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Pharmaceutical, Drugs, Fine Chemicals, Bulk Drug Intermediates, Pharmaceutical Drugs, Pharma Drug Ingredients Intermediates, Drug Intermediates, Speciality Chemicals, Raw Materials, Fine and Specialty Chemicals Intermediates, Pharmaceutical Bulk Drugs

Indian drugs and pharmaceutical industry has advanced perceptibly and is getting ready  for the new patent regime and  to withstand global competition, which is expected to be unleashed by new winds of liberalisation - a new era of liberalisation - much different from what was ushered in since the conclusion of the Uruguay Round and the establishment of the World Trade Organisation.

The industry has been expanding at annual rates ranging between 8 to 10% (against global growth rate of 6%).  According to a study  by McKinsey, Vision 2010, the domestic pharmaceutical industry could attain a size of  $25 billion (Rs 1200 billion) by 2010 by focusing on two areas: first, innovation-led research, development and new drug discoveries; and second, information technology-led remote sales and marketing.  The market for bulk drugs and formulations had increased from about Rs 103  billion in 1990-91 to an estimated Rs 435  billion at the end of 2003-04.  The prices of Indian essential drugs are among the lowest in the world. Apart from strides made by the industry in the last half-a-century, lower production cost due to reverse engineering and low R&D outlays has been a major factor in keeping the prices under check.

The global pharmaceutical industry is estimated at $ 300 billion, not all representing cross-border trade.  India's measly share of $ 1.5 billion in global trade represents an untapped potential. Under the regime of economic liberalisation underway since early 1990s, the drugs and pharmaceutical sector witnessed initiatives at fresh investment in the sector. Nearly 1735 investment proposals of the order of around Rs 166  billion were initiated. The foreign collaboration proposals approved numbered around 425 with a foreign direct investment  (FDI) component of over Rs 25 billion. The pharmaceuticals have figured high on the export front. In 2001-02,  the sector was  estimated to have registered a growth of 17.6% at around Rs 20.3 billion.

In the wake of economic liberalisation, many a  overseas players  returned or contemplated returning to India. These include Ivox Corp (USA),  Taro Pharmaceuticals (Israel) and Merck (USA). These are out either to set shop or looking for acquisitions in India. Hexal AG of Germany has established a liaison office in India. MILLIONCs like Rocha, Bayer, Aventis and Chiron are making India a regional hub for bulk drugs. 

The Export Import Bank of India (Exim Bank) had  doubled its corpus for the pharmaceutical industry to Rs 2 billion as a result of increased activity in the industry, especially in the external sector. The fund is used for the development and commercialisation of the new products and applications, significant improvement in the existing design of  products, setting up and expansion of pilot plants, research studies for obtaining regulatory approvals, cost of filing and managing international patent and R&D Centres.

It needs, however, to be recognised that the presence  of small scale manufacturers has resulted, on the one hand,  in a highly fragmented industry, and on the other, it has made it possible to supply a near 100,000 drugs including vitamins, antibiotics, antibacterials, cardio-vascular and other essential drugs. These account for nearly 37% of the market.  While each of about 80% of the manufacturers has annual sales below a billion rupees, top ten companies are known to control over 30% of the market. At present there are more than 20,000 players in the country.

The major players are: Alembic Chem, Aurobindo Pharma, Cipla, Dr. Reddy's, FDC, IPCA Labs, Jagsonpal Pharma, J.B. Chemicals, Kopran, Lupin Labs, Lyka Labs, Morepan Labs, Nicholas Piramal, Ranbaxy Labs, Sun Pharma, Themis Medicare, GlaxoSmithkline, Astrazeneca, Aventis, E-Merck, Torrent Pharma, TTK Healthcare, Unichem Labs,  Wockhardt  and  Zandu Pharma.  Until recently, only a few of the Indian companies had gone into any serious R&D activity. Much of the effort was directed to affordable analogue research. The R&D level in the country is low with even well-placed pharma companies spending less than 2% of turnover on R&D. MILLIONCs are known to contribute as much as 10% or more of their turnover to R&D.  While India is very strong in process chemistry, biology and applied bio-chemistry, initiatives at all levels - government, academia, private sector - involving heavy financial outlays, are called for.

Ayurveda continues to remain a preferred system of medicine for a vast segment of population in the country. The country has over 400,000 registered practitioners of the Indian system of medicine. Around 170 institutes properly affiliated to various universities impart under- or post-graduate courses each year. These institutes churn out some 5,500 fresh practitioners. The practitioners are supported by 12,000 dispensaries and 2,100 beds available for ayurveda treatment countrywide. The emerging biotechnology sector has already taken by storm and is offering sops to states to make these as the thriving ground for the highly potential segment in medicare.

