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Chemicals (Organic, Inorganic, Industrial) Projects

The chemical industry is a highly versatile segment in the overall industrial economy of India. It is one of the oldest domestic industries in India, contributing significantly to both the industrial and economic growth. Over the past ten years, there have been breath-taking changes in the chemical industry, especially in India.

The chemical industry has been linked with almost every other industrial activities starting from food processing to rubber, leather, and textile processing.  There is, in fact, hardly any segment where chemicals do not feature. 

The industry is broadly segmented into four major categories-Inorganic Chemicals, Organic Chemicals, petrochemicals based specialities, and agro oriented chemicals and a feasibility study of chemical industrial projects.

The chemical industry currently produces nearly 70,000 commercial products, ranging from cosmetics and toiletries, to plastics and pesticides.Indian chemical companies have prominence in the global market. Global chemical companies present in India have benefited from many opportunities as a result of favorable factors such as skilled workers, low manufacturing cost and strong domestic demand.

The Agro-oriented chemicals like guar gum, starch, citric acid, sorbitol, yeast and others, valued at over Rs 1450 billion, apart from contributing 14% of the industrial sector’s contribution to GDP, industrial chemicals have a 10% share in the overall exports of India. It is spread over some 2000 units, mostly in the small scale sector. Nonetheless, over a third of the market is controlled by top 10 players.

Petrochemicals, pharmaceuticals, synthetic fibres, fertilizers and pesticide, paints and dyestuffs constitute over 85% of the market. The remaining 15% comprises a wide range of chemical intermediate and industrial or speciality chemicals which have a market of over Rs 230 billion (including imports of about Rs 15 billion).

The chemical industry remains concentrated in the western region, with a near 48% share of investment. In the western region, Gujarat makes the largest contribution to the chemical industry’s production activity. The Indian market for petrochemicals will increase four times in the next ten years. It will witness a sustained double-digit growth rate in the coming years.

India’s speciality chemicals market represents around 24% of the total chemical industry Exports of speciality chemicals from India and are poised to grow from US$4 billion in 2007 to US$13 billion in 2013, representing a growth rate of 22%.The speciality chemicals industry in India is expected to grow at a growth rate of 15%, almost double the growth of the global speciality chemicals industry.

With India being an emerging economy with high growth rates and a strong domestic demand the chemical industry in India will be one of the most booming industries in the coming years.

How to determine Feasibility Study for Industrial Projects?

The feasibility study is the study of the market’s pivotal point to determine the viability of an industrial project. It explains industrial based projects, external influencers such as legal obligations, and required investment and expected returns. The study helps in the collection of information related to the industrial plan and economy in general to determine the probable performance of the project.

Here are the primary points in determining the feasibility of chemical plant projects.

1. Target Market Research

Project reports on the market are the key factors to consider before entering into any project. The project owners have to conduct a detailed survey about the target market to determine the potential profit he is likely to get from the project.

Also, market research helps in identifying the availability of raw material, perfect product design, and product prices through understanding consumer behaviors. On market research, the project owner tends to conduct surveys pertain the product, supply and demand, product price, competition, and market distribution.

2. Technical and Procedural details

A technical study regards defining industry concerns and economies of scale and the sources of technology. The study covers the target location of the project, machinery and other assets required to run the industry, waste treatment, sources of raw materials, and participation agreement, which is licensing, taxation and other legal contracts.

3. Costs and Financial Preparedness

It regards the collection of financial requirements, analysis, and estimation of investment and operation cost of a project.

Feasibility study for a chemical industrial project influences the creation of a business plan for a chemical company, which is vital in the implementation ofchemical business ideas.

Products used in Inorganic Chemicals Manufacturing Process

The chemicals produced in the Inorganic Chemicals Manufacturing Process are intermediate products that are used as inputs in industrial and manufacturing processes. They are those that are not carbon-based; that is, they are minerals that lack carbon atoms, unlike organic compounds.

The inorganic chemicals industry consists of two segments–basic inorganic chemicals such as potassium, nitrogen and phosphorus products, sulfates, alkalis, among others, and specialty chemicals such as catalysts, pigments, and fuels.

1. Basic Inorganic Chemicals

They are chemicals that manufacture inorganic products such as plastics and fertilizers such as potassium nitrates. They are produced in large quantities. The basic inorganic compound industry is characterized by its high degree of fragmentation across areas with a large volume of production.

They also have a high energy cost, low import tariffs, and infrastructural impediments, which significantly affects their competitiveness.

2. Specialty Inorganic Chemicals (SIC)

They are chemicals with diverse and complex production processes. They are manufactured through a combination of simple process steps such as chemical reaction processes, and equipment, which are modified to create the desired specialty product.

Specialty inorganic chemicals are characterized by the quality and purity of raw materials. The characteristics are the key factors influencing the environmental impacts of products produced as there are opportunities to reuse or recycle these products.

 

 

Reasons for buying our reports:

This report helps you to identify a profitable project for investing or diversifying into by throwing light to crucial areas like industry size, market potential of the product and reasons for investing in the product

This report provides vital information on the product like its characteristics and segmentation

This report helps you market and place the product correctly by identifying the target customer group of the product 

This report helps you understand the viability of the project by disclosing details like machinery required, project costs and snapshot of other project financials

The report provides a glimpse of government regulations applicable on the industry

The report provides forecasts of key parameters which helps to anticipate the industry performance and make sound business decisions.

 

Our Approach:

Our research reports broadly cover Indian markets, present analysis, outlook and forecast for a period of five years.

