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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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Gold Salt

Gold salts are ionic chemical compounds of gold. The term, "gold salts" is a misnomer, and is the term for the gold compounds used in medicine. "Chrysotherapy" and "aurotherapy" are the applications of gold compounds to medicine. Contemporary research on the effect of gold salts treatment began in 1935, primarily to reduce inflammation and to slow disease progression in patients with rheumatoid arthritis. The use of gold compounds has decreased since the 1980s because of numerous side effects and monitoring requirements, limited efficacy, and very slow onset of action. Most chemical compounds of gold, including some of the drugs discussed below, are not salts, but are examples of metal thiolate complexes. The use of injected gold salts is indicated for rheumatoid arthritis. Its uses have diminished with the advent of newer compounds such as methotrexate and because of numerous side effects. The efficacy of orally administered gold is more limited than injecting the gold compounds.
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Assaying Gold

Gold assaying is essential in determining the amount of gold in a mineral deposit. There are various gold assaying processes used today, each specific gold assay choice will depend on the type of gold item being checked for purity. Because purity is essential for gold coin or gold bullion bar values, assaying gold contents is therefore critical. The main reason for assaying gold bullion products is to make sure they meet the standards claimed by their respective issuing mint, meeting the minimum purity requirement for a particular gold coin or gold bar stamping.
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Soda Ash (Light & Soda Ash Dense) Production

Soda Ash (Light & Soda Ash Dense) Production. Sodium Carbonate Manufacturing Industry The market of Soda Ash in India is anticipated to cross $2.8 billion by the end of 2025. Soda ash also known as sodium carbonate is an alkali chemical refined from trona ore. It is an odorless powder which is not toxic, flammable, and explosive. Soda ash is available in three different grades namely dense soda ash, light soda ash, and washing soda. Dense soda ash is an anhydrous substance mostly used in the manufacturing of industrial chemicals. Light soda ash is used as pH regulator in various industrial processes. Washing soda is an anhydrous substance that is produced combining light soda with additional molecules of water and used in soaps and washing detergents to improve their cleaning properties. Sodium carbonate is used in the production of high performance powder detergents for laundry and dish washing. Sodium carbonate is a very efficient source of alkalinity reserve and plays an important role in water softening. As a result it has been approved by many detergent producers in nil-phosphate containing formulations. It may also be used for the direct soaking of clothes, dishwashing, floor washing and for degreasing operations. Applications of Soda Ash: • Detergent Manufacture – Soda ash is replacing phosphates that were earlier being used in a number of household detergents. Many other cleaning products such as dishwashing soaps also contain varying amounts of soda ash in their formulations. • Glass Manufacture - In the production of glass, glass containers, fiberglass insulation, and many others, soda ash is needed especially because it reduces the melting point of silica. • It can help in removing stains, alcohol, and grease on clothes – also in coffee pots and espresso makers. • It can increase the alkaline level in swimming pools which can help in maintaining the PH Levels to balance the water. • It can also be used for dying clothes. • It can effectively clean the air. • It can soften water. • It can be used as fertilizers • Our Sodium Carbonate or soda ash is used in food industry as acidity regulator, raising agent and stabilizer. • It widely used in Soap, detergent, glass, paper and rayon industries. • It is used in brick industries as wetting agent. Dense Soda Ash Dense soda ash is a premium quality product that combines a consistently high sodium carbonate content with very low impurity levels of chlorides and iron. Dense soda ash is guaranteed to be 99.2% pure, but has a typical purity level of 99.8%, resulting in more products when compared to a lower assay soda ash. Market Outlook The Global Soda Ash Market is expected to witness a significant growth of ~23.1 billion by 2022 with CAGR of ~4.9% between 2016 to 2022. Soda ash has found numerous application such as water softening in laundering, food additive, foaming agent in toothpaste, stain remover and many other. Increasing demand for building and construction activities is likely to drive the soda ash market growth. The growing glass industry on account of developing domestic as well as commercial buildings particularly in Asia-Pacific and Middle East has boosted the global soda ash market over the forecasted period. Soda Ash has ability to control Ph value in water and make it softer has opened its paths in water treatment applications. Market also witnessed significant growth of natural soda ash sue to its low-cost benefits. Stringent regulations from developed regions like Europe regarding production of synthetic soda ash through chemical process has fueled the demand for natural soda ash. The soda ash market is majorly driven by the growing demand for end-user industries. Soda ash is used in manufacturing of flat glass which are used in building & construction activities. Growing demand for soda ash for building and construction is expected to drive the market growth. Growing demand for glass from the end user industry such as automotive is expected to boost the market growth over the forecast period. Lenient regulations for synthetic soda in the Asia Pacific is anticipated to drive the market growth over the forecast period in the region. The growth in the end-user industries of Soda Ash and its expanding application base is foreseen to be the major driver boosting the growth of the market during the forecast period. The market is witnessing an exponential demand from the Glass industry, particularly from the container and flat glass sectors. Also, the rising demand for soda ash in soaps & detergents industry, especially in the developing regions is expected to strengthen the market further. The increasing