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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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CHLORINATED POLYVINYL CHLORIDE - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Product Profile Chlorinated polyvinyl chloride (CPVC) is a thermoplastic produced by chlorination of polyvinyl chloride (PVC) resin. Uses include hot and cold water pipe, and industrial liquid handling. CPVC can withstand corrosive water at temperatures greater than PVC, typically 40°C to 50°C (104°F to 122°F) or higher, contributing to its popularity as a material for water piping systems in residential as well as commercial construction. CPVC is used in construction, plumbing (hot and cold water pipe), industrial liquid handling applications and fire suppression systems. Product characteristics CPVC piping systems are considered cost effective and environmentally friendly. Because CPVC can be easily shaped, bent, and welded, handling and installation is uncomplicated. In addition, CPVC provides a long service life, it is highly corrosion resistant. It is recognized by all model-plumbing codes for potable (drinkable) hot and cold water distribution systems. Chlorinated Polyvinyl Chloride is available for purchase in rods, sheets, or tubing in various sizes and quantities. Applications CPVC is used in a variety of industrial applications, where high functional temperature and resistance to corrosive chemicals are desirable. Besides pipe and fittings, it is used in pumps, valves, strainers, filters, tower packing and duct, as well as sheet for fabrication into storage tanks, fume scrubbers, large diameter duct and tank lining. CPVC can take the place of traditional thermoplastic engineering plastic, used in the fields of petroleum, chemical, building materials, ship-making, printing, dyeing, food, and paper-making etc. Production Process CPVC is PVC (polyvinyl chloride) that has been chlorinated via a free radical chlorination reaction. This reaction is typically initiated by application of thermal or UV energy utilizing various approaches. In the process, chlorine gas is decomposed into free radical chlorine which is then reacted with PVC in a post-production step, essentially replacing a portion of the hydrogen in the PVC with chlorine. Depending on the method, a varying amount of chlorine is introduced into the polymer allowing for a measured way to fine tune the final properties. The chlorine content may vary from manufacturer to manufacturer; the base can be as low as PVC 56.7% to as high as 74% by mass, although most commercial resins have chlorine content from 63% to 69%.[citation needed] As the chlorine content in CPVC is increased, its glass transition temperature (Tg) increases significantly. Under normal operating conditions, CPVC becomes unstable at 70% mass of chlorine. Market scenario The market for CPVC resin is showing strong growth in India. The main use is for making pipes for transportation of hot water and chemicals C PVC is a preferred choice to traditional materials such as galvanized iron, which has corrosion issues and polypropylene random copolymer which requires use of adhesives. The present Indian requirement of CPVC resin is met by imports.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 0.01%Break even: N/A
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CYCLOHEXANE DIMETHANOL(CHDM) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Product Profile: 1,4 cyclohexanedimethanol (CHDM) is a monomer used in the manufacture of co polyesters in the specialty plastic segment, due to growing co polyesters demand. 1,4-CHDM is an excellent intermediate for the synthesis crystalline resins for pelletized molding compounds. Product characteristics • Chemical name : 1,4–Cyclohexanedimethanol;1,4- Bis(hydroxymethyl)cyclohexane • CAS No : 105-08-8 • Molecular formula : C6H10(CH2OH)2 • Appearance : White waxy solid • Molecular weight : 144.21 • Odour : Sweet Applications • CHDM is the major gycol used to prepare PCT, PCTG and PCTA polyesters, but is the major glycol in the PETG composition. CHDM is manufactured by catalytic hydrogenation of dimethyl teraphthalate. It is one of the most important co monomers for production of polyethylene terephthalate (PET), or polyethylene terephalic ester (PETE), from which plastic bottles are made. • CHDM is a symmetrical, high molecular weight cycloaliphatic glycol used to make saturated and unsaturated polyester resins. It is commonly used as a glycol modifier for resins. It can be used in unsaturated polyester resins for gel coats, sheet molding compounds and injection moldable fiberglass reinforced plastics. Good chemical, stain, humidity and corrosion resistance is achieved, when using CHDM-D in polyester-melamine baking enamels for appliance, general