The market forecasts are developed on the basis of secondary research and are cross-validated through interactions with the industry players

We use reliable sources of information and databases. And information from such sources is processed by us and included in the report


We can provide you detailed project reports on the following topics. Please select the projects of your interests.

Each detailed project reports cover all the aspects of business, from analysing the market, confirming availability of various necessities such as plant & machinery, raw materials to forecasting the financial requirements. The scope of the report includes assessing market potential, negotiating with collaborators, investment decision making, corporate diversification planning etc. in a very planned manner by formulating detailed manufacturing techniques and forecasting financial aspects by estimating the cost of raw material, formulating the cash flow statement, projecting the balance sheet etc.

We also offer self-contained Pre-Investment and Pre-Feasibility Studies, Market Surveys and Studies, Preparation of Techno-Economic Feasibility Reports, Identification and Selection of Plant and Machinery, Manufacturing Process and or Equipment required, General Guidance, Technical and Commercial Counseling for setting up new industrial projects on the following topics.

Many of the engineers, project consultant & industrial consultancy firms in India and worldwide use our project reports as one of the input in doing their analysis.

We can modify the project capacity and project cost as per your requirement.
We can also prepare project report on any subject as per your requirement.

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BARIUM COMPOUNDS

Barium compounds are those chemical compounds which contain the element barium. For an alternative listing of barium compounds
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Hexamine from Formaldehyde

Hexamine is a reaction product of formaldehyde and ammonia widely employed in the production of thermosetting plastic materials. This product is usually obtained by evaporating a mixture of an aqueous solution of formaldehyde and ammonia, by a batch process. Batch processes are quite uneconomical and a Suitable continuous process wherein satisfactory yields are obtained has long been sought. Formaldehyde is also being used in producing home building products. Formaldehyde is also known for its preservative and anti-bacterial properties. Hence, medical laboratories and some consumer products are also using formaldehyde as a preservative. ? The global consumption of formaldehyde is increasing as it is being used on a large scale for construction and remodeling activity and furniture production. Due to the excellent thermal and chemical resistance, formaldehyde-based resins are being used in manufacturing airplane and automobile parts. Formaldehyde is also being used in manufacturing anti-infective drugs, hard-gel capsules, and vaccines.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Benzyl Alcohol

Benzyl alcohol is an aromatic alcohol with the formula C6H5CH2OH. The benzyl group is often abbreviated "Bn" (not to be confused with "Bz" which is used for benzoyl), thus benzyl alcohol is denoted as BnOH. Benzyl alcohol is a colorless liquid with a mild pleasant aromatic odor. It is a useful solvent due to its polarity, low toxicity, and low vapor pressure. Benzyl alcohol has moderate solubility in water (4 g/100 mL) and is miscible in alcohols and diethyl ether. The opportunity in the global benzyl alcohol market is predicted to rise from US$198 mn in 2015 to be worth US$299.2 mn by 2024, registering a CAGR of 4.7% therein. The demand for benzyl alcohol is anticipated to rise at a 4.1% CAGR during the forecast period. By volume, the paints and coatings industry led the global market in terms of end use and will account for a share of over 60% by 2024. The demand for benzyl alcohol in the paints and coatings industry is likely to rise at a 3.9% CAGR from 2016 to 2024. However, the pharmaceutical industry is projected to exhibit the fastest growth in terms of demand for benzyl alcohol.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Zinc Oxide from Zinc Dross

Zinc oxide is an inorganic compound with the formula ZnO. ZnO is a white powder that is insoluble in water, and it is widely used as an additive in numerous materials and products including rubbers, plastics, ceramics, glass, cement etc. Zinc dross is obtained from the recovery of zinc. The zinc types may be recovered from galvanized sheets, batteries, car components, galvanizing processes, etc. The process for zinc oxide manufacture can be roughly divided into two types, the direct processes and the indirect processes. The direct methods use zinc ores as a source of zinc and the product is commonly referred to as American process. The indirect method use zinc metal as the raw materials and the product is known as French process. Zinc oxide (ZnO) has a very good market and it is a growth oriented product and demand is over increasing in the country as well as abroad various industries consuming zinc oxide are in manufacturing, paint, paper, cosmetic, crockery, plastic, petroleum etc. The market size of zinc oxide in terms of value is projected to reach USD 4,184.5 million by 2020, and the global market size for zinc oxide is projected to register a CAGR of 6.0% between 2015 to 2020. As a whole there is a good scope for new entrepreneur to invest in this business. Few Indian major players are as under • Bharat Zinc Ltd. • Ess Vee Alloys Pvt. Ltd. • Hindustan Zinc Ltd. • K A Wires Ltd. • Lords Chemicals Ltd. • Maha Chemicals Ltd.
Plant capacity: Zinc Oxide: 16 MT/DayPlant & machinery: Rs 351 lakhs
Working capital: -T.C.I: Cost of Project: Rs 833 lakhs
Return: 29.00%Break even: 59.00%
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Ethyl and Butyl Acetate