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Cenosphere Processing Plant

Cenosphere Processing Plant. Cenosphere Separation from Fly Ash. Production of Cenospheres from Coal Fly Ash. Cenospheres are inert, light weight and hollow spheres particularly made of alumina or silica and filled with inert gases or air. They are typically manufactured as a by-product of coal combustion in the thermal power plants. Cenospheres are hollow, low-density, spherical, and free-flowing aluminosilicate microspheres that are produced as a by-product of coal ignition at the coal-fired power plants. It is a rich-in-ceramic industrial waste formed at the time of coal combustion in the thermal power plants. Inside the each sphere there is a near vacuum that produces good properties of thermal and acoustic insulation making a product ideal for automotive acoustic insulation applications where the mass is a major factor to be considered. These spheres are used globally in several automotive application including tyres, brake linings, friction linings, dashboard, and clutch facings. The broad range of usage has increased the demand of cenosphere suppliers India in the industry. Cenospheres, the high strength, small sized, lightweight, non-porous, free flowing, hollow ceramic spheres produced in coal fired thermal power plants during the burning of lignite or coal at very elevated temperatures, find extensive usage across a number of industries owing to their physical properties. Cenospheres find usage as fillers in a number of applications, replacing resins and minerals and imparting diverse benefits such as reduced shrinkage, improved level of thermal insulation, weight reduction, improved level of fire resistance, and easier application. Uses of Cenosphere: Cenospheres in Paints and Coatings There are a great many uses for cenospheres in the paint and industrial coating industry, due to the additional qualities they provide. For example, cenospheres are often used in coatings to control infrared radiation, giving those coatings an advantage over ones that merely attempt to limit thermal conductivity. Cenospheres in Syntactic Foams Cenospheres are often used to make ‘syntactic foams’. These are specialized solids which use cenospheres as a filler to provide any number of advantages, from lower cost, to added strength, sound proofing, buoyancy and thermal protection. Cenospheres in Plastics and Polymers Cenospheres also have a use in the manufacture of plastics and polymers, as their re-formable shape or strength helps to avoid shrinkage in thermoplastics and thermosetting plastics. Cenospheres in Pharmaceuticals Cenospheres have been used in the pharmaceutical industry for many years, as the small balls can act as a near-perfect transport device when coated with drugs. Cenospheres in Advanced Industries Cenospheres are also being used in the development of metal matrix composites (MMC), a variety of materials that attempts to combine the high energy absorption, impact resistance, and low density of the spheres with the qualities of other substances. Market Outlook Cenospheres are providing emerging opportunities along with the future effects of major drivers and challenges that support the managers to make cost-effective decisions in favor of the business. The increasing demand from end-use industries including refractory, construction, paints and coatings, and oil and gas, which is expected to take the market to the next level in the near future. However, restricted sources of raw material and deficiency of quality control across developing countries are key factors that may restrain the growth of the industry. The global cenospheres market was valued at USD 346.8 Million in 2016 and is projected to reach USD 689.2 Million by 2022, at a CAGR of 12.16% from 2017 to 2022. The growing demand from end-use industries, such as paints & coatings, refractory, construction, and oil & gas is expected to drive the market in near future. However, limited sources of raw material and lack of quality control across emerging countries are major factors that may restrain the growth of the market. The Gray Cenospheres segment is estimated to experience the highest growth in the upcoming years because of its wide uses across the industrial segment. The demand will increase also because the gray cenosphere is produced more frequently as compared to the white cenosphere in fly ash. The demand for gray cenosphere suppliers India is rising because they deliver quality material which contains a low content of alumina and is high in silica and iron content that is used in a number of applications such as plastics, concretes, coatings, resins, bricks, and rubbers. The gray cenospheres segment is expected to witness the highest growth from 2017 to 2022, as they are widely used across industries. Gray cenospheres occur more frequently than white cenospheres in fly ash. These cenospheres have low content of alumina and high content of silica and iron. Gray cenospheres are used in various applications, such as concretes, plastics, resins, coatings, bricks, and rubbers. North America is projected to be the fastest-growing cenospheres market during the forecast period, due to the growing oil & gas and automotive industries in the region. The market in Middle East & Africa, Asia-Pacific, and South America is also expected to witness significant growth, due to growing demand for cenospheres from the oil & gas and construction industries in these regions. Industries such as oil and gas, building, plastics, aerospace, automotive, and surface coating continue to be some of the leading consumers of cenospheres and new application areas are being devised at an encouraging pace. Owing to their natural properties, cenospheres can be used in forms such as dry, wet, or slurry. Owing to their inert nature, cenospheres are not affected by acids, alkalis, water, or solvents. Hence, cenospheres have an impressive reusability quotient. Cenospheres are nearly 30% lighter than conventionally used resins and nearly 75% lighter than most minerals used as fillers or extenders. The main application of cenospheres as bulk fillers in all the end-user industries is expected to act as catalysts for the growth of the overall cenospheres market over the forecast period. Moreover, as cenospheres are small in size and have great compressive strength they are used as a structural lightweight filler, thus the cenospheres market is expected to see rapid growth in all developed and developing countries in the future. The cenospheres market can be segmented as: • Automotive • Construction • Oil & Gas • Paints & Coating • Others (Refractory, Bulk Fillers, Etc.) Cenospheres find a wide range of applications in the construction, oil & gas and infrastructure industry and are used in commercial, industrial, residential and infrastructure construction projects. The growing construction industry output is expected to be one of the most significant factors for increased demand of cenospheres in the global market. Rapid urbanisation is leading to new construction activities, which is further expected to boost the demand of cenospheres in building and construction tasks. Moreover, growing urbanisation is expected to contribute to the growth of the global cenospheres market at a CAGR close to or below the global GDP growth over the forecast period. The market is becoming healthier for competitions, which is a positive factor influencing the cenospheres manufacturers. The growth of technology and automation in the manufacturing and supply of all automobiles has further increased its attractiveness among the consumers and all end-use industries. Prominent market players are trying to develop strong, long-lasting and lightweight cenospheres for all the vehicles in the automotive industry, which can be used efficiently and sustain load depending on the vehicle type. The advancement in the material science technologies in the manufacturing industries have enabled them to use new invented materials, such as alloys of steel and aluminium, which make the cenospheres of the vehicles stronger and durable under extreme load conditions. Tags Cenosphere Processing, Cenosphere Processing Plant, Cenospheres from Fly Ash, Cenosphere Processing Project, Fly Ash to Cenospheres Process, Cenosphere Manufacturing Process, Cenosphere Separation from Fly Ash, Cenosphere Manufacture, Production of Cenospheres, Cost Of Manufacturing Plant for Cenosphere, Production of Cenospheres from Fly Ash, Separation of Cenosphere from Fly Ash, Cenosphere Manufacturing, Lightweight Cenosphere Processing, Cenosphere Production, Cenosphere Manufacturing Plant, Cenosphere Manufacturing Company, Cenospheres Industry, Cenosphere Processing project ideas, Projects on Small Scale Industries, Small scale industries projects ideas, Cenosphere Processing Based Small Scale Industries Projects, Project profile on small scale industries, How to Start Cenosphere Processing Industry in India, Cenosphere Processing Projects, New project profile on Cenosphere Processing industries, Project Report on Cenosphere Processing Industry, Detailed Project Report on Cenosphere Processing, Project Report on Cenosphere Processing, Pre-Investment Feasibility Study on Cenosphere Processing, Techno-Economic feasibility study on Cenosphere Processing, Feasibility report on Cenosphere Processing, Free Project Profile on Cenosphere Processing, Project profile on Cenosphere Processing, Download free project profile on Cenosphere Processing, Industrial Project Report
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Return: 1.00%Break even: N/A
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Production of Crosslinked Sodium Carboxymethyl Cellulose

