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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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Liquid Sodium Silicate from Caustic Soda & Sand

Liquid Sodium Silicate is a major compound used for formulating chemicals like silicate gel and precipitated silica. Apart from this, Sodium Silicate Liquid has an extensive usage in ceramic industry, paper industry, detergent industry as well as electrodes manufacturing companies. Liquid sodium silicates are manufactured in various molar ratios. Molar ratios (MR) define the ratio of SiO2 versus Na2O in the substance. The higher the molor ratio, the less sodium ions are present in the silica network and consequently the less alkaline the silicates are. Therefore, classification and labeling depends on the molor ratio (cfr. MSDS). Varying the ratio of SiO2 to Na2O and the solids content results in solutions with differing properties. The Liquid Sodium Silicate is a non-hazardous chemical which is used in many applications worldwide. The essential and diversified applications are churning out increasing demand for liquid sodium silicate. The liquid sodium silicate has several important unique properties which are not shared by other alkaline salts. Such valuable properties along with their low-cost results in their usage in several applications in diverse industries. The liquid sodium silicate is used in various industries as detergents, adhesives, binders, cement, ingredients in cleaning compounds, different coatings, anticorrosives, deflocculants, catalyst bases, chemicals, etc. The unique properties and functional characteristics of liquid sodium silicate can be used to resolve many problems arising in chemical and industrial processes efficiently and economically. Increasing concern towards environment in the country are likely to compel manufacturers to use bio-based products such as rice husk. Abundant availability of the rice husk in the region, especially in the rice producing states including Texas, California, Arkansas and Mississippi is expected to open new avenues for the industry growth over the next eight years. The growth in the demand for adhesives in paper and pulp and cement industry is projected to drive the growth of liquid sodium silicate market over the forecast period. The liquid sodium silicate market is highly competitive due to the presence of many manufacturers with large capacities globally. The increasing use of liquid sodium silicate as an adhesive in numerous manufacturing applications is driving the liquid sodium silicate market. The liquid sodium silicate is used to bind fiber drums, cores of paper towel and toilet tissues, paperboard laminates, etc. Most of the manufacturers prefer to use liquid sodium silicate because of it is low-cost, environment-friendly and non-toxic. The availability of raw material such as silica sand, soda ash, and rice husk is expected to fuel the growth of liquid sodium silicate market over the forecast period. The final cost of the liquid sodium silicate depends upon the factors such as raw material cost, operational cost, and transportation cost. The liquid sodium silicate finds a side application if rubber and tire manufacturing industry as a filler. The development in the automotive sector and rapid growth in APEJ region is expected to drive the elastomers segment over the forecast period.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Vinylidene Chloride (VDC) and Polyvinylidene Chloride (PVDC) Manufacturing Industry

Vinylidene Chloride (VDC) and Polyvinylidene Chloride (PVDC) Manufacturing Industry. Investment Opportunity for Entrepreneurs The predominant demand for VdC / PVdC is in the food and pharmaceutical packaging sector Vinylidene Chloride (VDC) Vinylidene chloride, also called 1,1-dichloroethylene, a colourless, dense, toxic, volatile, flammable liquid belonging to the family of organic halogen compounds, used principally in combination with vinyl chloride, acrylonitrile, or methyl methacrylate for the manufacture of a class of plastics called saran. Vinylidene chloride is also used as a starting material for making methylchloroform, or 1, 1, 1-trichloroethane, and a solvent useful in cleaning electrical machinery. Vinylidene chloride is used as an intermediate in chemical synthesis and to produce polyvinylidene chloride copolymers. The primary acute (short-term) effects in humans from vinylidene chloride exposure are on the central nervous system (CNS), including CNS depression and symptoms of inebriation, convulsions, spasms, and unconsciousness at high concentrations. Low-level, chronic (long-term) inhalation exposure of vinylidene chloride in humans may affect the liver. Animal