and technology industries, resulting in an increase in the use of tiles adhesive. Aside from that, the Indian government has created the Make in India initiative to support the local chemical sector by granting tax relief for infrastructure improvements as well as tax incentives for R&D projects. These are the elements that are propelling the tiles adhesive market in India. See More Links: Start a Business in Asia Start a Business in Potential Countries for Doing Business Best Industry for Doing Business Business Ideas with Low, Medium & High Investment Looking for Most Demandable Business Ideas for Startups Start a Business in Africa Start a Business in India Start a Business in Middle East Related Videos Related Books Related Projects Related Market Research Reports
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Liquid Epoxy Resin Manufacturing Business Plan Highly Profitable Business Opportunity

Liquid epoxy resin is a quick-drying, two-part epoxy resin. Liquid epoxy resin cures much faster than regular, dry epoxies, making it an ideal solution for wood and metal projects. Liquid epoxy resins feature superior bonding properties and are easy to sand, glue and paint liquid epoxy resins are a convenient alternative to traditional glue and paint combinations. Visit this Page for More Information: Start a Business in Epoxy Resin Industry Uses of Liquid Epoxy Resin It's possible to utilise liquid epoxy resin as a bonding agent, sealer, adhesive, or coating. Surface coatings and waterproofing paints use liquid epoxy resin solutions, whereas solid epoxy resins can be used as adhesives, sealants, and coatings. Pipeline lining materials, caulking compounds, and protective paint coatings are all made with liquid epoxy resin. Read our Book Here: Epoxy Resins Technology Handbook (Manufacturing Process, Synthesis, Epoxy Resin Adhesives and Epoxy Coatings) 2nd Revised Edition Methacrylate-based liquid epoxy resin and bisphenol-based liquid epoxy resin are the two main varieties (epichlorohydrin). Bisphenol products are polymerized at room temperature or heated to speed up the curing process using an acid or alkaline catalyst. For added curing strength, free formaldehyde is used in some formulations. Read Similar Articles: Resins Industry Manufacturing process 1. Raw Materials Preparation For manufacturing epoxy resins, first of all, we need raw materials like furfuraldehyde, oxirane (epichlorohydrin), methanol, phenol and others. The proportion of them should be strictly controlled as well as according to our final product specification so that quality and quantity will be meet our requirement. All equipment (including condenser, evaporator) must be checked before use in order to ensure good working conditions. Watch other Informative Videos: Profitable Projects on Paints, Pigments, Enamels, Varnishes, Solvents, Thinners, NC Thinner, Wall Coatings, Coatings, Wood Primer, Putty, Epoxy Paints 2. Fractional Distillation... 3. Condensation... 4. Cooling ... 5. Storage (bottling)... 6. Injection Molding... 7. Final Testing ... 8: Shipment.. Related Project: Epoxy Resin - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost And Revenue, Plant Economics Market Outlook: The global Epoxy Resin market size is anticipated to grow at a CAGR of 5.85%. Epoxy resins have a property of containing one more than one epoxy group per molecule and are thermosetting resins that make use of suitable cross-linking agents for higher reactivity. Epoxy resins are respected by being the largest raw material used for different chemical formulations. Read our Books Here: Synthetic Resins, Surface Coating, Paints, Varnishes & Lacquers, Gums, Adhesives & Sealants, Rosin & Derivatives, Resins, Oleoresins Formulation And Technology Highly conducive properties belonging to epoxy resins including high thermal stability, mechanical strength, moisture resistivity, adhesion, and heat resistance make epoxy resins as the resin of choice for several end-user applications such as laminates and insulators. Growing end-use industries including transportation, marine coatings, aerospace, electrical & electronic laminates, composites, and decorative powder coatings particularly in the Asia Pacific is also expected to impact the global market positively. Increasing research initiatives by key