Production of Crosslinked Sodium Carboxymethyl Cellulose. Cross-Linked CMC Manufacturing Industry. Cross-Linked Sodium Carboxymethyl Cellulose Manufacturing Project. Croscarmellose Sodium or Modified Cellulose Gum Cross-linked sodium carboxymethyl cellulose is also known as croscarmellose sodium or modified cellulose gum. Cross-linked sodium carboxymethyl cellulose is semi synthetic polysaccharide that consists of glucose monomer chains which form a major component of plant cell walls and fibres. Crosslinked sodium carboxymethylcellulose (CMC), croscarmellose, is prepared by the reaction of Na-CMC with acids. Croscarmellose is used as dietary supplements, sweetener tablets, and medicines. The chapter provides nutritional properties of crosslinked sodium CMC. Cross-linked sodium carboxymethyl cellulose is manufactured by acidifying an aqueous suspension of sodium carboxymethyl cellulose and heating the suspension to achieve cross-linking. The product is then washed and dried. It is also produced during the manufacture of sodium carboxymethyl cellulose by lowering the pH and heating to cause cross-linking. Cross-linked sodium carboxymethyl cellulose is used in tablets of table-top sweeteners and dietary food supplements, as it facilitates disintegration in aqueous solutions, with a maximum level of use of 30 g/kg. It is also widely used as an excipient in pharmaceutical applications. Uses: Cross-linked sodium carboxymethyl cellulose is used in tablets of table-top sweeteners and dietary food supplements, as it facilitates disintegration in aqueous solutions, with a maximum level of use of 30 g/kg. It is also widely used as an excipient in pharmaceutical applications. Cross-linked sodium carboxymethyl cellulose is used in food as an emulsifier to maintain a uniform mixture between two or more unblendablemixutres. A mixture of oil and water. Used in many products including pasteurised products, ice-creams, cheeses, dairy products, batters, baked emulsions and spreads, breakfast cereals, and bakery goods. Cross-linked CMC hydrogel proves to be an ideal agent for soft tissue augmentation with regard to safety and ease of application. It did not cause infection, extrusion, migration, or adverse reactions in the patients who have been followed for two years. Delayed aesthetic results on facial wrinkles were very satisfactory. Cross-linked sodium carboxymethyl cellulose was originally developed as a tablet disintegrant for medicinal products and dietary food supplements, allowing dissolution at low use levels (0.25-3.0%). It has an official monograph in the European Pharmacopoeia. In the USA, it is used as a disintegrant in prescription drugs and has generally recognized as safe (GRAS) status for use in dietary supplements. Few Indian major players are as under • Hexone Pharmaceuticals Ltd. • Hiranya Chemicals Pvt. Ltd. • Maple Biotech Pvt. Ltd. • Perry Impex Ltd. • Rishi Trading Co. Ltd. • Shreejal Info Hubs Ltd. Market Outlook The growth of processed food industry, increasing pharmaceutical and cosmetics production, and the growing oil drilling activities are the major factors driving the growth of CMC market. The increasing disposable income in emerging economies such as China, India, Mexico, Africa and South America has led to increasing consumption of processed food. CMC is widely used as binder, thickener, bulking agent, and suspension agent in several food and beverages applications. The segment accounted for a share of 31.0% of the global CMC market, in terms of volume consumed in 2014. The major factor restraining the CMC market growth is the emergence of substitutes in various applications. Guar gum can substitute in CMC in majority of the applications. The organic/green label associated with guar gum is an added advantage for the product to replace CMC in several applications. The global carboxymethyl cellulose (CMC) market was estimated at $1,151.7 Million in 2014 and is projected to register a CAGR of 4.2% between 2015 and 2020. Carboxymethyl cellulose (CMC) or cellulose gum is a cellulose derivative with carboxymethyl group in its chain. CMC is physiologically inert, chemically stable, odorless and tasteless substance which safe for health and environment. The other properties of CMC include high viscosity, non-toxic nature, and hypoallergenic. Major raw materials used in manufacture of carboxymethyl cellulose (CMC) include plant derived cellulose, caustic soda, and monochloroacetic acid. CMC is widely used as thickener, stabilizer, binder and dispersant in variety of applications such as food and beverages, pharmaceutical and cosmetics, detergents, oil and gas, paper processing and others. Carboxymethyl cellulose can be defined as an additive used for improving product and processing characteristics in various fields, such as pharmaceuticals and food processing industry. Carboxymethyl cellulose is often used in forms such as sodium salt, sodium carboxymethyl cellulose. Sodium carboxymethyl cellulose is also used as a viscosity modifier or thickener, and to stabilize emulsions in various products including consumer goods and other major end-use industries. Geographically Asia-Pacific dominated sodium carboxymethyl cellulose market driven in terms of production and consumption driven by higher demand into major end use industry in the region. Asia-Pacific was followed by North America and Europe as second and third largest market for sodium carboxymethyl cellulose market. Asia Pacific is projected to have fastest growth, owing to rapidly increasing and expanding industrial base leading to higher demand of sodium carboxymethyl cellulose. Carboxymethyl cellulose is also popular for its excellent water retaining capacity amongst the major end-use industries apart from this other properties which makes sodium carboxymethyl cellulose more popular are resistant to oils, greases, and organic solvents. Sodium carboxymethyl cellulose is synthesized by the reaction of chloroacetic acid with cellulose. Tags Cross-Linked CMC Manufacturing Industry, Croscarmellose Sodium or Modified Cellulose Gum, Cross-Linked Sodium Carboxymethyl Cellulose, Uses of Cross-Linked Sodium Carboxymethyl Cellulose, Application of Cross-Linked Sodium Carboxymethyl Cellulose, Process for Producing Sodium Carboxymethylcellulose, Production of Croscarmellose Sodium, Production of Crosslinked Sodium Carboxymethyl Cellulose, Cross-Linked CMC Manufacturing Industry, Cross-Linked Sodium Carboxymethyl Cellulose Manufacturing Project, Crosslinked Sodium-CMC, Preparing Cross-Linked Sodium Carboxymethyl Cellulose, Use of Cross-Linked Carboxymethyl Cellulose for Soft-Tissue Augmentation, Cross-Linked Sodium Carboxymethyl Cellulose Manufacturing Project Ideas, Production of Modified Cellulose Gum, Projects on Small Scale Industries, Small scale industries projects ideas, Cross-linked Sodium Carboxymethyl Cellulose Manufacturing Based Small Scale Industries Projects, Project profile on small scale industries, Cross-linked Sodium Carboxymethyl Cellulose Projects, New project profile on Cross-linked Sodium Carboxymethyl Cellulose Production, Project Report on Cross-linked Sodium Carboxymethyl Cellulose, Detailed Project Report on Cross-linked Sodium Carboxymethyl Cellulose Production, Pre-Investment Feasibility Study on Cross-linked Sodium Carboxymethyl Cellulose Production, Techno-Economic feasibility study on Cross-linked Sodium Carboxymethyl Cellulose Production, Feasibility report on Cross-linked Sodium Carboxymethyl Cellulose, Free Project Profile on Cross-linked Sodium Carboxymethyl Cellulose Manufacturing Business, Project profile on Cross-linked Sodium Carboxymethyl Cellulose, Download free project profile on Cross-linked Sodium Carboxymethyl Cellulose, Industrial Project Report, Project consultant, Project consultancy, Business consultancy, Business consultant, Project identification and selection, Preparation of Project Profiles, Startup, Business guidance, Business guidance to clients, Startup Project for Cross-linked Sodium Carboxymethyl Cellulose Production
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Return: 1.00%Break even: N/A
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Production of Intravenous Sugar Solution