demand for natural soda ash due to its low cost benefits will also contribute to the growth of the market. Growth in the household detergents market in Europe is likely to drive the soda ash market in the near future. Additionally, increasing demand for soda ash in the construction & building materials industry coupled with rising number of water treatment projects is anticipated to fuel the demand for soda ash during the forecast period. However, competition from substitute products such as caustic soda and sodium silicate may act as a restraining factor in the expansion of the sodium silicate market. Rising necessity of Enhanced Oil Recovery (EOR) in regions such as Europe due to energy conservation policies, high fuel prices, and technological development may open avenues for the growth of the soda ash market in the near future. Dense soda ash, light soda ash, and baking soda are the three primary grades of soda ash available in the market with similar chemical characteristics but varying physical traits. Light soda is a fundamental alkali chemical used for aluminum cleaning, dying, and water softening. Dense soda ash is used in glass manufacturing including flat glass, container glass, plate glass, automotive glass, and curtain wall glass. Major leaders of the world Soda Ash market are: Tata Chemicals Ltd, Searles Valley Minerals, Gujarat Heavy Chemicals Ltd, Solvay Chemicals Inc, Soda Sanayii A.S, FMC Corporation, Oriental Chemical Industries, CIECH Soda Romania, Nirma Limited, DCW Limited India Soda Ash Market The market of soda ash in India is anticipated to cross $2.8 billion by the end of 2025. Growing demand for soda ash from numerous industries such as glass, soap & detergents, pulp & paper, etc., is expected to drive the India soda ash market during 2016 – 2025. Moreover, growing applications in construction and chemical industries is further anticipated to positively influence the India soda ash market during forecast period. Increasing rate of modernization and improving living standards of consumers are positively influencing the demand for soda ash from the country’s glass industry. Moreover, electronic goods like smartphones, LCDs, laptops, are also being manufactured at a rapid pace in India, which, in turn, is aiding the country’s glass industry, thereby driving the India soda ash market. Tags #Soda_Ash, #Manufacturing_of_Sodium_Carbonate, #Soda_Ash_Manufacturing_and_Process_Flow_Diagram, Sodium Carbonate, Sodium Carbonate Manufacturing, #Manufacture_of_Soda_Ash, Soda Ash Production, Preparation of Sodium Carbonate, Soda Ash Formula, #Production_of_Soda_Ash, Soda Ash Production Business, Soda Ash Manufacture, Manufacture of Soda Ash Light, Soda Ash Dense, #Soda_Ash_Light_and_Dense, Soda Ash Manufacture in India, Producing Soda Ash, Soda Ash Plant, Soda Ash Production Plant, Washing Soda, How to Make Washing Soda, What is the Process for Manufacturing Soda Ash? Production and Applications of Soda Ash, Soda Ash Powder Production Unit, Soda Ash Manufacturing Industry, Dense Soda Ash, Light Soda Ash, #Production_of_Dense_Soda_Ash, #Soda_Ash_Industry, Soda Ash Manufacturing Plant, Soda Ash Light, Washing Soda Production, #Detailed_Project_Report_on_Soda_Ash_Production, Project Report on Soda Ash Production, Pre-Investment Feasibility Study on Soda Ash Manufacturing Industry, Techno-Economic feasibility study on Soda Ash Manufacturing Industry, #Feasibility_report_on_Soda_Ash_Manufacturing_Industry, Free Project Profile on Soda Ash Manufacturing Industry, Project profile on Soda Ash Production, Download free project profile on Soda Ash Production
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Acrylic Acid Production from Propylene

Acrylic Acid Production from Propylene. Business Ideas & Opportunities in Petrochemicals Sector Acrylic acid (2-propenoic acid) is a highly reactive carboxylic acid that can react with itself to form polyacrylic acid, which is used as an absorbent in hygiene products. It also can react with alcohols to form acrylates (esters) that are used in a wide range of polymers. However, polymers commonly called acrylic (Plexiglas, textiles, etc.) contain acrylate monomers but are often produced from chemicals other than acrylic acid. Applications • Chemical compounding • Chemical intermediate • Detergent • Industrial water treatment Uses Acrylic acid is used in the manufacture of plastics, in latex applications, in floor polish, in polymer solutions for coatings applications, emulsion polymers, paint formulations, leather finishing’s, and paper coatings. Acrylic acid is also used as a chemical intermediate. One of the main applications is in the manufacture of superabsorbent polymers that can soak up large amounts of liquid and are used mainly in diapers and other hygiene products. The primary use of acrylic acid is in the production of acrylic esters and resins, which are used primarily in coatings and adhesives. It is also used in oil treatment chemicals, detergent intermediates, water treatment chemicals, and water absorbent polyacrylic acid polymers. Acrylic acid is used widely for polymerization, including production of polyacrylates. It is a monomer for polyacrylic and polymethacrylic acids and other acrylic polymers. It is used in the manufacture of plastics, as a tackifier, as a flocculant, in the production of water-soluble resins and salts, as a comonomer in acrylic emulsion and solution polymers and in molding powder for signs, construction units, decorative emblems and insignias. It is used in polymer solutions for coatings applications, in paint formulations, in leather finishings, in paper coatings, in polishes and adhesives and in general finishes and binders. Market Outlook Acrylic Acid Market size was valued at $12,584.1 million in 2015, and is expected to reach $19,509.4 million by 2022, supported by a CAGR of 6.6% during the forecast period 2016 to 2022. Acrylic Acid is a derivative of Esters and Acrylates They have a wide range of application in paper treatment, plastic additives, textiles, sealants, adhesives, and surface coatings. The prices of oil has been rising due to this manufacturers are using bio-based techniques to produce this unsaturated carboxylic acid and acrylates from renewable resources such as glycerol, sugar, etc. Growing demand in emerging markets, increasing demand from end user industries and rising demand for high strength materials are factors fuelling the market growth. However, volatile prices of the raw materials and stringent government regulations