Ethyl and butyl acetates are solvents used in surface coatings, inks, flavorings and pharmaceuticals, and other applications. Ethyl acetate (systematically ethyl ethanoate, commonly abbreviated EtOAc or EA) is the organic compound with the formula CH3–COO–CH2–CH3, simplified to C4H8O2. This colorless liquid has a characteristic sweet smell (similar to pear drops) and is used in glues, nail polish removers, decaffeinating tea and coffee, and cigarettes. Ethyl acetate is the ester of ethanol and acetic acid; it is manufactured on a large scale for use as a solvent. Demand for alkyl acetates in India looks promising, as it is expected to have strong growth in domestic consumption and exports during 2015–20. The Global Ethyl Acetate Market is growing with the rapid pace; mainly due to the expanding automotive and construction industries. The market is forecasted to demonstrate a stunning growth by 2027, surpassing its previous growth records in terms of value with a striking CAGR during the estimated period (2017 – 2027). Thus, due to demand it is best to invest in this project. Few Indian major players are as under • Ashok Alco-Chem Ltd. • Ester India Chemicals Pvt. Ltd. • Ghaziabad Organics Ltd. • Goodearth Industries Ltd. • Laxmi Organic Inds. Ltd. • Wallams (India) Agro Products & Power Ltd.
Plant capacity: Ethyl Acetate: 8.3 MT/Day Butyl Acetate: 8.3 MT/DayPlant & machinery: Rs 239 lakhs
Working capital: -T.C.I: Cost of Project: Rs 546 lakhs
Return: 27.00%Break even: N/A
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Global Inorganic Chemicals Market to Grow 4.5% by 2022.

Global Inorganic Chemicals Market to Grow 4.5% by 2022. Manufacturing of Sodium and Ammonium Molybdate. Project Opportunities in Production of Inorganic Compound Sodium Molybdate Sodium Molybdate also known as disodium dioxide (dioxo) molybdenum is a chemical compound extensively consumed in fertilizer application. Other uses of sodium molybdate include nutritional supplement in food industry and as corrosion inhibitor in industrial applications. Sodium molybdate is often found as dehydrate and was first synthesized by the method of hydration. Sodium molybdate is an organic salt which is found in dietary supplements and other nutritional supplement. Sodium molybdate is a good source of molybdenum, it is used to for nitrogen fixation to support healthy growth of leguminous plants such as peas & leans, clover & Lucerne. Sodium molybdate is used as corrosion inhibition in industry. In addition, sodium molybdate is also used for reducing nitrite requirement of fluids inhibited with nitrite-amine in chemical plants and improves corrosion protection. Sodium molybdate is a chemically altered form of the mineral element, sodium. Sodium is a natural salt, and sodium molybdate is used in the food industry as a fertilizer and nutritional supplement for health. The agricultural industry uses large quantities of sodium molybdate as fertilizer, particularly on vegetables such as broccoli and cauliflower. It is also fed to some cattle to help treat copper deficiencies. As a result of its use on food products you consume, trace amounts of sodium molybdate may end up in the food supply. Sodium molybdate in your food can have a variety of effects on your body, although its complete effects are not fully understood. Sodium Molybdate is useful as a source of molybdenum. It is often found as the dihydrate, Na2MoO4•2H2O. The molybdate (VI) anion is tetrahedral. Sodium molybdate can help correct a sodium deficiency by adding extra sodium to your body; however, sodium molybdate is ingested in such small amounts its contribution to your overall sodium stores is probably negligible. Once in your body, the molybdenum molecule is cleaved off of the sodium molecule and can have positive effects on your health. Rapid industrialization across the globe is leading to increasing discharge of waste water and associated chemicals in to ecosystem, stringent government regulations on water disposal and environmental safety is leading towards increasing capacities of chemical and water treatment. Sodium molybdate is used for corrosion inhibition and water treatment in these facilities. Such investments in these facilities are expected to drive sodium molybdate consumption across the globe. Sodium molybdate is emerging as possible alternative additive for sodium dichromate in the electrolytic production of sodium chlorate to reduce environmental impact without hampering performance in maintaining high current efficiency. Increasing use of sodium molybdate for aforementioned applications is a growth factor for sodium molybdate consumption in near future. Global Sodium molybdate market can be segmented on the basis application, product type, and region. Applications of sodium molybdate has a wide span, due to low toxicity it is used in wide array of applications such as in inks, dyes and pigments, fertilizers, ingredients in food and water treatment agents. It is also used in pharmaceutical industry as an analytical reagent. On the basis of prominent applications, global sodium molybdate market can be segmented as: • Water treatment • Fertilizer • Pigments & dye • Corrosion inhibition • Others Ammonium