Production of Intravenous Sugar Solution (Dextrose Solution, Glucose Saline, Intravenous Glucose, Saline and Glucose Solution, Intravenous Fluids, I.V. Fluid, Dextrose Saline, Intravenous Dextrose, Saline and Dextrose Fluid, Dextrose Normal Saline Solution) Intravenous sugar solution, also known as dextrose solution, is a mixture of dextrose (glucose) and water. It is used to treat low blood sugar or water loss without electrolyte loss. Water loss without electrolyte loss may occur in fever, hyperthyroidism, high blood calcium, or diabetes insipidus. It is also used in the treatment of high blood potassium, diabetic ketoacidosis, and as part of parenteral nutrition. An intravenous sugar solution is a solution with a sugar (usually glucose, as known as dextrose, with water as the solvent) used for intravenous therapy, where it may function both as a means of maintaining tissue hydration and a means of parenteral nutrition. ? Market Outlook The global I.V. solutions market was valued at USD 6.9 billion in 2015 and is expected to reach a value of USD 13.79 billion by 2024. Growing incidence rate of chronic diseases, such as cancer, is also fueling the demand for Total Parenteral Nutrition (TPN), which forms a vital part of the treatment. Intravenous nutrition helps sustain strength, maintains hydration levels in patients, and facilitates faster recovery. Cancer prevalence is forecasted to grow by 70% over the next few decades. This poses a colossal growth prospect for the market. Tags Glucose Saline Manufacturing, Glucose Saline Project Report, Saline Water Manufacturing Process, Saline Water Manufacturing Plant, I.V. Fluid Manufacturing, I.V. Fluids Manufacturing Equipment, I.V. Fluids Manufacturing Process, I.V. Fluid Manufacturing Project, Glucose Saline Manufacturing Plant, Saline and Dextrose Fluid (IV Fluid), Saline I.V. Solution Manufacturing Plant, Dextrose Solution, Dextrose Normal Saline Solution, Dextrose Solution Manufacture, Project Report on Dextrose Saline (I.V. Fluids), Intravenous Solutions, Intravenous Fluids, I.V. Solutions Products, Glucose and Glucose Saline (I.V. Fluid) Project Report, Saline Water & Dextrose Solution, I.V. Fluid Production Plant, I.V. Fluid Manufacturing Unit, Intravenous Fluid Production, I V Fluid Plant, Manufacture of Intravenous Fluids/IV Fluids, Preparation of Saline Glucose Solutions, I.V. Fluid Manufacturing For Project, I.V. Fluid and Dialysis Solution, I.V. Fluid Manufacturing Profitable Projects, Project Report on I.V. Fluid, I.V. Fluid Manufacturing Unit in India, I.V. Fluids Manufacture, I.V. Fluids Manufacturing Project, I.V. Fluids Manufacturing Equipment, Manufacturing Plant for I.V. Fluid, I.V. Fluid Manufacturing Business, Production of I.V. Fluid, Intravenous Fluid Manufacturing Plant, How to Start I.V. Fluid Production Business, Report on I.V. Fluid (Intravenous Fluid) Manufacturing, I.V Fluid Production Line, Process for Production of I.V. Fluid, Method of Manufacturing I.V. Fluid, Process for Manufacturing I.V. Fluid, I.V. Fluid Production Line, I.V Fluid Production Process, Profile on Production of I.V. Fluid (Intravenous Fluid), Preparation of I.V. Fluid, Production and Processing I.V. Fluid, Glucose Saline Manufacturing Unit, Project Report on Glucose Saline Manufacturing, Production of Glucose Saline Manufacturing, Business Plan for Manufacturing of Glucose Saline Manufacturing, Intravenous Sugar Solution, Pharmaceutical, Dextrose Solution Manufacturing Project Ideas, Projects on Small Scale Industries, Small Scale Industries Projects Ideas, Glucose Saline Manufacturing Based Small Scale Industries Projects, Project Profile on Small Scale Industries, How to Start Glucose Saline Manufacturing Industry in India, Glucose Saline Manufacturing Projects, New Project Profile on Dextrose Solution Manufacturing Industries, Project Report on Glucose Saline Manufacturing Industry, Detailed Project Report on Glucose Saline Manufacturing, Project Report on Glucose Saline Manufacturing, Pre-Investment Feasibility Study on Dextrose Solution Manufacturing, Techno-Economic Feasibility Study on Glucose Saline Manufacturing, Feasibility Report on Dextrose Solution Manufacturing, Free Project Profile on Glucose Saline Manufacturing, Project Profile on Glucose Saline Manufacturing, Download Free Project Profile on Glucose Saline Manufacturing, Industrial Project Report, Project Consultant, Project Consultancy, NPCS, Niir, Process Technology Books, Business Consultancy, Business Consultant, Project Identification and Selection, Preparation of Project Profiles, Startup, Business Guidance, Business Guidance to Clients, Startup Project for Glucose Saline Manufacturing, Startup Project, Startup Ideas, Project for Startups, Startup Project Plan, Business Start-Up, Business Plan for Startup Business, Great Opportunity for Startup, Small Start-Up Business Project, Project Report for Bank Loan, Project Report for Bank Finance, Project Report Format for Bank Loan in Excel, Excel Format of Project Report and CMA Data, Project Report Bank Loan Excel, Detailed Project Plan Report
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Return: 1.00%Break even: N/A
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Xanthan Gum (Food and Oil Drilling Grade)

Xanthan gum is a polysaccharide with many industrial uses, including as a common food additive. It is an effective thickening agent and stabilizer to prevent ingredients from separating. It can be produced from different simple sugars using a fermentation process, and derives its name from the strain of bacteria used, Xanthomonascampestris. It is a heavily used gum for the industrial uses in the food industry. Its thickening and binding qualities make it a very useful cooking aid food additive in bakery products and dairy uses. ? The global xanthan gum market is expected to expand at a very positive CAGR of 7.7% in terms of revenue, between 2016 and 2024. This revenue is expected to reach as much as US$1.25 bn by the end of 2024. The global xanthan gum market is expected to expand at a CAGR of 7.3% for the above forecast period. Entrepreneurs who invest in this project will be successful. Few Indian major players are as under • Ace Gum Inds. Pvt. Ltd. • Aditya Chemicals Ltd. • Asha Ram & Sons Pvt. Ltd. • Chimique (India) Ltd. • Exemplarr Worldwide Ltd. • Hindustan Gum & Chemicals Ltd.
Plant capacity: Xanthan Gum Food Grade : 500 Kgs/Day Xanthan Gum Oil Grade : 600 Kgs/Day Plant & machinery: 120 Lakhs
Working capital: -T.C.I: Cost of Project: 318 Lakhs
Return: 26.00%Break even: 60.00%
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Production of Sterile Water for Injection