are hindering the market growth. Moreover, demand for Polymethyl methacrylate (PMMA) resins in different industries provides ample opportunities for market growth. Based on end user, personal care segment is projected to grow at a steady rate due to increasing demand for super absorbent polymers. Personal care products such as diapers and adult incontinence products are increasingly using super absorbent polymers. Global supplies of acrylic acid are likely to remain strong over the next couple of years with emerging markets posting higher demand. Acrylic acid remains a sought-after industrial material, owing to its wide-ranging properties. Acrylic acid is a specialty chemical and finds widespread application in several large-scale industrial verticals. Construction, polymer and adhesive are some of its major end-use industries, which are exhibiting healthy growth. The aforementioned factors are expected play a key role in governing the growth trends of the global acrylic acid market in the forthcoming years. Industries are developing and commercializing processes for producing it from petrochemicals. Due to the rising price of oil globally, manufacturers are using bio-based techniques to produce this unsaturated carboxylic acid and acrylates from renewable resources such as glycerol, sugar, etc. Renewable feedstock shows cost competitive outcomes as compared to petrochemical routes. Applications in Detergents, Adult Incontinence and Personal Care Products have contributed to the increased demand for acrylic acid. Major end users are diapers, surface coating, adhesives and sealants, plastic additive, water treatment, textiles and surfactants. Currently, the compound is majorly consumed in manufacturing diapers; this segment would dominate the sector through 2022. Acrylic based surfactants are used as binders that enhance the flexibility, gloss and durability of the coatings. Moreover, it increases the shelf life of paints; improve the stability of freeze-thaw and mechanical stability. These factors are driving the demand for the compound in surfactants industry. The acrylates are widely used in detergents, flocculants, thickeners and dispersants. The acrylate esters were the largest derivative that was consumed globally. They provide several desirable properties to the polymers such as color stability, resistance to heat, clarity and weather-ability, thus being used widely in the coating and adhesives industry. The personal care products such as adult incontinence and diapers are majorly using the super absorbent polymers. Hence, there is an increase in demand for the super absorbent polymers, which is positively contributing to the market growth. The acrylic acid-based products are used in the textile industry where they are used as fillers in the padded jackets. By geography, Asia Pacific is anticipated held largest market share due to rising derivatives consumption in surfactants, coatings, personal care products and adhesives. In addition, North America is expected to have considerable market share owing to increasing demand in end user industries and growing geriatric population in the U.S. and Canada. Some of the major industries operating in the acrylic acid market include BASF SE, Nippon Shokubai Co. Ltd., LG Chem Ltd., Mitsubishi Chemical Holdings Corporation, Sasol Limited, Arkema, Evonik Industries, The Dow Chemical Company, Hexion Inc., and PJSC Sibur Holding. Indian Acrylic Acid Market: Demand-Supply Gap Demand for acrylic acid is estimated to reach 260 Kilo Ton Per Annum (KTPA) by 2020. Indian acrylic acid market has a huge supply demand gap of 200 KTPA. At present, the market is entirely import dependent due to absence of local manufacturers. As a result, there is a huge potential for local manufacturers to set up manufacturing facilities within the country in order to meet the growing demand. Indian acrylic acid market is estimated to reach INR16.9 billion in 2020 from INR7.8 billion in 2012, growing at a Compounded Annual Growth Rate (CAGR) of 10.1%. Indian Source of Raw Material Propylene is the primary feedstock required for manufacturing acrylic acid. • Reliance • Indian Oil Corporation Ltd (IOCL) • HPCL-Mittal Energy Limited (HMEL) • Haldia Petrochem • Bharat Petroleum Corporation Ltd (BPCL) • Mangalore Refinery and Petrochem • GAIL • Hindustan Petroleum Corporation Ltd (HPCL) Tags #Acrylic_Acid_from_Propylene, #Acrylic_Acid_Production, #Acrylic_Acid, Process for Producing Acrylic Acid from Propylene, #Production_of_Acrylic_Acid_from_Propylene, Acrylic Acid Pdf, Acrylic Acid Preparation, Acrylic Acid Production And Manufacturing Process, Acrylic Acid Manufacture, Acrylic Acid Uses, Acrylic Acid Production Process, Process for Production of Acrylic Acid, Acrylic Acid Manufacturing Process, #Acrylic_Acid_Production_Business, Acrylic Acid Industry, Acrylic Acid Manufacturing Plant, #Manufacturing_of_Acrylic_Acid, Acrylic Acid Manufacture in India, Acrylic Acid Business, Production of Acrylic Acid in India, #Detailed_Project_Report_on_Acrylic_Acid_Production_Business, Project Report on Production of Acrylic Acid from Propylene, Pre-Investment Feasibility Study on Acrylic Acid Manufacturing Plant, Techno-Economic feasibility study on Acrylic Acid Manufacturing Plant, #Feasibility_report_on_Acrylic_Acid_Manufacturing_Plant, Free Project Profile on Production of Acrylic Acid from Propylene, #Project_profile_on_Acrylic_Acid_Production_Business, Download Free Project Profile on Acrylic Acid Manufacturing Plant, Highly Profitable Chemical Business Ideas, Small Scale Chemical Business Ideas & Opportunities, Chemical Business Opportunities, How to Start a Chemical Industry, Chemical Business Ideas for Aspiring Entrepreneurs, Industrial Chemical Manufacturing Business, Lucrative Chemical Business Ideas & Opportunities, Business Ideas for Chemical Industry, How to Start a Chemical Business? Chemical Industry, Starting a Chemical Business, Commercial Production of Chemicals, Chemical Industry Projects, Starting Your Own Chemical Business, Chemical Compound
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Maleic Anhydride Manufacturing Business