Molybdate Ammonium Molybdate is an odorless crystalline compound ranging in color from white to yellow-green. Ammonium Molybdate also called molybdic acid hex ammonium, salt tetrahydrate, ammonium molybdate tetrahydrate, and ammonium heptamolybdate tetrahydrate. Molybdate is an odorless compound containing molybdenum and oxygen ions. Ammonium molybdate is an organic compound, which is manufactured by reacting molybdenum trioxide in the presence of excess ammonia. The compound is available in different physical forms: solid powder, liquid, crystals, and chunks. Uses: • As an analytical reagent • Presence of phosphates, silicates, • Arsenates and lead in pigments • In the production of molybdenum metal • In the preparation of dehydrogenation • In the fixing of metals • In electroplating • In fertilizers for crops. The compound is also used as a catalyst in production of polymers and other commercial chemical processes. Ammonium molybdate is also applied as an intermediate in some industries. Due to bright color of molybdate, the compound is employed in paints, inks, and as an indicator & reagent in different colorimetric chemical experiments. Ammonium molybdate is employed as an analgesic in the medical industry. It is employed as a source of molybdate ion for the production of molybdenum metals and ceramics. Ammonium molybdate is manufactured in different grades such as reagent & technical grade, laboratory grade, food & pharmaceutical grade, and industrial grade. These grades are utilized in different industries. Based on region, the ammonium molybdate market can be divided into Asia Pacific, Europe, Middle East & Africa, North America, and Latin America. The global Ammonium Molybdate Market industry has experienced an astonishing change structure-wise such as enhancements in technology, increasing raw material costs, manufacturing base been channeled to Asian countries, novel promising growth markets, etc. The global ammonium molybdate market can be segmented based on product type, application, end- use industry, and region. In terms of product type, the ammonium molybdate market can be segmented into ammonium orthomolybdate, ammonium molybdate tetrahydrate, ammonium octamolybdate, and others. Ammonium molybdate tetrahydrate is also known as ammonium heptamolybdate. It is manufactured by liberating ammonium upon heating ammonium orthomolybdate. In terms of application, the market can be divided into analytical reagent, fertilizers & micronutrient, catalyst, metals & ceramic, electroplating, corrosion inhibitor, pigment, and others. Ammonium molybdate is used in end-use industries such as chemical manufacturing, molybdate products, life science, research & laboratories, and others. Demand for ammonium molybdate is expected to be higher in the chemical manufacturing segment in the next few years. Increasing cost of raw materials and toxicity of ammonium molybdate are estimated to restrain the ammonium molybdate market. The compound is harmful for eyes, skin, kidneys, blood, and respiratory tract if swallowed or inhaled. Asia Pacific is estimated dominate the market in the near future. Industrial and economic growth in the region, and increase manufacturing capacities are boosting the ammonium molybdate market in Asia Pacific, particularly in China, Japan, and India. The ammonium molybdate market is anticipated to expand at a rapid pace in North America. Tags Sodium Molybdate, Molybdenum Compounds, Sodium Molybdate Food Grade, Molybdate Manufacturing Company, Sodium Molybdate Production, Sodium Molybdate Dihydrate Production, Sodium Molybdate Production Process, Sodium Molybdate Dihydrate (Smc), Manufacture Process for Ammonium Molybdate and Sodium Molybdate, Ammonium Molybdate, Chemical Compound, Sodium Molybdate (Na2moo4), Sodium Molybdate Solution, Molybdenum Industry, Sodium Molybdate (Vi), Preparation of Ammonium Molybdate Solution, Ammonium Orthomolybdate, Ammonium Heptamolybdate, Process for Producing Ammonium Molybdate, Ammonium Molybdate Production Technology, Ammonium Molybdate Production, Method for Producing Ammonium Heptamolybdate, Ammonium Molybdate(Vi), Ammonium Molybdate Solution Formula, Ammonium Molybdate Uses, Production of Ammonium Molybdate, Ammonium Molybdate, Preparation of Industrial Ammonium Molybdate, Ammonium Molybdate Solution, Ammonium Molybdate Manufacture, Ammonium Molybdate Production project ideas, Projects on Small Scale Industries, Small scale industries projects ideas, Project Report on Ammonium Molybdate Production Industry, Detailed Project Report on Sodium Molybdate Production, Project Report on Sodium Molybdate Production, Pre-Investment Feasibility Study on Sodium Molybdate Production, Techno-Economic feasibility study on Ammonium Molybdate Production, Feasibility report on Ammonium Molybdate Production, Free Project Profile on Sodium Molybdate Production, Project profile on Sodium Molybdate Production, Download free project profile on Ammonium Molybdate Production
Plant capacity: -Plant & machinery: -
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Return: 1.00%Break even: N/A
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Production of DL Tartaric Acid and Its Salts for Textile Industry