participants coupled with technology innovation in the field of modified resins is expected to create new avenues for industrial applications. Related Feasibility Study Reports: Adhesives and Sealants, Industrial Adhesives, Glues, Gums and Binders, Synthetic Resin, Resins (Guar Gum, Adhesive [Fevicol Type], Sodium Silicate Adhesive, Hot Melt Adhesives, Rubber Based Adhesive, Acrylic Adhesives, Guar Gum Powder, Gum Arabic) See More Links: Start a Business in Asia Related Market Research Reports Start a Business in Potential Countries for Doing Business Best Industry for Doing Business Business Ideas with Low, Medium & High Investment Looking for Most Demandable Business Ideas for Startups Start a Business in Africa Start a Business in India Start a Business in Middle East Related Videos Related Books Related Projects For more details: https://bit.ly/3HDerDI ???????????????????????????? ???????? NIIR PROJECT CONSULTANCY SERVICES, DELHI An ISO 9001:2015 Company ENTREPRENEUR INDIA 106-E, Kamla Nagar, Opp. Mall ST, New Delhi-110007, India. Email: [email protected] [email protected] Tel: +91-11-23843955, 23845654, 23845886 Mobile: +91-9097075054, 8800733955 Website: https://www.entrepreneurindia.co https://www.niir.org
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Start a Production Business of Zinc Oxide from Zinc Dross. Profitable Project Opportunities in Inorganic Compound Sector

Zinc oxide, often known as zinc white or calamine, is a chemical compound. Zinc types can be recovered via galvanised sheets, batteries, automotive components, and galvanising techniques, among other things. Zinc ashes develop on the surface of molten zinc baths, and while the majority of them are zinc oxide, finely divided zinc particles will also stick to it. Zinc oxide is an inorganic compound with the formula ZnO. Zinc oxide, a white powder that is insoluble in water, is found in rubbers, plastics, ceramics, glass, cement, lubricants, paints, ointments, adhesives, sealants, pigments, meals, batteries, ferrites, fire retardants, and first-aid tapes. Visit this Page for More Information: Start a Business in Chemical Industry Projects Uses of Zinc Oxide from Zinc Dross Zinc oxide is used in cosmetics, metal casting, rubber compounding and certain white paint formulations. It is also used as an anti-caking agent in table salt. Zinc oxide powder and paste is used for sunscreen lotions, zinc oxide has been found useful when applied directly to diaper rash cream. The unusual texture of zinc oxide means that it has limited application as a pigmenting additive in plastics and coatings. In organic chemistry, zinc chloride can be used for epoxidation of alkenes using DARCO catalyst at room temperature without requiring solvent or any other added reagent. Read Similar Articles: Inorganic and organic Manufacturing There are two main methods of producing zinc oxide from zinc dross. The first is smelting and calcining, which can be done using one of two processes — molten salt or lime — or by directly reacting in an oxidizing atmosphere. The other is by adsorption on activated carbon or sulfated charcoal. Zinc chloride + CaO ? ZnO + CaCl2 ? ZnCl2 (s) + 2 O(g) ? 2 ZnO ? Calcium oxide + oxygen ? calcium carbonate Solid calcium hydroxide reacts with zinc vapour to form solid zinc hydroxide and gaseous hydrogen chloride; zinc hydroxide bonds with atmospheric oxygen to form zinc oxide. ZnCl2 (l) + H2O ? Zn(OH)4 ? Zinc chloride solution has low solubility for zinc oxide; zinc dissolves as metal and forms a basic solution. Related Feasibility Study Reports: Chemicals (Organic, Inorganic, Industrial) As acid is added to lower pH, more zinc dissolves until its solubility limit is reached. Zinc precipitates out of solution while dissolved chlorine continues to ionize into hydrochloric acid. This cycle continues until all zinc ions have reacted to form zinc oxide. A precipitate separates out, leaving clear liquid with most of its zinc remaining in solution. Watch other Informative Videos: Chemicals (Organic, Inorganic, Industrial) Market Outlook: India has become an attractive market for global producers of metal alloys, such as aluminium and zinc. Zinc Oxide Powder is not only sought after as a key ingredient in thousands of everyday items such as cosmetics, plastics, rubber and