Maleic Anhydride Manufacturing Business. Commercial Production of Maleic Anhydride. Highly Profitable Chemical Business Ideas Maleic anhydride is an organic compound with the formula C2H2 (CO) 2O. It is the acid anhydride of maleic acid. Maleic anhydride is a colorless white solid which has a pungent odor. Maleic anhydride is produced by vapor-phase oxidation of n-butane and is biodegradable under aerobic conditions in sewage sludge as well as in soil and water. Maleic anhydride is a precursor to compounds, used for water treatment, detergents, insecticides and fungicides, pharmaceuticals, and other copolymers. It is also used in personal care products, and as artificial sweeteners and flavor enhancer in the food industry. Maleic anhydride is a colorless or white solid with an acrid odor. Maleic anhydride is a very versatile molecule that lends itself to many applications requiring a number of properties and functionalities. With three active sites (two carboxyl groups and one double bond), it is an excellent joining and cross linking agent. Its major end use, representing well over half of global demand, is in the manufacture of unsaturated polyester resins, where its cross-linking abilities are important. Maleic anhydride is used widely as there has been a change in the preference towards stronger and lighter fiberglass composite materials in construction, aerospace, automotive, and turbine industries. It is used in the production of gamma-butyrolactone, 1, 4-butanediol, and tetrahydrofuran. Maleic anhydride is used in the production of unsaturated polyester resin as well as in the manufacture of coatings, pharmaceutics, agricultural products, surfactants, and as an additive of plastics. A wide range of applications in lubricant, fuel oil, automotive, aerospace, turbine, and construction industries are driving the global market for Maleic Anhydride. Maleic Anhydride is the principal ingredient in unsaturated polyester resins which is used to make lighter, stronger and fiberglass, the most preferred product in various industries. Market Outlook The global maleic anhydride market size was valued at USD 2.77 billion in 2018 and is projected to expand at a CAGR of 6.7% from 2019 to 2025.Increasing demand for Unsaturated Polyester Resins (UPR) and 1,4-Butanediol (BDO) are expected to augment market growth over the forecast period. Increasing demand for maleic anhydride based unsaturated polyester from automobile and construction industries is a major factor expected to drive growth of the global maleic anhydride market over the forecast period. In addition, growing demand for maleic anhydride based 1, 4-butanediol from textile industry, is another factor expected to fuel growth of the target market during the forecast period. Rapid Industrialization and Growth in construction is driving the global Maleic Anhydride Market. The escalating growth in construction industry mainly in developing countries is expected to drive the growth of the unsaturated polyester resins. This, in turn, raises the demand for Maleic Anhydrides. This is mainly because of the use of unsaturated polyester resins in heat-resistant pipes and tanks in buildings and other structures. The increasing demand for automobiles due to rapid industrialization is also driving the global order. Asia-Pacific is leading the global Maleic Anhydride Market with a market share of approximately 40%, followed by North America. Rapid growth in building & construction and automotive industries which are the primary end users of the product and enormous growth opportunities for various sectors in this region are favoring it to lead the global market. Application-wise, the maleic anhydride market can be segmented into unsaturated polyester resin (UPR), copolymers, lubricant additives, alkenyl succinic anhydrides, malic acid, fumaric acid, and others. UPR segment, as of 2017, is dominating the market, whereas copolymers are expected to record the fastest growth rate during the forecast period. A key driver for the global maleic anhydride market is the increase in demand from developing countries. Strong contributions from developing economies such as India, China, Brazil, Mexico, and Indonesia have been contributing to the growth of the global maleic anhydride market. This has resulted in several maleic anhydride vendors shifting their manufacturing activities to these countries. In addition, factors such as easy availability of raw materials and land, low-cost labor, low transportation costs, and lenient government regulations and policies are augmenting market growth in the APAC region. Top Leading Companies are: Huntsman Corporation, Changzhou Yabang Chemical, Zibo Qixiang Tengda Chemical, Lanxess AG, Polynt Spa, Ashland Inc., Flint Hills Resources, Nippon Shokubai Co., Ltd, Mitsubishi Chemical Corporation, Bartek Ingredients Inc, China National Bluestar (Group) Co., Ltd., Thirumalai Chemicals Ltd., Other Manufacturers, Etc. Tags #Maleic_Anhydride, #Manufacture_of_Maleic_Anhydride, #Maleic_Anhydride_Manufacture, #Maleic_Anhydride_(MA)_Production_and_Manufacturing_Process, #Production_of_Maleic_Anhydride, #Commercial_Production_of_Maleic_Anhydride, Maleic Anhydride Production, #Maleic_Anhydride_Production_Process, Production Process of Maleic Anhydride, Maleic Anhydride Uses, Maleic Anhydride Manufacture, Maleic Anhydride Uses and Applications, Maleic Anhydride Manufacturing Process, #Manufacturing_Process_of_Maleic_Anhydride, Process For Preparing Maleic Anhydride, Process for Production of Maleic Anhydride, Maleic Anhydride Production Business, Maleic Anhydride Manufacturing Plant, Maleic Anhydride Process Flow Diagram, Maleic Anhydride Industry, Maleic Anhydride Manufacture in India, Maleic Anhydride Business, Start a Maleic Anhydride Manufacturing Business, Detailed Project Report on Maleic Anhydride Production, #Project_Report_on_Maleic_Anhydride_Production, Highly Profitable Chemical Business Ideas, Small Scale Chemical Business Ideas & Opportunities, Chemical Business Opportunities, How to Start a Chemical Industry, Chemical Business Ideas for Aspiring Entrepreneurs, Chemical Industry, Starting a Chemical Business, Commercial Production of Chemicals, Chemical Industry Projects, Starting Your Own Chemical Business, Chemical Compound, Industrial Chemical Manufacturing Business, Lucrative Chemical Business Ideas & Opportunities, Business Ideas for Chemical Industry, How to Start a Chemical Business? Pre-Investment Feasibility Study on Maleic Anhydride Production, Techno-Economic feasibility study on Maleic Anhydride Production, #Feasibility_report_on_Maleic_Anhydride_Production, Free Project Profile on Maleic Anhydride Production, Project profile on Maleic Anhydride Production, Download free project profile on Maleic Anhydride Production
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Ethylene Glycol Manufacturing Industry