DL Tartaric Acid is a colorless and semi-transparent or white powder, with a sour taste. It is widely used in many fields such as foodstuff, medicine, the chemical and light industries etc., and is mainly used to make tartrates (tartaric acid salts), like antimony potassium tartrate, and potassium sodium tartrate. It can be used as a beer vesicant, foodstuff sourness agent, and flavoring etc. Its sourness is 1.3 times of that of citric acid, and it is especially suitable to be a sourness agent of grape juice. It is also very important for the tannage, photograph, glass, enamel and telecommunication equipment industries. Tartaric Acid is a white crystalline dicarboxylic acid found in many plants, particularly tamarinds and grapes. Tartaric acid is used to generate carbon dioxide through interaction with sodium bicarbonate following oral administration. Carbon dioxide extends the stomach and provides a negative contrast medium during double contrast radiography. Tartaric acid is an organic acid naturally found in fruits including grapes and tamarind. It is a principal ingredient in wine and provides it with the characteristic tart taste. Tartaric acid is primarily manufactured from natural raw materials; however, it can also be manufactured synthetically from maleic anhydride. Tartaric acid finds applications in the wine, food & beverages, construction, pharmaceutical, chemical, leather tanning, and metal finishing industries. It is used as an acidulant, pH control, and flavorant in wine. Tartaric acid is also used as an anti-microbial agent, anti-caking agent in bakery items and flavorant for fruit juices in the food & beverages industry. In the pharmaceutical industry, it is used as an excipient for drugs with poor solubility at higher pH levels. Tartaric acid is used as an anti-set agent in cement formulations in the construction industry. DL tartaric acid is very useful in many applications, • Tartaric Acid is widely used as antioxidant and acidity regulator in food production. As antioxidant: in canned food to maintain flavor and appearance. As acidity regulator: in canned food and confectionery to improve flavor. • Beverage Dl Tartaric Acid is widely used as antioxidant and acidity regulator in beverage. As acidity regulator: in soft drink to improve flavor. • Pharmaceutical Dl Tartaric Acid is widely used as intermediate in Pharmaceutical. As intermediate: in medicine manufacturing. • Cosmetics • Agriculture/Animal Feed • Other Industries Dl Tartaric Acid is widely used as antioxidant in various other industries. As antioxidant: in leather processing to soften leather. Tartaric acid is used in silvering mirrors, tanning leather, and in the making of Rochelle salt, which is sometimes used as a laxative. Salts of Tartaric Salts of tartaric acid are known as tartrates. It is a dihydroxyl derivative of succinic acid. 1. (R*, R*)-(+-)-2,3-dihydroxybutanedioic acid, Monoammonium Monosodium Salt 2. Aluminium Tartrate 3. Ammonium Tartrate 4. Calcium Tartrate 5. Calcium Tartrate Tetrahydrate 6. Mn (III) Tartrate 7. Potassium Tartrate 8. Seignette Salt 9. Sodium Ammonium Tartrate 10. Sodium Potassium Tartrate 11. Sodium Tartrate 12. Stannous Tartrate 13. Tartaric Acid 14. Tartaric Acid, ((R*, R*)-(+-))-isomer 15. Tartaric Acid, (R*, S*)-isomer 16. Tartaric Acid, (R-(R*, R*))-isomer 17. Tartaric Acid, (S-(R*, R*))-isomer 18. Tartaric Acid, Ammonium Sodium Salt, (1:1:1) Salt, (R*, R*)-(+-)-isomer 19. Tartaric Acid, Calcium Salt, (R-R*, R*)-isomer 20. Tartaric Acid, Monoammonium Salt, (R-(R*, R*))-isomer India Tartaric Acid Market is projected to grow at a robust CAGR due to increasing use of tartaric acid as a preservative in packaged foods coupled with growing use across various end-user industries, such as food & beverages, pharmaceuticals as it acts as an emulsifier and chelating agent. Moreover, the rising adoption of tartaric acid in antacids will drive the growth of the market further. Based on the type of tartaric acid, synthetic segment is expected to hold the largest market share in the forecast period as tartaric acid produced in the country is chemically synthesised. Based on the application, food & beverage is expected to lead the market in the next five years owing to the widespread applications of tartaric acid as emulsifier and preservative in packaged foods, bakery items, soft-drinks etc. The tartaric acid market is expected to record a moderate CAGR between 2018 and 2023. Increasing demand from the wine industry in the Asia-Pacific and Latin American regions, coupled with the growing demand for packaged food, is expected to drive the market during the forecast period. The market is primarily driven by the diverse uses of tartaric acid in the food & beverage industry. Owing to the changing lifestyles, the growing demand for packaged food in developing economies around the world is expected to boost market growth during the forecast period. Tartaric acid is widely used in the pharmaceutical segment. This is owing to its characteristic property of enhancing the taste of medicine, making it the material of choice for use in the pharmaceutical industry. Tartaric acid and its derivatives are widely used in making effervescent salts, which are formed when combined with citrates. The pharmaceutical industry is expected to be the one of the fastest growing segments by end-user industry in the global tartaric acid market due to the rise in medicine demand globally. The natural tartaric acid segment is projected to be the fastest-growing during the forecast period, due to its high usage in applications such food & beverages, especially in the wine industry, resulting in an exponential increase in the consumption and production. Tartaric acid is mostly used in the wine industry due to the major role it plays in maintaining the chemical stability of the wine, controlling the acidity of wine and its color, and finally in influencing the taste of the finished wine. Tartaric acid is widely used in the pharmaceutical segment. This is owing to its characteristic property of enhancing the taste of medicine, making it the material of choice for use in the pharmaceutical industry. Tartaric acid and its derivatives are widely used in making effervescent salts, which are formed when combined with citrates. The pharmaceutical industry is expected to be the one of the fastest growing segments by end-user industry in the global tartaric acid market due to the rise in medicine demand globally. The natural tartaric acid segment is projected to be the fastest-growing during the forecast period, due to its high usage in applications such food & beverages, especially in the wine industry, resulting in an exponential increase in the consumption and production. Tartaric acid is mostly used in the wine industry due to the major role it plays in maintaining the chemical stability of the wine, controlling the acidity of wine and its color, and finally in influencing the taste of the finished wine. Tartaric acid is widely used in the pharmaceutical segment. This is owing to its characteristic property of enhancing the taste of medicine, making it the material of choice for use in the pharmaceutical industry. Tartaric acid and its derivatives are widely used in making effervescent salts, which are formed when combined with citrates. The pharmaceutical industry is expected to be the one of the fastest growing segments by end-user industry in the global tartaric acid market due to the rise in medicine demand globally. The natural tartaric acid segment is projected to be the fastest-growing during the forecast period, due to its high usage in applications such food & beverages, especially in the wine industry, resulting in an exponential increase in the consumption and production. Tartaric acid is mostly used in the wine industry due to the major role it plays in maintaining the chemical stability of the wine, controlling the acidity of wine and its color, and finally in influencing the taste of the finished wine. Tags Process for Producing DL-Tartaric Acid, DL-Tartaric Acid, Tartaric Acid, Process for Manufacture of Tartaric Acid, uses of Dl Tartaric Acid, Tartaric Acid Manufacture, Production of DL-Tartaric Acid, Inorganic Chemical, Chemical Company, Tartaric Acid Formula, Tartaric Acid Production Plant, Natural Tartaric Acid, Chemical Compound, Tartaric Acid Uses, Preparation of Tartaric Acid, Method of Preparing Tartaric Acid, Tartaric Acid Chemical, Tartaric Acid In Wine, Dl-Tartaric Acid Calcium Salt, Dl Tartaric Acid and its Salts, Salts of tartaric acid, tartrates, DL Tartaric Acid and Its Salts for Textile Industry, Project Report on Tartaric Acid Production Industry, Detailed Project Report on DL Tartaric Acid Production, Project Report on Tartaric Acid Production, Pre-Investment Feasibility Study on Tartaric Acid Production, Techno-Economic feasibility study on Tartaric Acid Production, Feasibility report on DL Tartaric Acid Production, Free Project Profile on Tartaric Acid Production, Project profile on DL Tartaric Acid Production, Download free project profile on DL Tartaric Acid Production
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Return: 1.00%Break even: N/A
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Production of Stable Bleaching Powder