Production of Sterile Water for Injection. WFI (Water for Injection) Manufacturing. Water for Pharmaceutical Purposes. Sterilized Water is water that has been sterilized, to ensure an absence of any bacteria in the water. It is used for mixing infant formula for babies, for people with compromised immune systems, and to dilute or dissolve water soluble drugs for injections. Sterile water is water that has no microorganisms living within it. As it cannot transfer pathogens, it is used mainly in the medical setting. Sterile water, though sometimes distilled, is not the same thing as distilled water. As some microorganisms can survive at high temperatures, simply boiling water may not be enough to sterilize it. Special, but not uncommon, equipment is required if one wishes to sterilize water. This kind of water is free of all microbial life. As sterilized water does not contain the same amount of dissolved salt as the human body, overhydration would occur if a physician used the water as an irrigation fluid during surgery or other invasive medical procedures. The value of sterile water is its ability to act as a solvent in many pharmacological compounds that physicians will eventually inject into patients. The water is also a tool in helping physician’s clean wounds without putting patients at risk for infection. Water that is sterile plays a large role in medical research. In many cases, water is necessary to study microorganisms. Using this water is required in these and other experiments as normal or even distilled water may introduce outside bacteria into the experiment. This contamination would invalidate all test results and put other experiments in the same laboratory at risk. Therefore, sterile water is the only acceptable water for laboratory research. The global intravenous solutions market will grow at a steady CAGR of almost 6% during the forecast period. Intravenous solutions have a complete mix of essential nutrients and help people suffering from conditions like diabetes and cancer to get the required nutrients. These fluids are very effective in treating electrolyte imbalances and replacing lost fluids. Products used in intravenous therapy are highly regulated by governments to ensure quality and constant availability to consumers. A wide variety of products, including antibiotics and medications, are used during intravenous therapy to treat patients. Growing incidence rate of chronic diseases, such as cancer, is also fueling the demand for Total Parenteral Nutrition (TPN), which forms a vital part of the treatment. Intravenous nutrition helps sustain strength, maintains hydration levels in patients, and facilitates faster recovery. Cancer prevalence is forecasted to grow by 70% over the next few decades. This poses a colossal growth prospect for the market. Tags Preparation Process for Water for Injection, Sterile Water for Injection, Production of Water for Injection, Sterilised Water for Injections, Production of Sterile Water for Injection, Manufacturing of Water for Injection, Preparation of Water for Injection, Preparation of Sterile Water for Injection, Pharmaceutical Water, Preparing Sterile Intravenous Products, Preparation of Pharmaceutical Water, Water for Injection in Pharmaceutical Industry, Sterile Pharmaceutical Products, Water for Pharmaceutical Use, How to Make Sterile Water?, Production Plant for Producing Sterile Water, Production of Sterile Water Injections for Pain Relief, Water for Injection for Pharmaceutical and Bio-Pharmaceutical Industries, Sterile Water for Injection Syringes: Highly Customizable, WFI (Water for Injection), Sterile Water Production, Water for Pharmaceutical Purposes, Aqua Ad Iniectabilia, Aqua Ad Injectionem, Production of Water for Injection for Pharmaceutical, Production of WFI, WFI (Water for Injection) production, Intravenous (IV) Solution Manufacturing, Dextrose Saline (I.V.Fluids) Manufacturing Plant, I.V. Fluids Manufacturing Industry, Production of Water for Injection (WFI), Producing Water for Injection (WFI), Pharmaceutical Water, Medical Water, Water for Injection & Purified Water for Pharmaceutical, Projects on Small Scale Industries, Small scale industries projects ideas, Sterile Water Based Small Scale Industries Projects, Project profile on small scale industries, How to Start Sterile Water Production Industry in India, Sterile Water Production Projects, New project profile on Sterile Water Production industries, Project Report on Sterile Water Production Industry, Detailed Project Report on Sterile Water Production, Project Report on Sterile Water Production, Pre-Investment Feasibility Study on Sterile Water Production, Techno-Economic feasibility study on Sterile Water Production, Feasibility report on Sterile Water Production, Free Project Profile on Sterile Water Production, Project profile on Sterile Water Production, Download free project profile on Sterile Water Production, Industrial Project Report, Project consultant, Project consultancy, NPCS, Niir, Process technology books, Business consultancy, Business consultant, Project identification and selection, Preparation of Project Profiles, Startup, Business guidance, Business guidance to clients, Startup Project for Sterile Water Production, Startup Project, Startup ideas, Project for startups, Startup project plan, Business start-up, Business Plan for a Startup Business, Great Opportunity for Startup, Small Start-up Business Project, Project report for bank loan, Project report for bank finance, Project report format for bank loan in excel, Excel Format of Project Report and CMA Data, Project Report Bank Loan Excel, Detailed Project Plan Report
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Return: 1.00%Break even: N/A
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Production of Vitamin C (Ascorbic Acid)