metal and automotive coatings. • The areas of applications include the following: Chemical and pharmaceutical intermediate, Coating resins for heat sensitive substrates, Cosmetic polymer intermediate, Polyester polyols for polyurethane coatings, Polyester melamine baking enamels, Unsaturated polyester resins and Waterborne polyester resins Production of Cyclohexane Dimethanol(CHDM) CHDM is produced by catalytic hydrogenation of dimethyl terephthalate (DMT). The reaction conducted in two steps beginning with the conversion of DMT to the diester dimethyl 1,4-cyclohexanedicarboxylate (DMCD). In the second step DMCD is further hydrogenated to CHDM. The cis/trans ratio of CHDM is differ according to the catalyst, 80:20 for Cu4Ru12 catalyst, 65:35 in case of the RuPt catalyst, 88:12 for the Ru-Sn catalyst, 30:70 in case of the copper chromite catalyst usually used in industrial processing. C6H4(CO2CH3)2 + 3 H2 ? C6H10(CO2CH3)2 C6H10(CO2CH3)2 + 4 H2 ? C6H10(CH2OH)2 + 2 CH3OH Most of the commercial CHDM has cis/trans ratio of 30:70.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 0.01%Break even: N/A
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ETHABOXAM - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics

Product Profile Ethaboxam is a fungicide used mainly for folial and soil treatment. It is highly effective on a range of diseases such as downy mildew, late blight and pythium disease in several crops including grapes, vegetables, potatoes, and corn as well as other row crops. Since only a few fungicides are currently available to control Pythium effectively, it is expected that ethaboxam will be one of the highly preferred seed treatment products capable of meeting growers’ needs for higher crop productivity. Product characteristics Chemical Name : N-(cyano-2-thienylmethyl)-4-ethyl-2-(ethlyamino)-5 thiazolecarboxamide CAS name : N-(cyano-2-thienylmethyl)-4-ethyl-2-(ethylamino)-5-thiazolecarboxamide CAS No. : 162650-77-3 Molecular mass (g mol-1): 320.43 Physical State : Solid powder Colour : Very pale yellow Formula : C14H16N4OS2 Pesticide type : Fungicide Applications Ethaboxam has its biological specialty in its mode of actions. Ethaboxam has preventive activity that protects crops prior to infection by pathogen. It is an outstanding fungicide that controls downy mildew and late blight of vegetables and fruits. Its application is 100~250 g/ha for most target crops and pathogens. It also has curative activity that eliminates pathogens that already inhabit inside plants. Its systemic activity also allows curing diseases on stems and leaves by drenching in soils by moving upward plants during transpiration. An excellent toxicology profile makes it safe around people, livestock and the environment. Distinctively from other fungicides, Ethaboxam has two biochemical action sites and reduces possibility of developing pathogens resistant to ethaboxam. Further, ethaboxam can be used to effectively control the diseases caused by phenyamide-resistant pathogens. This unique feature is the key sales point of ethaboxam in the global market. Market Scenario The global total market size of fungicides in 2000 was approximately 6.5 billion US dollars and that of fungicides to control diseases on fruits and vegetables was 2.7 billion US dollars (46%). Approximately one billion US dollars was used to control the diseases caused by Oomycetes. The compound was developed by LGLS and has been on the market in various countries since 2005, mainly for foliar and soil treatment. Because of its highly systemic and preventive activities, ethaboxam exhibits excellent fungicidal performance also for seed treatment, which helps reduce both the application frequency and the application rate of crop protection products and ultimately promote labour saving in agricultural production.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 0.01%Break even: N/A
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FLUORINATED ALCOHOLS - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

PRODUCT PROFILE Fluorinated alcohols are formed by using fluorine atoms to replace hydrogen atoms on the carbon chains of alcohols. Because of their excellent solubility, they are widely used as solvents in recordable CDs, electronics, polymer and other industries. The fluorinated alcohols were able to induce surface modification already at very low concentration (below 1 wt %). It has been shown that the surface modification depended on the concentration of the fluoroalcohols, on the length of the fluoroalkyl chain, and on the length of the methylene spacer between the fluorinated chain and the OH group. The strong increase on hydrophobicity in the presence of the synthesized fluorinated alcohol, CF3(CF2)9(CH2)10OH, was attributed to the higher fluorocontent of the chain as well as to