Production of Stable Bleaching Powder. Investment Opportunities in Chemical Industry Stable Bleaching Powder (Calcium Hypochlorite) is a widely used chemical. It decomposes on contact with water, releasing chlorine at the point of application. This makes it a strongoxidising, bleaching and disinfecting agent. Bleaching powder is basically a bleaching agent. It finds application as a bleaching agent in Textile Mills, Hand Looms and Power Looms, Hosiery, Laundry, Paper, Soap and Silicate manufacturing and as oxidizing agent in organic synthesis. It is not for Medicinal Use. Applications and Uses: • Disinfecting and deodorizing in food processing, beverage and sugar industries. • For finishing and extra sheen in the carpet industry. • Effluent control in wastes containing cyanide. • Bleaching of cotton yarn, cotton cloth and hemp in textile Industry. • Bleaching, stain removal & disinfection of cotton clothing in laundries, hospitals & homes. • Disinfection in water treatment & sewage disposal. • Controlling of mosquitoes through eradication of mosquito larvae in drains, gutters, ponds etc. • Disinfection, de-odorizing and bleaching of residential premises, swimming pools, public conveniences etc. • Disinfection for preservation of vegetables & fruits • Stable bleaching powder is used to disinfect ponds or seawater where shrimps and prawns are grown. In addition, it is used as a disinfectant and deodorizing agent to reduce the Biological Oxygen Demand (BOD) concentration in water. • Stable bleaching powder is used to sterilize linen and remove stains. • Stable bleaching powder is used to bleach pulp and straw. • Stable bleaching powder finds wide use in the textile industry as a bleaching agent for cotton yarn and cloth. • SBP is used as a disinfectant and deodorising agent to reduce the BOD concentration and control cyanides in water. It is also used in swimming pools as a disinfectant and cleaning agent, apart from controlling algae. It is used in a variety of applications, the most important being as disinfectants and cleaners. Calcium hypochlorite is extensively used as a chlorine compound, which is highly effective against several microorganisms such as algae, bacteria, fungi, slime and other harmful and objectionable microorganisms which exist in the environment. Accordingly the quantity of textile finishing agents imported and the share of bleaching powder in the past seven years. There are six units manufacturing bleaching powder in Madhya Pradesh with a combined production capacity of 14,000 metric tonnes per annum. Calcium hypochlorite is one of the most widely used bleaching, sanitation and disinfecting agent in the world. It is an integral component of bleaching powder which also includes calcium chloride and slaked lime. Calcium hypochlorite is the second most used chemical type in the hypochlorite market, sodium hypochlorite being the most used type. However calcium hypochlorite has more available chlorine and is relatively more stable than liquid bleach. The global calcium hypochlorite market was valued at around US$ 5 Bn in 2016 and is anticipated to expand at a CAGR of more than 3% from 2018 to 2026. Expansion in the global calcium hypochlorite market is driven by the rise in demand for fresh water and increase in demand for calcium hypochlorite in pulp & paper applications. The calcium hypochlorite market in Asia Pacific is anticipated to expand at a CAGR of around 4% during the forecast period. Rapid urbanization in developing economies such as China and India is estimated to propel the calcium hypochlorite market in the region. Tags Stable Bleaching Powder, Calcium Hypochlorite, Bleaching Powder, Stable Bleaching Powder Manufacture, Stable Bleaching Powder Manufacturing Process, Chemical, Calcium Hypochlorite Manufacture, Stable Grade Bleaching Powder Plant, Bleaching Powder Production, Chemical Processing Plant, Small-Scale Manufacture of Bleaching Powder, Process for Production of Bleaching Powder, How to Manufacture Bleaching Powder? Bleaching Powder Manufacturing Plant, Profile on Bleaching Powder, Bleaching Powder Manufacturing Process Pdf, Bleaching Powder Manufacturing Plant Cost, Chlorine Plant, Flow Diagram of Bleaching Powder Manufacturing, Process of Manufacture of Bleaching Powder, Bleaching Powder Making Process, Bleaching Plant, Start a Bleaching Powder Making Plant, Bleaching Powder Stable, Stable Bleaching Powder Formula, Preparation, Properties & Uses of Bleaching Powder, Formation of Bleaching Powder, Stable Bleaching Powder(Calcium hypochlorite), Stable Bleaching Powder, Textile, Dyeing & Finishing Chemical, Project Report on Bleaching Powder Production Industry, Detailed Project Report on Bleaching Powder Production, Project Report on Bleaching Powder Production, Pre-Investment Feasibility Study on Stable Bleaching Powder Manufacturing, Techno-Economic feasibility study on Bleaching Powder Production, Feasibility report on Bleaching Powder Production, Free Project Profile on Stable Bleaching Powder Manufacturing, Project profile on Stable Bleaching Powder Manufacturing, Download free project profile on Bleaching Powder Production
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Return: 1.00%Break even: N/A
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Production of Titanium Dioxide (TiO2)