Production of Vitamin C (Ascorbic Acid). L-Ascorbic Acid Manufacturing Business. Vitamin C (also known as ascorbic acid) is abundant in vegetables and fruits. A water-soluble vitamin and powerful antioxidant, it helps the body form and maintain connective tissue, including bones, blood vessels, and skin. Vitamin C is one of the safest and most effective nutrients. It may not be the cure for the common cold (though it's thought to help prevent more serious complications). But the benefits of vitamin C may include protection against immune system deficiencies, cardiovascular disease, prenatal health problems, eye disease, and even skin wrinkling. These include: • Helping to protect cells and keeps them healthy • Maintaining healthy skin, blood vessels, bones and cartilage • Helping with wound healing • Lack of vitamin C can lead to scurvy. Mild deficiencies may occur in infants given unsupplemented cows' milk and in people with poor or very restricted diets. Vitamin c is chemically the simplest of the vitamins and for this reason was among the first to be isolated, characterized, and purified and to have its structure determined. More vitamin C is produced industrially than any other vitamin, or indeed all the other vitamins put together. It is one of the few pure chemical compounds which is taken routinely by human beings in gram quantities (a possible challenger is sugar). It appears to have no harmful effects even in these large amounts and it is a medicine which it is a pleasure to take, especially in the form of fruit or vegetables. Few Indian major players are as under • Manav Drugs • Triveni Interchem Pvt. Ltd. • Estrellas Life Sciences Pvt. Ltd. • Akhil Healthcare Private Limited Market Outlook Vitamin C Market size is mainly driven by strong application scope in cosmetics, pharmaceutical, animal feed, and processed food industries. It is mainly found in fruits, vegetables and used as a dietary supplement. It is used to protect against cardiovascular disease, eye problems, immune system deficiencies, skin wrinkling, and prenatal health issues. Ascorbic acid is water soluble in nature and cannot be stored in body. It is available in tonic, tablet and injection form. It repairs and maintain bones, teeth and form scar tissues, therefore making it an essential dietary supplement. Vitamin C Market is driven due to rising health awareness and need for healthy lifestyle. Increase in health awareness among consumers through social networking websites and campaigns has resulted in higher demand for vitamin supplements including Vitamin C. Ascorbic acid production is hugely dependent on the availability of raw material. The global Ascorbic Acid market is expected to witness moderate growth over the forecast period on account of increasing demand from pharmaceutical industry. The majority of ascorbic acid manufactured is used as an antioxidant. The major end-user industries of ascorbic acid are pharmaceuticals, food & beverages, personal care, and others. The pharmaceutical industry is the largest consumer of ascorbic acid. Vitamin C helps to recycle vitamin E. About one-third of a total production of ascorbic acid is used for vitamin preparations in the pharmaceutical industry. The rest is mainly applied as an additive to food and feed to enhance product quality and stability. Ascorbic acid added to foodstuffs during processing or before packing protects color, aroma, and nutrient content. The usage of ascorbic acid in food & beverages industry is expected to grow at a healthy CAGR during the forecast period. Tags Industrial Production of L-Ascorbic Acid (Vitamin C), Process for Preparation of Vitamin-C, Production of Vitamin C (Ascorbic Acid), Production of Ascorbic Acid, Production of Vitamin C, Commercial Production Of Vitamin C, L-Ascorbic Acid Production, Manufacturing Process of Vitamin C, How Vitamin is Made?, Vitamin Manufacturing Process, Manufacturing Formula for Vitamin C, Vitamin C Manufacturing Plant, Vitamin Manufacturing Plant, Processing on Vitamin C, Pharmaceutical Manufacturing, Vitamin C Dietary Supplement Tablet Production, Pharmaceutical Industry, What is the Manufacturing Process of Vitamin C, How to Make Vitamin C, Vitamin Production Process, Process for Production of Vitamin C, Process for Producing Vitamin C, Vitamin C Production, Industrial Production of Ascorbic Acid, Vitamin C Manufacturing Business for Beginners, Vitamin C Manufacturing Business, Vitamin Production Plant, Production of Ascorbic Acid Industrially, Ascorbic Acid Manufacture in India, Ascorbic Acid manufacture, How to Start Vitamin C Manufacturing Company, What are the benefits of vitamin C?, Vitamin C Manufacturing project ideas, Projects on Small Scale Industries, Small scale industries projects ideas, Ascorbic Acid Manufacturing Based Small Scale Industries Projects, Dietary antioxidants, Food antioxidants, Orthomolecular medicine, Organic acids, Furanones, Dihydrofurans, Project profile on small scale industries, How to Start Vitamin C Manufacturing Industry in India, Vitamin C Manufacturing Projects, New project profile on Ascorbic Acid Manufacturing industries, Project Report on Ascorbic Acid Manufacturing Industry, Detailed Project Report on Vitamin C Manufacturing, Project Report on Ascorbic Acid Manufacturing, Pre-Investment Feasibility Study on Ascorbic Acid Manufacturing, Techno-Economic feasibility study on Ascorbic Acid Manufacturing, Feasibility report on Ascorbic Acid Manufacturing, Free Project Profile on Vitamin C Manufacturing, Project profile on Vitamin C Manufacturing, Download free project profile on Vitamin C Manufacturing, Industrial Project Report on Vitamin C Manufacturing, Ascorbic Acid Manufacturing Project
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Production of Vitamin C (Ascorbic Acid)