a self-organization effect. Fluorinated alcohols are formed by using fluorine atoms to replace hydrogen atoms on the carbon chains of alcohols. Because of their excellent solubility, they are widely used as solvent in recordable CDs, electronics, polymer and other industries. Applications: Fluorinated alcohols were used as surface modifying agents, through chain transfer mechanism in cationic UV curing of an epoxy system. Fluorinated organic liquids or crystal substances with tailor made set of physical and chemical properties find the following numerous applications: floatation reagents for recovery of gold, platinum and silver from ores at concentration plants (permits to increases gold recovery by 30%), solvents in the production of CD and DVD disks, working fluids in immersed pumps for oil extraction. Flourinated alcohols constitute components of high temperature oils, heat carrying liquids, lubricants and glues, cloth impregnating additives to protect against moisture and contaminants. Fluorinated alcohols are also used in the synthesis of fluorine containing pesticides, pharmaceuticals and dyes. TFEA: 2,2,2-trifluoroethanol (TFEA) can be miscible with water and most organic solvents and is an excellent solvent. It is also an intermediate for pharmaceuticals and pesticides, mainly used in the synthesis of narcotics such as desflurane, isoflurane alkyl, flecainide, silodosin and lansoprazole, as well as pesticides such as trifloxysulfuron and triflusulfuron-methyl. It can also be used for the synthesis of poly(trifluoroethyl methacrylate), fluorinated phosphazene rubber and fluorine-containing polyurethane polymer. It is also used in optical fiber, paints, rubber products and contact lenses and used as a solvent in the synthesis of organics and polymers as well as chemical analysis. TFP: 2,2,3,3-tetrafluoropropanol (TFP) is a new fluorine containing solvent and used as a paint solvent and release agent in recordable CDs, a cleaning agent in microelectronics and optoelectronics and a processing aid for intermediates, fluorine resin and fluorine rubber. It is also widely used in photographic colour makeup agents and textile finishing agents. TFP can be used to produce a variety of halogenated aromatic alkyl ethers, polyfluoroalkoxy propionitrile, fluorinated olefins, fluorinated diols and vulcanized rubber. It has no damage to the atmosphere and is a superior alternative to Freon cleaning agents. In the world, more than 70% of TFP is used for the production of recordable CDs, 20% is used in a variety of cleaning agents and surfactants, and 10% is used for the synthesis of sodium tetrafluoropropionate (a pesticide) and other products.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 0.01%Break even: N/A
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HYDROXYPROPYL CARBAMATE ACRYLATE (HPCA) -Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

PRODUCT PROFILE Hydroxypropyl carbamate acrylate (HPCA) is a new specialty monomer that is generated by the biotech process. It has several advantages for its use in the manufacture of carbamate based polymers, when compared with conventionally produced material. Hydroxypropyl carbamate acrylate (HPCA) enables crosslinkable carbamate units to be incorporated into the polymer in just one step. HPCA is a new specialty monomer that is generated by the biotech process. It has several advantages for its use in the manufacture of carbamate based polymers, when compared with conventionally produced material. Processing of Hydroxypropyl Carbamate Acrylate: The HPCA is generated by the enzymatic trans esterification of hydroxypropyl carbamate and ethyl acrylate. The transesterification of ethyl acrylate with hydroxypropyl carbamate is performed in tank. This involves initially charging hydroxypropyl carbamate (isomer mixture) and ethyl acrylate, and also hydroquinone monomethyl ether. The entire system was inertized with lean air (nitrogen/oxygen mixture with oxygen content 6%). The enzyme reactor connected in the external pumped circulation system comprised of lipase. The reaction was performed at 40° C. and 90 mbar. The ethanol formed was distilled off continuously as an azeotrope with ethyl acrylate by means of a column. Over the entire reaction time of 24 h, a stream of 5 kg/h from the tank bottoms was conducted via the top of the column in order to prevent polymerization. The conversion was 90% after 24 h of reaction time. Subsequently, the crude product present in ethyl acrylate was washed twice with 1/10 each time of the total volume of water, which removed the unconverted reactant. The pure product obtained was hydroxypropyl carbamate acrylate in a purity of >95% (GC analysis). Applications of Hydroxypropyl Carbamate Acrylate: One potential area for application would be adhesives. For example, HPCA can be hardened either thermally or using UV light. Here, the free carbamate group can have a positive impact on both adhesion and cohesion, in this way making it possible to improve adhesive properties. HPCA has already proven itself in clear coat systems for the automotive industry. One component coatings with HPCA achieve a comparable performance level to two component coatings, for example with regard to weather and scratch resistance. In contrast to two-component coatings, one-component coatings are easier to use in applications and are more cost efficient.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 0.01%Break even: N/A