Ethylene Glycol Manufacturing Industry. Chemical Business Ideas for Aspiring Entrepreneurs Ethylene glycol is a chemical commonly used in many commercial and industrial applications including antifreeze and coolant. Ethylene glycol helps keep car’s engine from freezing in the winter and acts as a coolant to reduce overheating in the summer. Other important uses of ethylene glycol include heat transfer fluids used as industrial coolants for gas compressors, heating, ventilating, and air-conditioning systems, and ice skating rinks. Ethylene glycol also is used as a raw material in the production of a wide range of products including polyester fibers for clothes, upholstery, carpet and pillows; fiberglass used in products such as jet skis, bathtubs, and bowling balls; and polyethylene terephthalate resin used in packaging film and bottles. Many of these products are energy saving and cost efficient as well as recyclable. In addition to its use in antifreeze, ethylene glycol is used as an ingredient in hydraulic fluids, printing inks, and paint solvents. It is also used as a reagent in making polyesters, explosives, alkyd resins, and synthetic waxes. Ethylene glycol is a synthetic liquid substance that absorbs water. It is odorless, but has a sweet taste. Ethylene glycol is used to make antifreeze and de-icing solutions for cars, airplanes, and boats. It is also used in hydraulic brake fluids and inks used in stamp pads, ballpoint pens, and print shops. Uses Ethylene glycol has been most notably used as antifreeze in heating and cooling systems. It's also been used as a de-icer for aircrafts as well as a de-icer for airport runways. Other uses or places for ethylene glycol include but are not limited to: • Within hydraulic brake fluids. • As a solvent (dissolves another substance) for paint and plastic industries. • To help make batteries • To manufacture synthetic fibers, like Dacron • To help make printer ink and ink for that ballpoint pen you recently used • The most common use of ethylene glycol is in antifreeze formulation. • Ethylene glycol also has a major use in the manufacture of polymers, namely polyethylene terephthalate (PET). • EG used in the manufacture of fibre glass, which is used in things like, jet skis, bowling balls, storage tank and bath tubes. • EG has been used to prevent and treat rot or fungi in wood. This is especially useful for museums where partially rotten wooden objects are displayed Market Outlook The global glycol market size was estimated at USD 30.41 billion in 2018. It is expected to expand at a CAGR of 6.7% from 2019 to 2025. Derivatives of glycol are used across a wide range of sectors that include automotive & transportation, food & beverage processing, heating, ventilation and air conditioning (HVAC), and polyester fibers. Ethylene glycol is a crucial raw material for the production of PET resins and polyester fibers, which is why one of the main contributors for the growth of this segment is the growing demand for PET bottles from the packaging industry. One of the major consumers and growth drivers of ethylene oxide market globally is monoethylene glycol (MEG). It finds application in areas such as the production of films, bottles, polyester fibers and resins, as well as an antifreeze liquid and cooling agent in the automobile industry. The key growth drivers of the market continue to be EG applications in packaging, polyester application in textiles, and as anti-freeze & coolants in automobiles. The growing demand will be further accentuated by capacity expansions in the Middle East and North America, with the Middle East contributing to a significant share in the export market. On the other hand, Europe and Asia would continue to experience a supply deficit of 6.6 MMT, and would be dependent on imports during the forecast period. Ethylene glycol is widely used as an antifreeze, coolant, and heat-transferring agent. In addition to its ability to bring down freezing point of fluids, the chemical also functions as a reagent in the production of polyesters, alkyd resins, synthetic waxes, and explosives. Furthermore, the ethylene-based glycols also find usage as an ingredient in printing inks, paint solvents, and hydraulic fluids. The most valued applications of the ethylene glycol market are polyester fibers, widely used in textile industries; PET resins, used for packaging of liquids and beverages in bottles; and automotive antifreeze, used in automobiles. The high demand across the industries for polyester fiber, PET resin, and automotive antifreeze will increase the overall ethylene glycol consumption. The top players including: • DOW Chemical • Huntsman International • Reliance Industries • SABIC Innovative Plastics • Sinopec • Akzonobel • BASF • Clariant • Shell • Ineos Oxide • Exxon Mobil Tags #Ethylene_Glycol, #Ethylene_Glycol_Production, #Mono_Ethylene_Glycol_Production, #Ethylene_Glycol_Manufacture, #Ethylene_Glycol_(EG)_Production_and_Manufacturing_Process, Ethylene Glycol Plant, Ethylene Glycol Production Pdf, Ethylene Glycol Uses, Mono-Ethylene Glycol Process Flow Diagram, #Production_of_Ethylene_Glycol, Chemical Industry, Ethylene Glycol Plant, Manufacturing Process of Ethylene Glycol, Ethylene Glycol Manufacturing, Manufacture of Ethylene Glycol, Process for Preparing Ethylene Glycol, Ethylene Glycols Industry, Preparation of Ethylene Glycol, Process for Preparing Monoethylene Glycol, Ethylene Glycol Production Process, #Ethylene_Glycol_(EG), Ethylene Glycol Manufacture in India, Mono Ethylene Glycol Manufacturing Plant, Ethylene Glycol Production Plant, Highly Profitable Chemical Business Ideas, Small Scale Chemical Business Ideas & Opportunities, Chemical Business Opportunities, #How_to_Start_a_Chemical_Industry, Chemical Business Ideas for Aspiring Entrepreneurs, Industrial Chemical Manufacturing Business, Lucrative Chemical Business Ideas & Opportunities, Business Ideas for Chemical Industry, How to Start a Chemical Business? Chemical Industry, Starting a Chemical Business, Commercial Production of Chemicals, Chemical Industry Projects, Starting Your Own Chemical Business, Chemical Compound, Detailed Project Report on Ethylene Glycol Production, #Project_Report_on_Ethylene_Glycol_Production, Pre-Investment Feasibility Study on Ethylene Glycol Production, Techno-Economic feasibility study on Ethylene Glycol Production, #Feasibility_report_on_Ethylene_Glycol_Production, Free Project Profile on Ethylene Glycol Production, Project profile on Ethylene Glycol Production, Download free project profile on Ethylene Glycol Production