studies indicate that chronic exposure to vinylidene chloride can affect the liver, kidneys, CNS and lungs. Human data are considered inadequate in providing evidence of cancer from exposure to vinylidene chloride. The most recent cancer classification for vinylidene chloride can be found on IRIS. Uses • Vinylidene chloride is used as an intermediate for organic chemical synthesis. • Vinylidene chloride is also used in the production of polyvinylidene chloride copolymers. The major application of these chloride copolymers is in the production of flexible films for food packaging. • These copolymers are also used extensively in many types of packing materials, as flame retardant coatings for fiber and carpet backing and in piping, coating for steel pipes, and adhesive applications. Market Outlook The global Vinylidene Chloride market is valued at million US$ in 2017 and will reach million US$ by the end of 2025, growing at a CAGR of during 2018-2025. The Vinylidene Chloride market is expected to witness high growth owing to the high growth in the Paint Industry, the food & beverage industry and the Semiconductor industry. The paint industry is projected to see more than 6% CAGR growth in the next seven years due to the increasing end use demand for architectural & decorative wall paints, increasing industrial demand especially in automobile industry, and global economic development. The Food & beverage industry is expected to see growth of more than 7% CAGR by 2022 due to the growing end user consumption, similarly the Semiconductor industry is expected to see growth of more than 10% CAGR over the forecasted period mainly due to the growing demand of electronic components applications in automobile industry, smartphone industry, and other digital type industry. On the basis of end-user industry, the vinylidene chloride market is segmented into pharmaceutical, food & beverage, agriculture, manufacturing, construction, automotive, electronic, and cosmetic. In terms of volume, the food & beverage segment accounted for the largest share of more than 40%, while, the market share for pharmaceutical was estimated to be more than 25%. In the forecasted period, the market is expected to grow largely by the demand from pharmaceutical industry and from construction industry. The less growth is expected from the food & beverage industry due to the increasing awareness about its restraints in food packaging and growing substitutes such as EVOH (Ethylene Vinyl Alcohol). Thus, the expected growth rate is less than 6% CAGR by 2022, in terms of volume. Vinylidene Chloride (Thousands Units) and Revenue (Million USD) Market Split by Product Type such as Vinyl Chloride-Chlorine Process, Vinyl Chloride-Chlorine Hydride Process, 1,2-Dichloroethane-Chlorine Process, Others. Furthermore, the research study is segmented by Application such as Polyvinylidene Chloride Industry, Organic Synthesis Intermediates, Others & Other with historical and projected market share and compounded annual growth rate. Polyvinylidene Chloride (PVDC) Polyvinylidene chloride (PVDC), a synthetic resin produced by the polymerization of vinylidene chloride. It is used principally in clear, flexible, and impermeable plastic food wrap. The applications of Polyvinylidenechloride (PVDC), are predominantly packaging and barrier films, often as the barrier layer in multi-layer structures. The outstanding property of PVDC is its low permeability to water vapour and gases—making it ideal for food packaging. Copolymers of vinylidene chloride and other monomers are also marketed. The best known is Saran, a copolymer consisting of about 87 percent vinylidene chloride and 13 percent vinyl chloride. Saran was introduced by the Dow Chemical Company in 1939 and is still a widely used transparent food wrap. Market Outlook PVDC plays an important role in blister packaging as coating or lamination on PVC. The gas and moisture permeability of PVC blister packaging is reduced to certain extent with the use of PVDC. Moreover, it provides an excellent barrier to both water vapor and oxygen. The global PVDC food packaging market is expected to register decent growth during the forecast period driven by the middle class of developing countries. Demand for packaged food is rising in emerging regions due to the rapid urbanization and growing disposable income. Growth in such regions in expected to impact the food packaging industry positively. Specialty material such as PVDC is gaining importance in the food packaging market. The increasing demand for packaged food and beverages together with growing use of packaging material in various food service outlets and expanding working population has given impetus to PVDC food packaging