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GLYCERYL TRIACETATE (TRIACETIN) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost & Revenue

Product Profile Glyceryl triacetate is the triester of glycerol and acetic acid and is also known as triglyceride 1,2,3 triacetoxypropane is more generally known as triacetin and glycerin triacetate. It is an artificial chemical compound, commonly used as a food additive, for instance as a solvent in flavourings, and for its humectant function. Triacetin is also a component of casting liquor with TG and as an excipient in pharmaceutical products where it is used as a humectant, a plasticizer, and as a solvent. It is a synthetic compound that produces a clear, combustible, and oily liquid with a bitter taste that is used as a food additive Applications Application of glyceryl triformate in food sector in following industries: baked goods, beverages, chewing gum, confectionery, dairy desserts, hard candy. Its applications in Non-Food sector are in following industries solvent, fixative, perfumes, printing inks, (non-absorbent surfaces), plasticiser. Its high solvency power and low volatility make triacetin a good solvent and fixative for many flavours and fragrances. Other applications of glyceryl triacetate are: • Plasticizer applied to the cigarette filter; • Flavour and essence fixative and lubricate in cosmetics; • Excipient in pharmaceutical products as a humectants, a plasticizer and a solvent; • Fuel additive as an antiknock agent which can reduce engine knocking in gasoline; • Fuel additive to improve cold flow and viscosity properties of biodiesel. Production Process Triacetin is produced from a multi-stage reaction sequence involving glycerine, acetic acid and acetic anhydride as raw materials. In the first reaction, glycerine is esterified with acetic acid. In this first stage, the conversion is to mono1 di-acetin. Water is also formed and is removed from the reaction system by azeotropic distillation of the acetic acid/water mixture during the reaction. In the second stage, the products from the first reaction, namely mono1 diacetin are further esterified in an exothermic reaction with acetic anhydride. Triacetin and acetic acid are formed, the latter returning to the reaction system to be used as the reactant in the first reaction. Triacetin is produced in a fully closed system. Market scenario Triacetin is mainly used in tobacco, food, inks, cosmetics, casting, pharmaceuticals and dyes area. Currently, the global demand for triacetin is about 110 000 tons annually, of which China's demand accounts for about 35%. In China, the annual output of triacetin is about 55 000 tons, of which 385 000 tons is consumed domestically, and 16 500 tons is for export, and the price of triacetin is RMB10 000 - 12 000/t. In recent years, the demand for triacetin has grown 5% to 10% annually. In the future, the demand for it will continue to maintain fast growth. In recent years, the demand for triacetin has grown at around 5% annually.
Plant capacity: -Plant & machinery: -
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Return: 0.01%Break even: N/A
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LITHIUM TITANATE - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Layout

Product Profile Lithium titanate (full name lithium metatitanate) is a compound containing lithium and titanium. It is an off white powder at room temperature and has the chemical formula Li2TiO3. It is the anode component of the fast recharging Lithium-titanate battery. It is also used as an additive in porcelain enamels and ceramic insulating bodies based on titanates. It is preferred as a flux due to its stability. Product characteristics Formula : Li2TiO3 ` Formula Name : Lithium Metatitanate Description : Off-white coloured powder Solubility in H2O : Insoluble Applications Lithium titanate is considered to be one of the most prospective materials for use in the anodes of rechargeable lithium ion and lithium polymer cells. Another advantage of Li4Ti5O12 is that it has a flat discharge curve. A lithium–titanate battery is a modified lithium-ion battery that uses lithium-titanate nanocrystals on the