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Hydrogen Peroxide

Hydrogen peroxide (H2O2) is a very pale blue liquid which appears colorless in a dilute solution, slightly more viscous than water. It is a weak acid. It has strong oxidizing properties and is therefore a powerful bleaching agent that is mostly used for bleaching paper, but has also found use as a disinfectant, as an oxidizer, and as a propellant for rockets. The chemical industry also uses hydrogen peroxide. Rising adoption of the hydrogen peroxide in the production of propylene oxide is anticipated to boost the demand for hydrogen peroxide in the chemical industry in the near future. The other uses of hydrogen peroxide are found across industries such as in textile, electronics, and food processing. Hydrogen peroxide is used in the electronics industry for pickling of metal surfaces. It is also used to bleach natural and synthetic fibers in the textile industry. Demand for hydrogen peroxide is expected to increase from this industry in the near future owing to increasing usage of paper across the globe. Advent of internet and digitalization has reduced the use of newsprint paper in developed countries. However, rising demand for paper in personal care and packaging industries in developing countries has propelled the overall demand for paper. The market in the region is driven by rising demand from paper and pulp, chemical, and wastewater treatment industries. In terms of value, the market is anticipated to expand at a CAGR of 5.3% between 2017 and 2025. Global paper &pulp industry may consume hydrogen peroxide worth over USD 2,500 million by 2024. As a whole there is a good scope for new entrepreneur to invest in this business. Few Indian major players are as under: • Aditya Birla Chemicals (India) Ltd. • Arkema Chemicals India Pvt. Ltd. • Asian Peroxides Pvt. Ltd. • Chemasia Industries Pvt. Ltd. • Gujarat Alkalies & Chemicals Ltd. • K P L International Ltd. • National Peroxide Ltd. • Omni Dye-Chem Exports Ltd. • Solvay Specialities India Pvt. Ltd. • Swastic Corporation Ltd.
Plant capacity: 12,000 MT per annumPlant & machinery: 3932 Lakhs
Working capital: -T.C.I: Cost of Project:5737 Lakhs
Return: 25.00%Break even: 34.00%
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Soda Ash (Light & Dense)

Sodium carbonate (Na2CO3) also known as washing soda or soda ash, is a sodium salt of carbonic acid. Most commonly occurs as a crystalline heptahydrate, which readily effloresces to form a white powder, the monohydrate. Sodium carbonate is domestically well known as a water softener. It can be extracted from the ashes of many plants. It is synthetically produced in large quantities from salt and limestone in a process known as the Solvay process. It is an essential raw material used in the manufacturing of glass, detergents chemicals and other industrial products. As such, soda ash is one of the most widely used and important commodities in the United States, contributing substantially to the gross domestic product. Soda ash is used to make the most common type of glass, soda-lime silica glass, generally used in the flat glass (automotive and construction), glass container (food and drink) and many other glass industries. It is also used in the production of sodium bicarbonate (baking soda), which is an essential ingredient in the beverage, coatings, detergents, food, dialysis, and personal care markets. For many of applications, soda ash is interchangeable with caustic soda, while offering a cost advantage. The soda ash market is estimated to witness a CAGR of 6.1% between 2014 and 2019 in terms of value, and is anticipated to generate a global market value of $22,090 million by 2019. A key factor driving the growth of the market is the growing applications of glass market. One of the major drivers for the growth of the soda ash market in the growing use of glass in various industries. Glass is extensively used in industries such as construction, automobile, and consumer product packaging. In 2017, the glass industry is the major end-user of the global soda ash market, which accounted for a share of 51.5%. The types of glass that use soda ash are flat glass container glass and others such as fiberglass, technical glass, and specialty glass. Entrepreneurs who invest in this project will be successful.
Plant capacity: Soda Ash Light:300,000 MT per annum Soda Ash Dense:300,000 MT per annumPlant & machinery: 12804 Lakhs
Working capital: -T.C.I: Cost of Project:25704 Lakhs
Return: 28.00%Break even: 57.00%
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Recovery of Fe2O3 & TiO2 from Bauxite Processing Waste

Bauxite waste (Red Mud) of Indian origin contains around 55% plus of Fe2O3 and is considered as a hazardous waste material for the alumina industry which is generated in the order of two tons of Red Mud per one tone of alumina produced from bauxite. The worldwide alumina production is around 58 million tonnes in which India counts for 2.7 million tonnes. India produces around 5.4 million tonnes of Red Mud per annum from its various alumina refineries. Titanium is a precious, light, corrosion resistant, bio-inert and strong element. Moreover, titanium dioxide is widely used in materials in our day-to-day life and its applications are quite vast, including in paints, catalysts, pigments and sunscreen. Despite the fact that the processing of titanium is quite expensive, it is more bene?cial to recover titanium compared with its high processing cost. One of the main focuses of the research community has been on extracting titanium from red mud. The global Ferric Oxide market is likely to touch valuation of US$1,951.8 mn by the 2025 end. The marketplace is likely to register significant growth owing to booming construction industry likely to boost demand for the ferric oxide market in the coming years. The demand for titanium dioxide in India stood at 57 KTPA in 2018 and is projected to grow at a CAGR of 9.19% during 2019-2030 to reach 165 KTPA by 2030. Increasing use of titanium dioxide in various end-use industries such as paints, pigments and textiles as dispersing agent, flocculent, and whitening agent is the key factor spurring the demand for titanium dioxide across the country. Few Indian major players are as under: • Bengal Chemicals & Pharmaceuticals Ltd. • Bharat Chemicals & Fertilizers Ltd. • Kerala Minerals & Metals Ltd. • Kolmak Chemicals Ltd. • Tata Pigments Ltd. • Travancore Titanium Products Ltd. • V V Titanium Pigments Pvt. Ltd.