Production of Vitamin C (Ascorbic Acid). L-Ascorbic Acid Manufacturing Business. Vitamin C (also known as ascorbic acid) is abundant in vegetables and fruits. A water-soluble vitamin and powerful antioxidant, it helps the body form and maintain connective tissue, including bones, blood vessels, and skin. Vitamin C is one of the safest and most effective nutrients. It may not be the cure for the common cold (though it's thought to help prevent more serious complications). But the benefits of vitamin C may include protection against immune system deficiencies, cardiovascular disease, prenatal health problems, eye disease, and even skin wrinkling. These include: • Helping to protect cells and keeps them healthy • Maintaining healthy skin, blood vessels, bones and cartilage • Helping with wound healing • Lack of vitamin C can lead to scurvy. Mild deficiencies may occur in infants given unsupplemented cows' milk and in people with poor or very restricted diets. Vitamin c is chemically the simplest of the vitamins and for this reason was among the first to be isolated, characterized, and purified and to have its structure determined. More vitamin C is produced industrially than any other vitamin, or indeed all the other vitamins put together. It is one of the few pure chemical compounds which is taken routinely by human beings in gram quantities (a possible challenger is sugar). It appears to have no harmful effects even in these large amounts and it is a medicine which it is a pleasure to take, especially in the form of fruit or vegetables. Few Indian major players are as under • Manav Drugs • Triveni Interchem Pvt. Ltd. • Estrellas Life Sciences Pvt. Ltd. • Akhil Healthcare Private Limited Market Outlook Vitamin C Market size is mainly driven by strong application scope in cosmetics, pharmaceutical, animal feed, and processed food industries. It is mainly found in fruits, vegetables and used as a dietary supplement. It is used to protect against cardiovascular disease, eye problems, immune system deficiencies, skin wrinkling, and prenatal health issues. Ascorbic acid is water soluble in nature and cannot be stored in body. It is available in tonic, tablet and injection form. It repairs and maintain bones, teeth and form scar tissues, therefore making it an essential dietary supplement. Vitamin C Market is driven due to rising health awareness and need for healthy lifestyle. Increase in health awareness among consumers through social networking websites and campaigns has resulted in higher demand for vitamin supplements including Vitamin C. Ascorbic acid production is hugely dependent on the availability of raw material. The global Ascorbic Acid market is expected to witness moderate growth over the forecast period on account of increasing demand from pharmaceutical industry. The majority of ascorbic acid manufactured is used as an antioxidant. The major end-user industries of ascorbic acid are pharmaceuticals, food & beverages, personal care, and others. The pharmaceutical industry is the largest consumer of ascorbic acid. Vitamin C helps to recycle vitamin E. About one-third of a total production of ascorbic acid is used for vitamin preparations in the pharmaceutical industry. The rest is mainly applied as an additive to food and feed to enhance product quality and stability. Ascorbic acid added to foodstuffs during processing or before packing protects color, aroma, and nutrient content. The usage of ascorbic acid in food & beverages industry is expected to grow at a healthy CAGR during the forecast period. Tags Industrial Production of L-Ascorbic Acid (Vitamin C), Process for Preparation of Vitamin-C, Production of Vitamin C (Ascorbic Acid), Production of Ascorbic Acid, Production of Vitamin C, Commercial Production Of Vitamin C, L-Ascorbic Acid Production, Manufacturing Process of Vitamin C, How Vitamin is Made?, Vitamin Manufacturing Process, Manufacturing Formula for Vitamin C, Vitamin C Manufacturing Plant, Vitamin Manufacturing Plant, Processing on Vitamin C, Pharmaceutical Manufacturing, Vitamin C Dietary Supplement Tablet Production, Pharmaceutical Industry, What is the Manufacturing Process of Vitamin C, How to Make Vitamin C, Vitamin Production Process, Process for Production of Vitamin C, Process for Producing Vitamin C, Vitamin C Production, Industrial Production of Ascorbic Acid, Vitamin C Manufacturing Business for Beginners, Vitamin C Manufacturing Business, Vitamin Production Plant, Production of Ascorbic Acid Industrially, Ascorbic Acid Manufacture in India, Ascorbic Acid manufacture, How to Start Vitamin C Manufacturing Company, What are the benefits of vitamin C?, Vitamin C Manufacturing project ideas, Projects on Small Scale Industries, Small scale industries projects ideas, Ascorbic Acid Manufacturing Based Small Scale Industries Projects, Dietary antioxidants, Food antioxidants, Orthomolecular medicine, Organic acids, Furanones, Dihydrofurans, Project profile on small scale industries, How to Start Vitamin C Manufacturing Industry in India, Vitamin C Manufacturing Projects, New project profile on Ascorbic Acid Manufacturing industries, Project Report on Ascorbic Acid Manufacturing Industry, Detailed Project Report on Vitamin C Manufacturing, Project Report on Ascorbic Acid Manufacturing, Pre-Investment Feasibility Study on Ascorbic Acid Manufacturing, Techno-Economic feasibility study on Ascorbic Acid Manufacturing, Feasibility report on Ascorbic Acid Manufacturing, Free Project Profile on Vitamin C Manufacturing, Project profile on Vitamin C Manufacturing, Download free project profile on Vitamin C Manufacturing, Industrial Project Report on Vitamin C Manufacturing, Ascorbic Acid Manufacturing Project
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Profitable Investment Opportunity in Xanthan Gum (Food and Oil Drilling Grade)