market. The feasible properties of PVDC make is one of the most favored raw material for food packaging. The PVDC material meets the requirements of the governing authorities of North America and European region as it has lower environmental impacts. This factor acts as a driver for the global PVDC food packaging market. The PVDC film is environment-friendly which makes it suitable for the use of food packaging. The PVDC increasing demand of PVDC films in the packaging of processed meat, cheese, bread, snacks and the instant food is anticipated to grow the market during the forecast period. The market for PVDC food packaging can be segmented on the basis of application as dairy products, fruits and vegetables, pet food, baby food, confectionary, Meat, Poultry & Seafood, and others. The meat, poultry and seafood segment is expected to grow at a higher CAGR during the forecast period. The global PVDC market in terms of value is expected to reach above $xx million by 2019, growing at a significant CAGR from 2014 to 2019. North America, Europe, Asia-Pacific and Rest of the World (RoW) have been segmented in the global PA 46 market report. Polyvinylidene Chloride (PVDC) Market Regional Segment Analysis: • North America • Europe • China • Japan • Southeast Asia • India Tags Vinylidene Chloride, Polyvinylidene Chloride, Polyvinylidene Chloride Production, Polyvinylidene Chloride (PVDC), Production of Vinylidene Chloride, Polyvinylidene Chloride Properties, Preparation of Vinylidene Chloride, Applications of Vinylidene Chloride, PVDC, Process for Producing Vinylidene Chloride, Chemical Compound, Manufacture of Polyvinylidene Chloride, Vinylidene Chloride (1,1-Dichloroethylene), Process for Production of Vinylidene Chloride, Vinylidene Chloride Manufacture, Production of Polyvinylidene Chloride, Vinylidene Chloride Industry, Vinylidene Chloride Manufacturing, Production of Vinylidene Chloride from Ethylene Dichloride, Manufacturing of Polyvinylidene Chloride, Polyvinylidene Chloride (PVDC) Business, Manufacturing Process of Polyvinylidene Chloride, Polyvinylidene Chloride (PVDC) Production and Manufacturing Process, Process for Preparation of Polyvinylidene Chloride, Polyvinylidene Chloride Uses, PVDC Production, Vinylidene Chloride Industry, Project Report on Vinylidene Chloride Manufacturing Industry, Detailed Project Report on Polyvinylidene Chloride Production, Project Report on Vinylidene Chloride Manufacturing, Pre-Investment Feasibility Study on PVDC Production, Techno-Economic feasibility study on Polyvinylidene Chloride Production, Feasibility report on PVDC Production, Free Project Profile on PVDC Production, Project profile on Vinylidene Chloride Manufacturing, Download free project profile on Polyvinylidene Chloride Production
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Return: 1.00%Break even: N/A
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p-Toluenesulfonic acid

p-Toluenesulfonic acid, also known as tosylate or para-toluene sulfonate, is a member of the class of compounds known as p-methylbenzenesulfonates. p-Methylbenzenesulfonates are benzenesulfonic acids (or derivative thereof) carrying a methyl group at the para- position. p-Toluenesulfonic acid is slightly soluble (in water) and an extremely strong acidic compound (based on its pKa). p-Toluenesulfonic acid (PTSA or pTsOH) or tosylic acid (TsOH) is an organic compound with the formula CH3C6H4SO3H. It is a white solid that is soluble in water, alcohols, and other polar organic solvents. p-toluene sulfonic acid is widely used as catalyst agent in the synthesis of pharmaceuticals, pesticides, polymerization stabilizer and organic synthesis (esters, etc.), paint intermediates and resin curing agent. And it is also the commonly used acid catalyst in organic synthesis. It is neutralized with sodium hydroxide and then obtains sodium p-toluene sulfonate, and react with phosphorus pentachloride, can obtains p-toluenesulfonyl chloride. The latter used in the nucleophilic substitution reaction, also used as alcohol hydroxyl protective group. P-CH3C6H4SO3Na + PCl5 ?p-CH3C6H4SO2Cl. Uses (1) For chemical reagents, but also for dyes, organic synthesis. (2) Used as the intermediates of medicine (such as doxycycline), pesticides (such as dicofol), dyes. Also used in detergents, plastics, coatings and so on. (3) For medicine, pesticides, dyes and detergents, but also for plastics and printing coatings. (4) Widely used in the catalyst synthetic medicine, pesticides, polymerization of the stabilizer and organic synthesis (esters, etc.). Also used as medicine, paint intermediates and resin curing agent. The Demand for P-Toluenesulfonic Acid Market Industry is anticipated to be high for the next six years.