Plant capacity: Ferric Oxide (Fe2O3): 27,000 MT per Annum Titanium Dioxide (TiO2): 9,000 MT per Annum Remains Materials: 200,000 MT per AnnumPlant & machinery: 408 Lakhs
Working capital: -T.C.I: Cost of Project: 1741 Lakhs
Return: 29.00%Break even: 62.00%
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Recovery of Fe2O3 & TiO2 from Bauxite Processing Waste

Ferric oxide (Fe? O?) is an inorganic compound also known as hematite. Ferric oxide is used in the iron industry in the manufacturing of alloys and steel. The Food and Drug Administration (FDA) has approved ferric oxide pigment for use in cosmetics. Moreover, ferric oxide granules are used in the form of filtration media for removing phosphates in saltwater aquariums. FOR Fe2O3 • In iron industries for producing steel and alloys • Ferric oxide powder, also called jeweler’s rouge, is used for polishing lenses and metallic jewelry • Its granular form is used as a filtration media for pulling out phosphates in saltwater aquariums • As FDA-approved Pigment Brown 6 and Pigment Red 101, for use in cosmetics. • In biomedical applications, because its nanoparticles are non-toxic and biocompatible Recovery of Fe2O3 Fe2O3 is another material in red mud that has attracted a number of researchers. Until now, there are three means to recover iron from red mud: smelting, solid-state reduction and magnetic separation. In smelting process, red mud is charged into blast furnace or rotary furnace with a reducing agent. Then, iron oxide in red mud is reduced to generate pig iron that can be used in steel production. However, smelting process has some demerits. High energy and capital costs are associated with blast furnace (BF) operation because scale of operation is high. Red mud must be mixed with some good-grade iron ore to maintain the minimum grade of the charge to BF. In addition, titanium reacts with other constituents of the slag to form multiple oxides that are difficult to leach. In the solid-state reduction process, the mud is mixed with a reducing agent or contacted with a reducing gas to produce metallic iron. The product can be an input either in a steel-making furnace or a conventional blast furnace. Compared to smelting process, solid-state reduction process consumes less energy. But, it also has some disadvantages. First, the metallic iron produced is quite difficult to separate from the rest of product. So, it is easily polluted by gangue materials. Second, the product is in a very fine form. The recovery rate of Fe2O3 was 45% (weight percent). Another means is to convert hematite or goethite in red mud to magnetite firstly, which is followed with magnetic separation. Obviously, this process is more complex than magnetic separation. Directly. But it also has some advantages. First, goethite is easier to separate magnetically and needs less energy to reduce compared to hematite. So, the extra cost of reducing hematite to magnetite can be compensated by the energy difference between reducing hematite and magnetite to metallic iron. Titanium Dioxide, also known as titanium (IV) oxide or titania, is a white crystalline powder, made up of ilmenite and rutile, which are used as the main raw materials. It is created using either the chloride process or sulfuric acid, referred to as the sulfate process. Titanium dioxide is extensively used as a white pigment in paints and coatings application. Also, it has a wide range of applications, ranging from paints and sunscreens to food coloring. FOR TiO2 Uses for white pigment Four million tons of pigmentary TiO2 are consumed annually. Apart from producing a white colour in liquids, paste or as coating on solids, TiO2 is also an effective opacifier, making substances more opaque. Here are some examples of the extensive range of applications: (1)Paints (2)Plastics (3) Papers (4) Inks (5) Medicines (5) Most toothpastes (6) Skimmed milk; adding TiO2 to skimmed milk makes it appear brighter, more opaque and more palatable Recovery of TiO2 Generally, there have been two main methods developed by which the titanium can be recovered from red mud: pyrometallurgical recovery and hydro-metallurgical recovery. The pyro- metallurgical method generally comprises the separation of pig iron. The red mud is calcined at a range of temperatures, from 800 to 1350°C, and is smelted through a reducing agent using an electric-furnace to obtain melted iron as well as slag that includes titanium dioxide, silica and alumina. The metallic iron is removed from the slag and the slag is digested to recover the titanium and aluminium from the solution. The pyro-metallurgical process is not an energy-friendly method and, hence, the hydrometallurgical technique usually attracts more attention from the research community. A number of the acids’ extractability have been analysed to recover titanium from red mud, such as dilute and concentrated H2SO4 and hydrochloric acid. The solvent extraction technique has been applied to extract titanium from red mud using HCl, which comprised di- and mono-. Red mud can also be considered a secondary source of the most important modification of titanium compound, titanium dioxide. Market Outlook The Global Ferric Oxide Market is expected to register a CAGR of 4.99% to reach a value of USD 2,414,382.9 Million by 2030. The growing construction industry output is expected to be one of the most significant drivers for the iron oxide market on a global scale. Iron oxide finds a profound rate of application in the construction industry such as in the colouring of various construction materials, including concrete blocks and bricks, ready-mixed concrete and roofing tiles. With the steady growth of the construction industry, stemming from increasing urban and civil infrastructure projects, the demand for iron oxides is expected to increase significantly. Additionally, the use of iron oxide for applications such as paints & coatings, plastics, ceramics and chemicals would necessitate its bulk consumption. The