paper products, but also increasingly being used in emerging applications that make use of its optical transparency and reflectivity. Read our Books Here: Chemical Technology (Organic, Inorganic, Industrial), Fine Chemicals The Indian market outlook for Zinc Oxide from Zinc Dross (White Seal) Market report is expected to grow at a CAGR of around 7.8% during forecast period 2021-2026. The base year considered for estimating future market size of Zinc Oxide from Zinc Dross (White Seal) Market is 2021. Zinc Oxide, also known as calamine, zinc white, white zinc or simply zinc, is used in paints and coatings where it produces brilliant color and dries rapidly Related Project: Production of Zinc Oxide from Zinc Dross Growing prospect of zinc oxide in antimicrobial packaging is also likely to expand the potential biomedical applications. The global zinc oxide market was valued at over 1,400 kilotons in 2020, and it is expected to grow at a CAGR of over 4% in volume over the forecast period (2021-2026).The growing impact of such microorganisms on food safety, particularly in the ready-to-eat segment, has fueled zinc oxide market product development. Read our Book Here: The Complete Technology Book On Chemical Industries Zinc oxide's increasing use in antimicrobial packaging is likely to expand its biomedical applications. In 2020, the global zinc oxide market was worth over 1,400 kilotons, and it is predicted to rise at a CAGR of over 4% in volume over the forecast period (2021-2026).Growing demand from various end-use industries, as well as increased investments in R&D projects, are some of the key contributing factors driving the Global Zinc Oxide Market forward. See More Links: Start a Business in Asia Related Market Research Reports Start a Business in Potential Countries for Doing Business Best Industry for Doing Business Business Ideas with Low, Medium & High Investment Looking for Most Demandable Business Ideas for Startups Start a Business in Africa Start a Business in India Start a Business in Middle East Related Videos Related Books Related Projects For more details: https://bit.ly/3ss5AP3 #DetailedProjectReport #BusinessIdeas #StartupBusinessIdea #EntrepreneurIndia #NPCSProjects #BusinessConsultant #ProjectReport #Startup #BusinessOpportunity #BusinessPlan #Business #ZincOxideProduction #ZincDross #InorganicCompoundSector #ZincOxide #Zinc #Oxide #chemicals #ZincOxidefromZincDrossBusinessPlan #ZincOxideBusiness
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Return: 1.00%Break even: N/A
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Start Production of Bio-Organic Fertilizer from Tea Waste. Most Profitable Business Opportunity

Bio-Organic Fertilizer (B.O.F) is an organic fertilizer made from black tea wastes, which are found to be rich in Potassium, Phosphorus and Calcium by certain studies that were conducted. These nutrient contents in Bio-Organic Fertilizer make it more effective than other commercial fertilizers which contain high percentage of nitrogen that results in negative environmental impacts such as eutrophication of water bodies and contamination of soil etc. Business Plan: Bio-Organic Fertilizer from Tea Waste Manufacturing Business Plan Therefore, it is believed that use of eco-friendly Bio-Organic Fertilizer can help farmers to achieve higher yields while retaining their lands fertility levels at moderate level due to its low N content; thus reducing input cost for farmer's purchase of commercial fertilizers and decreasing financial burden on small scale farmers. The bioorganic fertilizer also has highest level of microbial activity than any industrial manures. Visit this Page for More Information: Start a Business in Fertilizer Industry Uses Tea waste can be utilised to make bio-organic fertiliser that can be used in farming. Plant growth is aided by bio organic fertilisers, which improve soil structure and crop yields. Fruit trees, vegetables, ornamentals, turf grasses, and field crops are all examples of applications. Green manures are a type of cover crop used to improve the soil quality on farms. Green manure suppresses weed development by shadowing it, while others contribute nutrients to soils or increase legume nitrogen fixation. Bacteria on the roots of legume plants transform atmospheric nitrogen into