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Return: 1.00%Break even: N/A
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Basic Chromium Sulphate

Chromium (III) sulfate usually refers to the inorganic compounds with the formula Cr2 (SO4)3.x (H2O), where x can range from 0 to 18. Additionally, ill-defined but commercially important "basic chromium sulfates" are known. These salts are usually either violet or green solids that are soluble in water. It is commonly used in tanning leather. Chromium (III) Sulfate is an inorganic sulfate with CAS Number of 10101-53-8 and molecular weight of 392.18 g/mol. Chromium Sulfate is famously used as a tanning agent for leather manufacturing. Chromium is an important element that crafts this compound. Its oxidation state ranges from -2 to +6 with +3 is the most common state as it can be found in nature and used as a tanning agent. Chromium is relatively denser than water with specific gravity of 1.77 and can be combined with various non-metals with high electro negativity (oxygen, fluorine, chlorine) and polyatomic anions such as nitrate, sulfate, etc. Most chromium compounds have bright colour
Plant capacity: -Plant & machinery: -
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Return: 1.00%Break even: N/A
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Melamine formaldehyde Powder

Melamine resin or melamine formaldehyde (also shortened to melamine) is a hard, thermosetting plastic material made from melamine and formaldehyde by polymerization. It is then used to cross-link with alkyd, epoxy, acrylic, and polyester resins, used in surface coatings. Melamine-formaldehyde resins in partially condensed form, herein referred to as melamine-formaldehyde precondensates, are widely used in finishing of textiles. They are commonly applied to the textiles in an aqueous medium. Such resins are commonly produced by condensing melamine and formaldehyde in the presence of methanol under reflux conditions. The reaction between the melamine and formaldehyde is exothermic and diflicult to control so as to form chiefly the desired trior tetramethylol melamine. Melamine formaldehyde is a synthetic resin manufactured by reacting melamine with highly reactive formaldehyde gas under alkaline conditions. Melamine formaldehyde resin is generally compared with urea-formaldehyde resin with respect to its processing and applications, however it is harder, stronger and offers even better resistance to chemicals, moisture, heat, electricity and scratching, compared against urea-formaldehyde. It is referred as thermosetting polymer or amino resins, exhibits excellent value added properties such as low density, thermal stability, high gloss, transparency, and light fastness. Owing to its value added properties, melamine formaldehyde has found great industrial applications in fire retardants, surface coatings, plywood, particleboard, adhesive, molding compounds and laminates among others. Global Melamine Formaldehyde Market size is expected to reach $687 million by 2022 from $430 million in 2015. It is anticipated to grow at a CAGR of 6.9%. Melamine formaldehyde is a synthetic resin obtained by chemical combination of melamine. It is a translucent solid made from urea and formaldehyde, a highly reactive strong smelling gas derived from methane. The reaction product of melamine, urea, and related compounds with formaldehyde are called amino lasts. The hardness and chemical & moisture resistance quality of melamine resin is attributed to its complex and interlinked polymer structure. Melamine resin or Melamine formaldehyde is an organic, heterocyclic compound made from polymerizing melamine and formaldehyde to form a hard, thermosetting plastic material. Melamine when in its butylated form is dissolved in xylene and n-butanol. Nitrogen being a major constituent in the melamine structure makes melamine formaldehyde extremely flame retardant by nature. Melamine formaldehyde is formed by cross-linking this product with other products such as epoxy, acrylic, alkyd, and polyester resins. MF has some beneficial physical characteristics over Urea resins. It is moisture-resistant, hard, and stronger than urea formaldehyde. Global melamine formaldehyde market is anticipated to observe vigorous development over the forecast period owing to increase in demand from a range of end-use market applications. The properties of melamine formaldehyde such as resistance to water, fire, UV and light is slated to aid the overall market considerably over the forecast period.
Plant capacity: -Plant & machinery: -
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Return: 1.00%Break even: N/A
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Activated Carbon from Bamboo

Activated carbon is a non-graphite form of carbon and is micro crystalline in nature. It is extensively used in various industries as a very good adsorbent for odour or colour. Activated carbon is an important component of ?lter material for the removal of hazardous components in exhaust gases for the puri?cation of drinking water and for waste water treatment. Bamboo can be converted into charcoal and activated carbon via carbonisation followed by activation. In recent years, there has been a rising expansion of the activated carbon (AC) global market. According to the Transparency Market Research (TMR), the product transactions reached, in 2012, 1.913 billion dollars and the predictions are that at the end of 2019 the numbers surpass the mark of 4.180 billion, presenting an annual increase rate of 11.9% in the 2013-2019 period. This facilitates the development of new technologies and ensures a high quality product. Few Indian major players are as under • Active Char Products Pvt. Ltd. • Adsorbent Carbons Ltd. • Bamboo Technology Park. • Core Carbons Pvt. Ltd. • Genuine Shell Carb Pvt. Ltd. • Indo German Carbons Ltd.