primary driver of the global ferric oxide market is its growing adoption in steel production. The increasing application of steel in the major end-use industries such as transportation, construction, energy, packaging, and consumer appliances is also a prime factor driving market growth. Steel finds application in the manufacturing of automobile structures, panels, doors, engine blocks, gears, suspension, wheels, fuel tanks, steering, and braking systems. The use of iron oxide pigments to impart colors to construction materials, paints, inks, plastics, papers, cosmetics, rubbers, concrete blocks, and tiles is another key driver of the market. The growing construction industry output is expected to be one of the most significant drivers for the iron oxide market on a global scale. The growing adoption of iron oxide nanoparticles in wastewater treatment is an excellent opportunity for the players in the market. With the steady growth of the construction industry, stemming from increasing urban and civil infrastructure projects, the demand for iron oxides is expected to increase significantly. Additionally, the use of iron oxide for applications such as paints & coatings, plastics, ceramics and chemicals would necessitate its bulk consumption. The ferric oxide market is witnessing consolidation, driven by the pursuit for sustainability among market participants, owing to the imposition of stringent regulations on the production of ferric oxide, which are increasing the overhead costs for ferric oxide manufacturers. This has prompted ferric oxide manufacturers to consolidate production and business operations through acquisition of external enterprises having a sufficient infrastructure and resources. Some of the major players operating in the Ferric Oxide market: • Cathay Industries • Huntsman • Lanxess • Bayferrox • Toda Kogyo • Quality Magnetite • Prochem • BariteWorld • Cathay Industries • Nano-Oxides • Pirox Titanium Dioxide The global titanium dioxide market size was valued at USD 15.76 billion in 2018 and is expected to witness a CAGR of 8.7% from 2019 to 2025. Thus, rising number of residential and non-residential construction projects is augmenting the demand for paints & coatings, thereby boosting overall market growth. In addition, high demand for anti-corrosive architectural coatings in the pigments has increased the demand for titanium dioxide. The rising use of titanium dioxide in ceramic industry is one of the key factors expected to trigger the market growth in the forthcoming years. It is used as popular ingredient in different products including paint, plastic, paper, pharmaceuticals, and other items. It also provides variegation and crystallization to the color and texture of ceramic glazes. It further prevents pollutants including nitrogen oxide, sulfur oxide, carbon monoxide from affecting ceramic products. The tightening of regulations globally over vehicular emissions and fuel efficiency concerns have compelled manufacturers to take measures in making vehicles lightweight. High availability of substitutes the rising prices of TiO2 and its negative effects on human are pushing end-user industries to use substitute products. This will hinder the growth of the titanium dioxide market during the forecast period. Titanium dioxide particles have wide application scope due to their high stability, photocatalytic properties, and anti-corrosive nature and are manufactured from anatase. They are used in consumer products, such as sunscreens, and as components for articulating implants for the hip and knee. In the near future, its usage in plastics is set to rise at a breakneck pace thereby providing a major fillip to the global titanium dioxide market. Titanium dioxide find application in bettering numerous characteristics of plastics such as color, opacity, and strength. And with the ever-surging demand for plastic on account of the burgeoning world trade, the global titanium dioxide market growth it expected to remain supported. Top Key Players of Titanium Dioxide (TiO2) Market: • KRONOS Worldwide Inc. • Lomon Billions • The Chemours Company • Tronox Holdings plc • Venator Materials PLC. Tags #Recovery_of_Fe2O3_from_Bauxite_Processing, #Iron_Oxide_Recovery, #Recovery_of_Ferric_Oxide, #Recovery_of_Ferric_oxide_from_Bauxite_Processing_Waste, Ferric Oxide, Manufacturing Applications for Iron (III) Oxide, Manufacture of ferric oxide, Production of Iron (II) Oxide (Fe2O3), Process for the Manufacture of Iron Oxide, Process for Producing Iron Oxide, Iron Oxide Formula, Ferric Oxide Production, How to Make Iron Oxide, Preparation of iron oxide, Titanium Dioxide (TiO2) Production and Manufacturing, #Titanium_Dioxide, Manufacture of Titanium Dioxide, #Titanium_Dioxide_(TiO2) Production, Manufacturing Process of Titanium Dioxide, Titanium Dioxide Properties, Titanium Dioxide Uses, Titanium Dioxide Process Flow Diagram, Titanium Dioxide Manufacture, How to Make Titanium Dioxide, Manufacturing Process of Titanium Dioxide, Production of Titanium Dioxide, Titanium Dioxide Production, #Recovery_of_Titanium_Dioxide, Process for Recovery of Titanium Dioxide, Recovering Titanium Dioxide (Tio2), Recovery of Titanium Dioxide from Bauxite Processing Waste, #Project_Report_on_Recovery_of_Ferric_oxide_from_Bauxite_Processing_Waste, Detailed Project Report on Recovery of Ferric oxide from Bauxite Processing Waste, Project Report on Recovery of Titanium Dioxide, Pre-Investment Feasibility Study on Recovery of Ferric oxide from Bauxite Processing Waste, Techno-Economic feasibility study on Recovery of Titanium Dioxide, #Feasibility_report_on_Recovery_of_Ferric_oxide_from_Bauxite_Processing_Waste, #Free_Project_Profile_on_Recovery_of_Ferric_oxide_from_Bauxite_Processing_Waste, Project profile on Recovery of Ferric oxide from Bauxite Processing Waste, Download free project profile on Recovery of Titanium Dioxide
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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