surface of its anode instead of carbon. This gives the anode a surface area of about 100 square meters per gram, compared with 3 square meters per gram for carbon, allowing electrons to enter and leave the anode quickly. This makes fast recharging possible and provides high currents when needed. Production Process A process is provided for making lithium titanate of closely controlled particle size in the range 5 nm to 2000 nm. The process includes re firing lithium titanate under controlled conditions so that crystallites of the desired particle size are grown. The lithium titanate may be derived from any suitable source. A suitable source of lithium titanate can be from a process that includes evaporation of a blend that contains lithium and titanium to form a mixture containing lithium and titanium compounds that are subsequently calcined to form lithium titanate. The blend of titanium and lithium may be derived from a variety of titanium and lithium precursor materials. A lithium titanate is formed by mixing lithium carbonate powder or lithium hydroxide powder with titanium oxide followed by preparing a mixed slurry of titanium compound powder and a solution containing lithium, followed by depositing a lithium compound by spray-drying. Market scenario The Lithium Ion battery market is poised to play a major role in the emerging cleantech economy. Lithium prices are relatively low and the cost of recycling a battery significantly higher than the sum value of its components, the infrastructure and conditions required to ensure widespread lithium ion battery recycling are still far from established. Currently, there is little economic sense to recycle lithium-ion (Li-ion) batteries. However, if the number of electric vehicles (EVs) and their associated battery packs increase in the long term, recycling and reuse will help validate the tag, green car.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 0.01%Break even: N/A
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MONOCHLOROACETIC ACID (MCA) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Product Profile Monochloroacetic acid (MCA) is the organochlorine compound with the formula ClCH2CO2H. This carboxylic acid is a useful building-block in organic synthesis. Monochloroacetic acid, commonly abbreviated MCA or MCAA, is a colourless crystalline solid. It can exist in four crystal forms, each with a different melting point. MCA is a reactive compound that can undergo various reactions to form a number of intermediates. Product characteristics Appearance : White Deliquescent Crystals Molecular formula : C2H3O2Cl Melting point : 61.0 degree celcius Purity (%) : Min. 99.0 Applications Monochloroacetic Acid is used as a versatile intermediate in the manufacturing of various Agrochemicals viz; 2, 4-D, Glyphosate etc. It is widely used as a main raw material for various pharmaceuticals viz. Ibuprofen, Dichlofenac etc. & in the manufacturing of Carboxy Methyl Cellulose. MCAA is an intermediate for multi step production for herbicide industry, detergent industry, oil industry, paper industry, cosmetic industry, food industry, pharmaceutical industry, construction material industry etc. Production Process The production of monochloro acetic acid was 706,000 tonnes/year in 2010, of which over half is produced in China. Other countries with significant production capacity are Germany (105,000), the Netherlands (100,000), India (>65,000), and the United States (55,000). Processes Chloroacetic acid is prepared industrially via two routes. The predominant method involves chlorination of acetic acid: CH3CO2H + Cl2 ? ClCH2CO2H + HCl Acetic anhydride serves as a catalyst for this reaction. The other main industrial route to chloroacetic acid is hydrolysis of trichloroethylene using sulfuric acid as a catalyst: CCl2CHCl + 2 H2O ? ClCH2CO2H + 2 HCl The hydrolysis method produces a highly pure product, which can be important since mono-, di- and trichloroacetic acids are difficult to separate by distillation. Approximately, 420,000,000 kg/y are produced globally. Market scenario Global MCA market, is estimated at 650 000 metric tonnes per annum. Mono chloro acetic acid market in Asia-Pacific is expected to grow at a compounded annual rate of approximately 4.25%. Worldwide demand for the monochloroacetic acid is expected to grow at the rate of 2% annually but demand for the highest purity is expected to grow at the rate of 6-8%. Global merchant capacity of MCAA was estimated at 400 KT in 2006 with the further 180 KT assumed to be captive. The monochloroacetic acid market will continue to be driven by the Chinese market. Monochloroacetic acid use for glycine production constitutes the largest market, with 62% of monochloroacetic acid demand. Glycine is used to produce glyphosate, an herbicide used worldwide.