Plant capacity: Activated Carbon Granular: 3MT/DayPlant & machinery: Rs. 133 lakhs
Working capital: -T.C.I: Cost of Project: Rs. 379lakhs
Return: 27.00%Break even: 57.00%
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Calcium Bromide

Calcium bromide is the calcium salt of hydrobromic acid with the chemical formula of CaBr2. It is concentrated hygroscopic powder which will absorb water from the air. Calcium Bromide Powder dissolves in water and other brines, yield completion work over and packer fluids of densities upto 2.3 gm/ml (19.2 lb/gal).Calcium bromide is used as a component of drilling and completion fluids which are used to maximize the productivity of an oil well, to minimize site erosion of the well, and to aid in the shutdown of the well. The bromine derivatives market is pegged to be a high value market.The global bromine market was USD 2.47 billion in 2016 and is projected to reach USD 3.96 billion by 2022, at a CAGR of 8.4% between 2017 and 2022.This facilitates the development of new technologies and ensures a high quality product. Few Indian major players are as under • Agrocel Industries Pvt. Ltd. • ChemconSpeciality Chemicals Pvt. Ltd. • Maruti Organics Ltd. • ModyChemiPharma Ltd.
Plant capacity: Calcium Bromide (Liquid 50%): 10000 MT/AnnumPlant & machinery: Rs. 247 lakhs
Working capital: -T.C.I: Cost of Project: Rs. 1337lakhs
Return: 29.00%Break even: 51.00%
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Calcium Bromide Manufacturing Industry

Calcium Bromide Manufacturing Industry. Calcium Bromide (CaBr2) Factory. Bromine Compounds Business Ideas & Opportunities Calcium bromide (CaBr2) is a single salt clear brine fluid of 14.2 lbs/gal density. Calcium Bromide is a chemical compound that is used along with calcium chloride in well completion operations to make the solids free from brines. After the process the solids should have densities lying in the range of 11.5 to 14.5 ppg. Brine is usually produced along with oil and it provides osmotic wellbore stability while drilling water-sensitive shale zones. Calcium bromide is an odorless white powder that reacts readily with water. It is the calcium salt of hydrobromic acid, a strong acid used to generate other compounds with industrial uses. Financial markets now track calcium bromide and related compounds due to their importance in a number of different sectors. Uses and Applications: Calcium bromide is used in two main applications – clear brine fluids in oil & gas and as an oxidizer for mercury emissions control. In upstream oil and gas, calcium bromide is used to control wellbore pressures during completion and workover operations. Calcium Bromide powder, dissolved in water or other brines, yields completion, workover and packer fluids with a maximum density of 15.3 ppg/1.83 s.g. It is useful in adjusting the density of fresh or recycled workover, completion and packer brines. Calcium bromide has the following features/benefits: • It is non-damaging to the formation, • It is thermally and chemically stable, • It can be blended with other solutions containing bromides and chlorides, and • It contains 52 percent by weight calcium bromide in solution. • Calcium bromide can be used with calcium chloride brines and dry calcium chloride to formulate non-damaging fluids of densities from 11.7 lbs/gal to 15.1 lbs/gal. Market Outlook Global Clear Brine Fluids (Calcium Bromide) Market Growing drilling activities across China, Egypt, Russia, Gulf of Mexico and the U.S. on account of growing energy demand is expected to remain a key driving factor for global clear brine fluids market. Asia Pacific accounted for 10% of total deep water drilling investment made in 2012. Increasing demand for clear brine fluids such as Calcium Bromide, Zinc Bromide as an alternative to conventional drilling fluids is expected to benefit the global market. The rapid growth of the clear brine fluids segment is attributed to the growing demand for oil & gas drilling activities and workover operations. In the oil & gas industry, clear brine fluids are specially used to control formation pressure as well as lessen damage in oil reservoirs. Calcium bromide, a salt of bromine, which is part of clear brine fluids, is also used for mercury emission control at coal fired power plants. Thus, the growing consumption of clear brine fluids in the above mentioned applications drives their market globally. Bromine Derivative Bromine derivatives are mainly categorized into two segments, inorganic bromine derivative and organic bromine derivatives. Inorganic bromine derivatives mainly includes Calcium Bromide, Potassium Bromide & Sodium Bromide. Organic bromine derivatives includes Ethylene dibromide, Methyl Bromide, Hydrobromic Acid (Hydrogen Bromide), Tetrabromobisphenol A, Decabromodiphenyl Oxide and Octabromodiphenyl oxide. The rising use of brine fluids derived from zinc bromide, sodium bromide and calcium bromide in