Profitable Investment Opportunity in Xanthan Gum (Food and Oil Drilling Grade). Industrial Production of Xanthan Gum Xanthan gum is a polysaccharide, which is manufactured from a wide range of sugars using fermentation process. It is mainly used as a thickener and stabilizer to improve the structural properties of the food products. Owing to these factors, they are used in the heavy end industries such as food & beverages, oil & gas, pharmaceuticals, and others. Xanthan gum is a natural high molecular weight anionic polysaccharide and an important industrial biopolymer manufactured by the process of fermentation. Due to its unique properties, it is used in a variety of applications such as food and beverages, oil and gas, pharmaceuticals, personal care and cosmetics, agrochemicals, pet food, textiles printing, and chemical applications such as adhesives, ceramic glazes, foundry compounds, emulsions, lubricants, paints and coatings, and pesticides. Xanthan gum consists of repeating units of five carbon ring structures (Pentasaccharides), containing glucuronic acid, mannose, and glucose (in molar ratio 2:2:1). Xanthan gum is manufactured by fermentation of sugars such as lactose, sucrose or glucose. After fermentation, the polysaccharide formed is extracted through precipitation from a nutrition/growth medium by adding isopropyl alcohol, drying and then grounding the extract into fine powder. Xanthan gum is formed by adding the powdered polysaccharide into a liquid medium. Uses: • Xanthan gum is a sugar-like compound made by mixing aged (fermented) sugars with a certain kind of bacteria. It is used to make medicine. • Xanthan gum is used for lowering blood sugar and total cholesterol in people with diabetes. It is also used as a laxative. • Xanthan gum is sometimes used as a saliva substitute in people with dry mouth. • In manufacturing, xanthan gum is used as a thickening and stabilizing agent in foods, toothpastes, and medicines. Xanthan gum is also an ingredient in some sustained-release pills. Oil & Gas firms are actively involved in setting up enhanced oil recovery (EOR) methods to improve crude oil & natural gas production from potential exhausting reserves that can propel industry expansion. Rising demand for food & beverages owing to fast growing population and improved customer lifestyle in BRICS nations is predicted to fuel industry growth. Food & beverages segment was evaluated at more than $8.51 trillion for 2004 and crossed $15.1 trillion mark for 2015. Increasing significance of cosmetic items like lotions, denture cleaners and shampoos along with growing consciousness about risks associated with synthetic personal care items are predicted to propel Xanthan gum market globally. Xanthan Gum is the bacterium which secrets polysaccharide which in is Xanthan Gum, which is commonly used as a food thickening agent (salad dressing) and a stabilizer. Xanthan Gum scientific name is Xanthomonas. Xantham Gum is produced by fermenting glucose, sucrose or lactose, followed by precipitation of polysaccharide from a growth medium with isopropyl alchohol, dried and ground into a fine powder. Later, it is added to a liquid medium to form the gum. Change and growth in the food and beverage industry – including the demand for gluten-free products and increased consumption of convenience foods – is helping to expand the use of xanthan gum worldwide. The global market for xanthan gum is expected to top $972 million by 2022. Increasing use of xanthan gum as an emulsion across a wide array of applications including salad dressings, toppings, relishes, sauces, non-fat milk, dairy products, baked and frozen foods coupled with growth of food & beverage industry is anticipated to augment market growth. rowing population, changing lifestyle of consumers and rising number of restaurants and cafes especially in India and China coupled with increasing use of xanthan gum as a low price alternative to guar gum in a wide range of food applications is expected to result in high demand for xanthan gum. Increasing demand for petroleum and petrochemicals is expected to result in increasing use of xanthan gum over the forecast period as it is an important component employed in drilling fluids. Xanthan gum is primarily used to retard drug release in tablets and is compatible with numerous stabilizers and thickeners. Growth in the pharmaceutical industry is likely to propel xanthan gum demand over the next six years. The food and beverage industry has and is likely to continue showing a heavy support for the global xanthan gum market in terms of demand. Moreover, the expansion of the food and beverage industry into a greater variety of convenience foods is expected to boost the global xanthan gum market even further. Another key driver for the global xanthan gum market is the inherent superiority of xanthan gum to other hydrocolloids. However, current restraints experienced by the global xanthan gum market include the reinforced anti-dumping policies by the U.S. and other developed economies on the import of these products from Austria and China, along with the overall mistrust of quality of xanthan gum supplied by China, which is the leading producer in the market. In terms of volume, the global xanthan gum market is expected to expand at a CAGR of 7.3% for the above forecast period. The key end users of the global xanthan gum market include the industries of food and beverage, oil and gas, pharmaceuticals, personal care, and other minor end users such as lab research prospects and agrochemicals. The extremely high use of xanthan gum in the food and beverage industry is spread across the areas of bakery and confectionary, dairy and ice creams, meat and fish, beverages, and sauces and dressings. The increasing population and a growing economically-active population in Asia Pacific is further increasing demand for on-the-go foods. Increasing government investment in healthcare is also boosting pharmaceutical sales across the globe, which is driving the xanthan gums market. A mounting demand for gluten-free foods is also driving the xanthan gum market. Xanthan gum is used in the gluten-free baking process for several products such as cookies, cakes and pancakes, muffins and quick breads, breads, pizza dough, and salad dressings. Among these, xanthan gum is used in large quantities in the preparation of pizza dough. The nutritional characteristic of xanthan gum further increases its acceptability, as it contains carbohydrates and fiber. Tags Xanthan Gum Manufacture, Xanthan Gum Manufacturing Plant, Xanthan Gum Production, Production, Recovery and Applications of Xanthan Gum, Xanthan Production, Industrial Production of Xanthan Gum, Xanthan Gum can be produce by Aerobic Fermentation Process, Production of Xanthan Gum by Fermentation, Fermentation (Industrial) Production of Xanthan Gum, Xanthan Gum Production PPT, Xanthan Gum Production Flow Chart, Xanthan Gum is a polysaccharide, Xanthan Gum Production Process, Xanthan Gum Uses, Xanthan Gum Production, Process for Xanthan Gum Production, Xanthan Gum: Properties, Production, Xanthan Gum Fermentation, Xanthan Gum Production By Xanthomonas Campestris, Xanthan Gum Chemical Properties, Xanthan Gum Manufacturing project ideas, Projects on Small Scale Industries, Small scale industries projects ideas, Xanthan Gum Manufacturing Based Small Scale Industries Projects, Project profile on small scale industries, How to Start Xanthan Gum Manufacturing Industry in India, Xanthan Gum Manufacturing Projects, New project profile on Xanthan Gum Manufacturing industries, Project Report on Xanthan Gum Manufacturing Industry, Detailed Project Report on Xanthan Gum Manufacturing, Project Report on Xanthan Gum Production, Pre-Investment Feasibility Study on Production of Xanthan Gum by Fermentation, Techno-Economic feasibility study on Production of Xanthan Gum by Fermentation, Feasibility report on Production of Xanthan Gum by Fermentation, Free Project Profile on Xanthan Gum Production, Project profile on Production of Xanthan Gum by Fermentation, Download free project profile on Xanthan Gum Production, Startup Project for Xanthan Gum Production
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Liquid Glucose From Broken Rice

Liquid Glucose is usually manufactured by subjecting starch to high temperature in the presence of acid. However, Liquid Glucose of same Dextrose Equivalent can be manufactured by enzymatic conversion but the spectrum of saccharides will differ and so also the properties, in comparison to acid converted Liquid Glucose. Liquid Glucose is an aqueous solution of nutritive saccharide obtained by starch hydrolysis, by using Corn and Rice as raw material, which is purified and concentrated to required solids. It is usually odorless and clear yellow colored viscous liquid sweet syrup which is processed and stored under hygienic conditions. Broken rice is the by-product of rice mill. It has various uses out of which one use is to prepare liquid glucose from broken rice. About 90% of the liquid glucose produced in India is consumed by the confectionery industry. Its preparation of sugar candy. It standard confectionery being about 33%. It is used also in textile printing and in biscuit and tobacco canning. The rest of this is used in leather, textile pharmaceutical and other industries. The domestic demand for liquid glucose had been estimated as 10000 MT/annum of which 7500 tones are used in the confectionery plants and are therefore widely distributed in their crude from. Which facilitates the development of new technologies and ensure a high quality product
Plant capacity: Liquid Glucose: 140 MT/DayPlant & machinery: 1267 lakhs
Working capital: -T.C.I: Cost of Project: Rs 2275 lakhsb
Return: 25.00%Break even: 43.00%
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Ready Mix Coating Powder Used for Coating of Pharmaceuticals Tablets for Regular fill Coating and Functional Film Coating

In pharmaceutical drug delivery of solid oral dosage forms film coatings are frequently applied. The motivation for coating dosage forms range from cosmetic considerations (colour, gloss), improving the stability (light protection, moisture and gas barrier) and making it easier to swallow the tablet. In addition, functional coatings can be used to modify the drug release behaviour from the dosage form. A film coating is a thin polymer-based coat applied to a solid dosage form such as a tablet. The thickness of such a coating is usually between 20-100 µm. The Indian excipient market is expected to grow at the rate of 10–12 percent until 2020. the excipients are priced at 5–7 percent lesser in India v Which facilitates the development of new technologies and ensure a high quality product. Few Indian major players are as under • A D C L Drugs & Chemicals Ltd. • Anmol Drugs & Pharmaceuticals Ltd. • Avinash Drugs Ltd. • Beryl Drugs Ltd. • Bio-Caps India Ltd. • Bio-Ethicals Pharma Ltd. • Biochem Pharmaceutical Inds. Ltd.
Plant capacity: Regular Film Coating Powder: 400 Kgs/Day Functional Fim Coating Powder: 400 Kgs/DayPlant & machinery: Rs 19 lakhs
Working capital: -T.C.I: Cost of Project: Rs 172 lakhs
Return: 28.00%Break even: 59.00%
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