Plant capacity: -Plant & machinery: -
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Return: 0.01%Break even: N/A
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LITHIUM HEXAFLUOROPHOSPHATE - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Product Profile Lithium hexafluorophosphate (LiPF6) is a typical electrolyte salt for lithium-ion batteries. Lithium hexafluorophosphate is an inorganic compound with the formula LiPF6. This white crystalline powder is used in commercial secondary batteries, an application that exploits its high solubility in nonpolar solvents. Specifically, solutions of lithium hexafluorophosphate in propylene carbonate with dimethoxyethane serves as an electrolyte in lithium batteries. LiPF6 catalyses the tetrahydropyranylation of tertiary alcohols. Lithium hexafluorophosphate is stable but readily hydrolyzes upon exposure to water or moist air. It is incompatible with strong oxidizing agents, strong acids. Product characteristics Chemical Name : Lithium hexafluorophosphate Molecular Formula : F6LiP Formula Weight : 151.91 Applications • Lithium hexaflourophosphate is a white crystalline powder used in commercial secondary batteries, an application that exploits its high solubility in non-polar solvents. Specifically, solutions of lithium hexafluorophosphate in propylene carbonate with dimethoxyethane serves as an electrolyte in lithium batteries. • LiPF6, is a conductive salt that is one of four critical components in rechargeable lithium-ion batteries. • The manufacturer uses industrial materials to lower the product cost by at least 60% compared with others in the circle, showing obvious energy saving effects; • The manufacturer uses its own designed and made non-standard sets of equipment to satisfy the production process in the normal temperature and pressure; • No use of hydrofluoric acid in the production process to enable low investment in environment protection, great safety and little pollution; Global scenario The global total production of LiPF6 was about 3800 metric tonnes in 2010. Currently, major global LiPF6 producers are distributed in Japan, South Korea and Taiwan region. Demand for lithium-ion batteries is expected to grow more than 40 percent, from $7.2 billion in 2010 to $10.1 billion in 2015, driven by demand for plugin hybrid and all-electric vehicles.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 0.01%Break even: N/A
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T BUTYLAMINE - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics

Product Profile Tert. Butylamine is a primary, aliphatic amine, which is used in the production of accelerators for the rubber industry, but is also applicable in the pharmaceutical and agricultural industry. Tert Butylamine is an organic chemical compound (specifically, an amine) occurs as a colourless liquid. Tert Butylamine is one of the four isomeric amines of butane, the others being n butylamine, sec butylamine and isobutylamine. It is miscible with water and almost all conventional organic solvents. Product characteristics Appearance : Colourless liquid Formula : (CH3)3CNH2 Molecular Weight : 73.1 Applications The main application in this field is the use to synthesize 3-formyl tertbutylamine rifamycin, an intermediate of rifampicin for treatment of tuberculosis. Tert Butylamine can also be used to synthesize terbutalin, a quick-effect drug for bronchitis and asthma. Intermediate used in the production of: Agricultural chemicals, Rubber chemicals, Gas purification agents, Pharmaceuticals etc. The main consumption of tert butylamine is the use as additive product forn ethylene oxide. Tert butylamine is a very important intermediate for making dyes, pesticides, and rubber additives. Tert Butylamine can be used as raw material to synthesize sulfa urea herbicide nicosulfuron. Nicosulfuron has an excellent effect of killing most annual and perennial graminaceous weeds and broad-leaved weeds. Process Tert-Butylamine may be prepared by the hydrogenolysis of 2,2 dimethylethylenimine, or via tert-butylphthalimide. The method used most often today is the methyl tert-butyl ether-hydrocyanic acid process. A process for the production of tertiary butylamine having a purity of at least 99.5% and being suited for use without further purification, the process comprising reacting isobutene and ammonia in the gaseous phase above a dealuminized silica alumina catalyst, wherein the catalyst is used in acid form, has a crystallinity of at least 95%, has an Na2 O content less than 0.2% by weight; and has a ratio of Si : Al greater than 12, and wherein the reaction occurs at a temperature of 200°-350° C., a pressure of 100-250 bar, and has a ratio of educt to catalyst of 5 to 60 moles/kg catalyst per hour. Market scenario Tert Butyl Amine is not presently produced in India and Indian import is around 450 metric tonnes per annum. It is one of the fine chemicals with the rapid development in recent years. As an important intermediate, tertbutylamine has a capacity of nearly 60000 t/a in the world and the actual output is around 40000 tons a year. Major producers are concentrated in the United States, Japan and Germany.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 0.01%Break even: N/A
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  • One Lac / Lakh / Lakhs is equivalent to one hundred thousand (100,000)
  • One Crore is equivalent to ten million (10,000,000)
  • T.C.I is Total Capital Investment
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