the homogenous extraction of oil and gas will continue to drive the market growth to a higher extent. Tetrabromobisphenol A, commonly known as TBBPA, is expected to be the most consumed derivative, and accounted for 219,640.2 MT in terms of volume in 2016. In terms of application, flame retardants will continue to be the major application segment in the bromine derivatives market. The segment registered a total revenue of US$ 1.7 Bn in 2016. The global bromine derivatives market has witnessed a significant level of developments involving organic and inorganic growth by the leading bromine derivatives manufacturers in the past 3-5 years. The high demand for flame retardant plastics from automotive & consumer electronics industries is expected to propel the demand for bromine derivatives to a significant extent. Also, the present rate of urbanization is expected to boost the demand for various plastic products for buildings that require flame retardants as a mandatory requirement. Tags Calcium Bromide, Bromine Derivatives, Clear Brine Fluids, Clear Brine Fluids (Calcium Bromide), Production of Calcium Bromide, How Calcium Bromide is Manufacturing, Calcium Bromide Manufacturing Process, Production of Bromine Compounds, Calcium Bromide Manufacture, Cabr2, Calcium Bromide Manufacture in India, Calcium Bromide Powder Manufacture, Calcium Bromide Uses, Calcium Bromide Factory, Producing Calcium Bromide, Process for Production of Calcium Bromide, Calcium Bromide Liquid, Calcium Bromide Solution, Calcium Bromide Chemical Compound, Project Report on Calcium Bromide Manufacturing Industry, Detailed Project Report on Calcium Bromide Manufacturing, Project Report on Calcium Bromide Manufacturing, Pre-Investment Feasibility Study on Calcium Bromide Manufacturing, Techno-Economic feasibility study on Calcium Bromide Manufacturing, Feasibility report on Calcium Bromide Manufacturing, Free Project Profile on Calcium Bromide Manufacturing, Project profile on Calcium Bromide Manufacturing, Download free project profile on Calcium Bromide Manufacturing, Clear Brine Fluids Industry, Bromine and Derivatives, Production of Bromine Derivatives, Production of Bromine Compounds, Investment Opportunities in Inorganic Chemical Industry, Profitable Project Opportunities in Chemical Industry, Highly Profitable Chemical Business Ideas, Chemical Business ideas & Opportunities, Chemical Manufacturing Business Ideas, Bromine Compounds
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Return: 1.00%Break even: N/A
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Polylactic Acid (PLA) Production

Polylactic Acid (PLA) Production. A Biodegradable and Bioactive Polyester. Most Common Bioplastic in Today’s Use Polylactic Acid (PLA) Polylactic acid or polyactide (PLA) is a biodegradable and bioactive polyester made up of lactic acid building blocks. Polylactic acid (PLA) is at present one of the most promising biodegradable polymers (biopolymers) and has been the subject of abundant literature over the last decade. PLA can be processed with a large number of techniques and is commercially available (large-scale production) in a wide range of grades. It is relatively cheap and has some remarkable properties, which make it suitable for different applications. Polylactic acid (PLA) is the most common bioplastic in use today. First, corn or other raw materials are fermented to produce lactic acid, which is then polymerized to make polylactic acid (PLA). Bioplastics are expected to make major contributions to environmental protection, because they reduce CO2 and because they are biodegradable. The range of applications for bioplastics is growing, from materials used in automobile interiors to packaging for foods and cosmetics, to agricultural sheeting, to household appliances. Application: PLA is biocompatible and thus suitable for medical use, for instance in absorbable suture threads. PLA is also one of the few plastics that are suitable for 3D printing. PLA (polylactic acid) is adapted to classical processing equipments and allows the manufacturing of food contact packagings, bottles for cosmetics application, textile fibers etc. Early applications of high-density PLA were mostly limited to biomedical areas due to its ability to be safely absorbed biologically. Over the past decades, the development of economical production methods and a rising environmental consciousness in consumers lead to the widespread use of PLA as packaging material for consumer goods. Market Outlook Polylactic Acid (PLA) Market is expected to garner $5.2 billion by 2020, registering a CAGR of 19.5% during the forecast period 2013-2020. Polylactic acid (PLA) is a bio-degradable thermoplastic aliphatic polymer produced from lactic acid using various crops like corn, sugarcane, tapioca etc. as a raw material. Increasing consumer awareness, government incentives and easy availability of raw materials are the major factors