ammonia, which is beneficial to plants. Manufacturing Process Manufacture of tea waste, The process begins with roasting and drying a certain quantity of tea leaves in special drum dryers. This produces Carbon Dioxide and Black Carbon that is used for making black tea. The carbon residue produced during drying is captured as Bio Organic Compound (BCO) which can be further utilized as Bio organic fertilizer. This organic residue contains Phosphorous, Potassium, and Nitrogen, Phosphate and several other essential minerals and trace elements. Read Similar Articles: Fertilizers - Inorganic and organic Further treatment gives rise to Bio Organic Fertilizer or Bio NPK Fertilizer from BCO. direct use of Tea waste in manufacturing bio organic fertilizer so it goes to landfills without getting any utilization value out of it even though it has huge production potential for manufacturing bio organic compound by converting into biogas or compost through aerobic decomposition. Market Outlook: The global biofertilizers market size was USD 1.60 billion in 2020. The market is projected to grow from USD 1.79 billion in 2021 to USD 3.98 billion in 2028 at a CAGR of 12.03% in the 2021-2028 period. Amplifying demand for organic products is leading to the increasing adoption of biological fertilizers. Higher recognition and acceptance of the product among farmers based across developed as well as developing economies are positively influencing the market. Related Feasibility Study Reports: Fertilizers, Fertilisers, Inorganic Fertilizers (Mineral Fertilizer), Macronutrients and Micronutrients, NPK, SSP, Single Super Phosphate, Urea, Nitrogen Fertilizer,Nitrogenous Fertilizer, Diammonium Phosphate Projects The rising soil and water pollution due to excessive usage of chemical fertilizers is further fueling the adoption of organic and sustainable fertilizers. Moreover, the active participation of agricultural producers in ramping up their production of agricultural biological, such as bio-origin fertilizers, is predicted to boost the market growth. This market is projected to witness continuous growth during the forthcoming years due to the rising demand for fertilizers that are compatible for sustainable and organic farming and agriculture practices. These fertilizers are an economical as well as eco-friendly option for crop production; hence, their adoption is rising across the globe. Moreover, other aspects, such as improvement in soil fertility, increase in nutrient uptake by plants, and low risk to human health associated with the use of bio-based fertilizers, are some of the factors driving the market growth. Watch other Informative Videos: Fertilizers, Biofertilizer, Inorganic Fertilizers (Mineral Fertilizer), NPK, Nitrogen Fertilizer,Nitrogenous Fertilizer, Diammonium Phosphate Projects Indian Fertilizer Market Trends: India is one of the top producers of agricultural products, such as pulses, wheat, rice, groundnut, potatoes, and onions. With the continuous population growth and the increasing demand for food crops, the demand for fertilizers has escalated in the country. In addition, with the increasing levels of urbanization and decreasing arable land, farmers are rapidly utilizing fertilizers to improve their production in India. Moreover, the Government of India is implementing initiatives and providing subsidies to produce high-quality seeds and cluster frontline demonstrations through Krishi Vigyan Kendra (KVKs), which is propelling the demand for fertilizers. Related Books: Biofertilizer, Biofertiliser,Biogas, Organic Farming, Vermicompost, Vermiculture,Biotechnology For instance, various programs undertaken by the National Food Security Mission (NFSM) are increasing the food productivity. They also reduce the imports of fertilizers, which is facilitating the production of domestic fertilizers in India. Furthermore, governing bodies are offering the necessary support to the farmers through diversified schemes and introducing new technologies to develop enhanced fertilizers at subsidized rates, which is positively influencing the market growth. Looking forward, the market is expected to grow at a CAGR of 5.5% during the forecast period (2021-2026).
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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