Production of Titanium Dioxide (TiO2). Highly Profitable Chemical Business Ideas Titanium dioxide (TiO2) is a naturally occurring mineral that is mined from the earth, processed and refined, and added to a variety of foods, as well as other consumer products. White in color, it is used to enhance the color and sheen of certain foods and is also key for food safety applications. In its natural state it exists in different bulk crystalline forms, such as anatase and rutile, but during processing it is ground into a very fine powder. It is naturally opaque and bright, which makes it useful for use in paper, ceramics, rubber, textiles, paints and cosmetics. It is also UV-resistant, and is used widely in sunscreens and pigments that are likely to be exposed to light. It is used in a wide variety of personal care products, including color cosmetics such as eye shadow and blush, loose and pressed powders and in sunscreens. Uses & Benefits: The main use of titanium dioxide (TiO2) is as a white powder pigment because of its brightness and very high refractive index. This means that relatively low levels of the pigment are required to achieve a white opaque coating. Pure titanium dioxide is a fine, white powder that provides a bright, white pigment. Titanium dioxide has been used for a century in a range of industrial and consumer products, including paints, coatings, adhesives, paper, plastics and rubber, printing inks, coated fabrics and textiles, as well as ceramics, floor coverings, roofing materials, cosmetics, toothpaste, soap, water treatment agents, pharmaceuticals, food colorants, automotive products, sunscreen and catalysts. Titanium dioxide is produced in two main forms. The primary form, comprising over 98 percent of total production, is pigment grade titanium dioxide. The pigmentary form makes use of titanium dioxide’s excellent light-scattering properties in applications that require white opacity and brightness. The other form in which titanium dioxide is produced is as an ultrafine (nanomaterial) product. This form is selected when different properties, such as transparency and maximum ultraviolet light absorption, are required, such as in cosmetic sunscreens. In the pharmaceutical industry, titanium dioxide is used in most sunscreens to block UVA and UVB rays, similar to zinc oxide. It is also commonly used as pigment for pharmaceutical products such as gelatin capsules, tablet coatings and syrups. In the cosmetics industry, it is used in toothpaste, lipsticks, creams, ointments and powders. It can be used as an opacifier to make pigments opaque. Titanium dioxide is seeing growing demand in photocatalysts due to its oxidative and hydrolysis properties. As a photocatalyst, it can improve the efficiency of electrolytically splitting water into hydrogen and oxygen, and it can produce electricity in nanoparticle form. Applications include light-emitting diodes, liquid crystal displays (LCDs) and electrodes for plasma displays. Titanium dioxide (TiO2) is derived from ilmenite a mineral found in the metamorphic, plutonic igneous rocks and beach sands in India. It can be classified into anatase, rutile and brokite, of which only anatase and rutile are commercially important. TiO2 is consumed across paints, plastics, paper and many other end use segments. The titanium Di-oxide market in India is projected to exhibit a CAGR of 3.98% during 2016-2025, owing to broad growing applications of titanium Di-oxide in paints, rubbers, plastics, textiles, cosmetics, pare & printings, etc. Titanium is the ninth most commonly found element in the earth's crust and is chemically inert in nature. Titanium Di-oxide is an oxide of titanium metal, which occurs naturally in several types of mineral sands and rocks. Minerals, metals and chemicals manufacturing industries majorly produce titanium Di-oxide in two grades namely, Rutile Grade and Anatase Grade titanium Di-oxide, owing toit's high refractive index, hiding power & opacity, low specific gravity and UV protecting properties. Thereby, boosting consumption of titanium Di-oxideacross various downstream industries such as paints, paper, rubber, textiles cosmetics etc. Furthermore, increasing awareness among consumers regarding the physical and chemical properties of titanium Di-oxide is further projected to drive India titanium Di-oxide market in the coming years. "Paints and varnishes manufacturing industry is the leading consumer of titanium dioxide in India. Paints is one of the mostly used building materials in constructions, furniture, automotive and other industries. Strong growth in construction and automotive industries in India is the major factor propeling demand for titanium dioxide pigments in paints and coatings production industry. Over the past few years, India paint market grew at a rate of around 15% and is expected to grow at the same pace in the coming years as well. The global titanium dioxide (TiO2) market size was valued at USD 13.3 billion in 2015. The market is expected to witness growth at a CAGR of over 8.9% from 2016 to 2025, owing to increasing demand from end-user industries. Usage of the product as pigments in paints & coatings formulation is expected to fuel industry growth over the next few years. The major growth drivers for this market are growing demand for titanium dioxide in end use industries like coatings, plastics and others. Technological innovations aimed at improving manufacturing processes to increase product yield with higher quality is expected to have a positive impact on the titanium dioxide pigment market. Within the global titanium dioxide market, the coatings segment is expected to remain the largest market. Increasing demand for architectural and industrial coatings in the developing countries of Asia Pacific, particularly China and India, has presented sound opportunities for titanium dioxide in the coatings industry, which would spur growth for this segment over the forecast period. Based on grade type, the global titanium dioxide market has been segmented