driving market growth. However, the cost of PLA is comparatively higher than synthetic plastics, thus becoming a primary restraining factor for the market growth. In terms of volume consumption Polylactic acid accounts for highest consumed bio plastic. Government is taking initiatives, providing subsidies and support for increasing usage of bio degradable products. Pollution control and environment safety are the major reasons why more and more stakeholders are turning towards bio plastic usage rather than conventional plastic synthesised from petroleum. Technological advancement, technological transfer from developed countries and high consumer demand in developing countries are responsible for upcoming new set ups in packaging, textiles and electronics industries. These industries’ demand for Polylactic acid is the key market growth driver in developing countries. Increasing usage in creams, shampoos, and body care products as it enhances skin lightening effects, improves collagen and elastin synthesis, accelerates exfoliation and cell renewal is expected to propel industry expansion over the forecast period. Rising demand for personal care products, owing to the introduction of sophisticated products along with the formulation development for a particular consumer group is expected to create new growth avenues for the lactic acid market. There are different types of packaging available in the market such as metal packaging, rigid packaging, flexible packaging, glass packaging, cardboard, and paper packaging. Some common objectives of packaging are physical protection, barrier protection, containment or agglomeration, marketing, security, and convenience. The key driver responsible for the growth of the market is the increasing demand for plastics in packaging from the developing countries such as China and India. The countries like Brazil, India, China, and Russia (BRIC) are global leaders in the Packaging industry with a total 30% of the market share. The Polylactic acid Market is segmented based on product form which is further sub-divided into films and sheets, coatings, and fibers; and also on the basis of the application which is again sub-divided into packaging, catering, technical material, consumer goods, agriculture, construction materials and others. Packaging is the main application of PLA since almost 46% of PLA is consumed for manufacturing packaging materials. Packaging material again has two categories, film packaging, and bottle packaging. In this category, most of the PLA is used for making of plastic bags. Around 19000 tons i.e. 18% of total PLA is used for making plastic bottles. The major players in global Polylactic acid production market are collaborating in order to provide innovative solutions to meet the specific demand for Polylactic acid. Most of European and American firms are taking initiatives via technology and expertise transfer to increase the production of Polylactic acid in Asia pacific market, which is highest growing market. Indian Scenario: Poly lactic acid is not presently produced in India. Tags #Polylactic_Acid_Production, #Poly_Lactic_Acid_Production_Pdf, #How_to_Make Polylactic_Acid, #Poly_Lactic_Acid_Production_in_India, #Polylactic_Acid Properties_and_Uses, Polylactic Acid Manufacture, #PLA_Manufacturing, Process for Producing Polylactic Acid, #Commercial_Production_of_PLA, #Polylactic_Acid_Manufacturing_Plant, Polylactic Acid Industry, Polylactic Acid (PLA) Industry, Production Process for Polylactic Acid (PLA), Production of Polylactic Acid, Poly (Lactic Acid), Poly (Lactic Acid) or Polylactic Acid or Polylactide (PLA), #Project_Report_on_Polylactic_Acid_Manufacturing, Industry, #Detailed_Project_Report_on_Polylactic_Acid_Production, Project Report on Polylactic Acid Production, Pre-Investment Feasibility Study on Polylactic Acid Production, #Techno_Economic_feasibility_study_on_Polylactic_Acid_Production, Feasibility report on Polylactic Acid Production, Free Project Profile on Polylactic Acid Production, Project profile on Polylactic Acid Manufacturing, Polylactic Acid Production, A Biodegradable and Bioactive Polyester, Most Common Bioplastic in Today’s Use
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Potassium Iodate Manufacturing Industry

Potassium Iodate Manufacturing Industry. Chemical Business Ideas and Opportunities Global Potassium Iodate market size will increase to Million US$ by 2025 Potassium iodate is a chemical compound majorly used in the food and healthcare industry. It is an oxidizing agent and catches fire if it comes in contact with reducing agents or combustible materials. It can be prepared by adding iodine to a hot, concentrated solution of potassium hydroxide. It can also be prepared by reacting a potassium-containing base such as potassium hydroxide with iodic acid. Potassium iodate is used as an additive to raise herbage iodine levels. Potassium iodate is used for iodination of table salt to prevent iodine deficiency in humans. Iodine is an essential trace element; the thyroid hormones thyroxine and triiodothyronine contain iodine. In areas where there is little iodine; iodine deficiency gives rise to goiter, which results in developmental delays and other health problems. In some regions, potassium iodate is used as a source for dietary iodine. It is a major ingredient in some baby formula milk. Potassium iodate is also used in the food industry for various purposes. Uses: • Potassium iodate may be used to protect against accumulation of radioactive iodine in the thyroid by saturating the body with a stable source of iodine prior to exposure. • Like potassium bromate, potassium iodate is occasionally used as a maturing agent in baking. • It is used for Iodization of edible Salt. • It is used in analysis or testing of Zinc and arsenic. • It is used in Iodometry in medicine manufacturing. • It is used as a reagent. • It is used as feed additives. • It is used in foods as maturing agent and dough Conditioner. Market Outlook Global Potassium Iodate (CAS 7758-05-6) market size will increase to Million US$ by 2025, from Million US$ in 2017, at a CAGR of during the forecast period. In this study, 2017 has been considered as the base year and 2018 to 2025 as the forecast period to estimate the market size for Potassium Iodate (CAS 7758-05-6). United States is the largest Manufacturer of Potassium Iodate Market and consumption region in the world, Europe also play important roles in global Potassium Iodate market while China is fastest growing region. The growing demand for potassium iodate in agriculture is expected to boost the market within the forecast period. The demand for potassium iodate has experienced a continuous rise in the past few years and this trend is expected to continue in the next few years as well. The major reason for this is the diverse range of applications of potassium iodate. It is used in agriculture, water treatment, food preservation, medical, industrial and fire service applications among others. It is used in agriculture as a stable form of iodine, for animal to correct iodine deficiency and prevent various animal diseases, in food industry for iodisation of table salt and in pharmaceuticals it is used for the production of disinfectants, antiseptics and deodorants. Owing to such a wide range of applications, potassium iodate is widely used in several end-user industries. The growing demand for these application products from is anticipated to drive the demand for iodate in the next few years. In addition, potassium iodate has the disadvantage of being a stronger intestinal irritant. These parameters may act as restraining factors for the growth of the potassium iodate market in the near future. The continual and rapid growth in the industries in these regions is expected to drive the demand for potassium iodate in the production of various applications products. Moreover, developed markets such as the U.S. and European economies are steadily recovering from the economic downturn and are anticipated to generate significant demand for potassium iodate in the coming years. Due to the positive outlook across the world, the global potassium iodate is predicted to record a strong growth in the near future. Tags #Potassium_Iodate, #Preparation_of_Potassium_Iodate, #Potassium_Iodate, Kio3 or Iko3, #Potassium_Iodate_Formula, Potassium Iodate Uses, Production of Potassium Iodate, Producing Potassium Iodate, #Potassium_Iodate_Manufacturing_Plant, Potassium Iodate Plant, #Potassium_Iodate_Production, Potassium Iodide Manufacture, How to Make Potassium Iodate, Chemical Industry, Manufacture of Potassium Iodate, Project Report on Potassium Iodate manufacturing Industry, #Detailed_Project_Report_on_Potassium_Iodate_Manufacturing_Plant, #Project_Report_on_Potassium_Iodate_Manufacturing_Plant, Potassium Iodate manufacturing Industry, Pre-Investment Feasibility Study on Potassium Iodate Production, Techno-Economic feasibility study on Potassium Iodate Production, #Feasibility_report_on_Potassium_Iodate_Production, #Free_Project_Profile_on_Potassium_Iodate_Manufacturing_Plant, Project profile on Potassium Iodate Production, Download free project profile on Potassium Iodate Production, Highly Profitable Chemical Business Ideas, Chemical Business Opportunities, Profitable Chemical Business Ideas, Chemical Business Ideas, Lucrative Chemical Business Ideas, Which Chemical Business is Most Profitable, Chemical Business Ideas in India, How to Start Small Scale Chemical Business, Highly Demanded Chemicals In India, Chemical Manufacturing Business Ideas, Chemical Industry, Selected Chemical Industries, Chemical Manufacturing Industry, Chemical Production, Production of Chemicals, Chemical Manufacturing Sector, Chemical Manufacturing Process, Commercial Production of Chemicals
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