into rutile and anatase. The anatase grade type segment is projected to grow at the highest CAGR from 2016 to 2021. Anatase grade titanium dioxide is preferred in the manufacturing of paper, as it is less abrasive to the papermaking machinery. The market for anatase segment is also expected to witness high growth owing to the increasing demand for the anatase grade of titanium dioxide in the paints & coatings application from the construction industry. Global titanium dioxide market is mainly driven by increasing demand for lightweight vehicles in the automobile industry especially in the developed countries like US, Germany and France. Rising demand for lightweight automobiles is expected to play a vital role in growth of global titanium dioxide market. Materials such as polycarbonates are used in manufacturing of lightweight automotive which have low scratch resistance value. Also, the product is used in various industries such as chemical intermediates, fiber, technical titanium, inks for printer and rubber. Paper industry is the third largest user of titanium dioxide and contributed 10.4% in terms of revenue globally. Titanium dioxide is used in manufacturing of decorative papers, these are used in manufacturing of flooring, furniture and wallpapers. Demand for high end furniture is increasing which is expected to boost the demand for titanium dioxide. The paper industry is expected to contribute about 10.4% during the forecast period. The Chloride Process: There are two main stages: a) The conversion of rutile to titanium (IV) chloride b) The oxidation of titanium (IV) chloride (a) The conversion of rutile to titanium (IV) chloride The rutile is fed into a heated bed together with a source of carbon, usually coke. Chlorine is fed into the bed and the reaction takes place to form titanium (IV) chloride in the vapour form which is removed from the bed. Iron and other metals in the ore are chlorinated and also leave the bed in the vapour state. The oxygen in the ores is combined with the carbon to form carbon monoxide and dioxide. The vapour stream is cooled and the metal chlorides other than titanium (IV) chloride are condensed and solidified. The titanium (IV) chloride vapour, which contains almost pure titanium (IV) chloride and has a lower boiling point, is then condensed and stored as liquid. It is then reboiled and distilled to give a purer product to feed to the next stage. (b) The oxidation of titanium (IV) chloride Liquid titanium (IV) chloride is vaporized and burnt in oxygen, together with a hydrocarbon fuel source (for example, methane) to a high temperature to initiate the reaction and keep the temperature high enough for the reaction to proceed: The titanium dioxide is formed (by adding seed crystals) as a fine solid in the gas stream and is filtered out of the waste gases using cyclones or filters. Once again control of crystal growth is important to give particles of the correct size for pigments. This is done by adding nucleating agents to the gas stream (e.g. water or Aluminium chloride) and by cooling the products. The chlorine in titanium (IV) chloride is released and recycled to the chlorination stage of the process above. The product contains small amounts of absorbed chlorine gas which are removed. The product is washed and dried before milling and surface treatment in an identical manner to that used in the Sulfate Process described. Tags Titanium Dioxide (Tio2) Production and Manufacturing Process, Manufacture of Titanium Dioxide, Titanium Dioxide, Tio2, Essential Chemical Industry, Manufacture of Titanium Dioxide, Production of Titanium Dioxide, Commercial Process for Producing Titanium Dioxide, Manufacturing Process of Titanium Dioxide, Process for Production of Titanium Dioxide, Titanium Dioxide Manufacturing Process Pdf, Titanium Dioxide Production Chloride Process, Titanium Dioxide Process Flow Diagram, Titanium Dioxide Properties, Process for Manufacturing Titanium Dioxide, Titanium Dioxide-Tio2, Chloride Process for Titanium Dioxide, Process for Producing Titanium Dioxide, Titanium Dioxide & Titanium, Titanium Dioxide Production, Titanium Dioxide Manufacture, Titanium Dioxide Processing, Preparation of Titanium Dioxide (Tio2), Titanium Dioxide Industry, Titanium Dioxide Manufacturing Plant, Titanium Dioxide (Tio2) Industry in India, Chemical Business, Titanium Dioxide Production Business, Titanium Dioxide Plant, Project Report on Titanium Dioxide Manufacturing Industry, Detailed Project Report on Titanium Dioxide Manufacturing, Project Report on Titanium Dioxide (Tio2) Production, Pre-Investment Feasibility Study on Titanium Dioxide (Tio2) Production, Techno-Economic feasibility study on Titanium Dioxide (Tio2) Production, Feasibility report on Titanium Dioxide (Tio2) Production, Free Project Profile on Titanium Dioxide (Tio2) Production, Project profile on Titanium Dioxide (Tio2) Production, Download free project profile on Titanium Dioxide (Tio2) Production, Titanium Dioxide (Chloride Process), Chloride Process, Chloride Process for Titanium Dioxide
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Return: 1.00%Break even: N/A
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Aluminium Hydroxide IP

Aluminium hydroxide, Al (OH)3, is found in nature as the mineral gibbsite (also known as hydrargillite) and its three much rarer polymorphs: bayerite, doyleite, and nordstrandite. Aluminium hydroxide is amphoteric in nature, i.e., it has both basic and acidic properties. Closely related are aluminium oxide hydroxide, AlO (OH), and aluminium oxide or alumina (Al2O3), the latter of which is also amphoteric. These compounds together are the major components of the aluminium ore bauxite. The global aluminum hydroxide market is expected to witness a CAGR of approximately 4.6% during the forecasted period. The major factor driving the market is the rapid increase in demand for aluminum compounds and the increasing usage in polymer applications, as fire retardants.
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