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Silica Produced From Rice Husk Ash

Silica Produced From Rice Husk Ash. Rice Husk Ash Silica Manufacture. Emerging Investment Opportunities in agriculture waste processing Industry Silica occurs as amorphous to crystalline form in many types of igneous, metamorphic, and sedimentary rocks, but in sediments and sedimentary rocks much of the silica is detrital material. The chief forms of silica are hydrous opal, cryptocrystalline chalcedony, and crystalline quartz. As a byproduct of the combustion of rice husk to generate energy, rice husk ash (RHA) is formed by silica and carbon, apart from small amounts of other constituents. Several treatments can be used to increase the purity of the silica obtained, or even produce pure silica. Rice Husk Ash. Rice husk ash (RHA) is a highly reactive pozzolan obtained when rice husks are calcinated below the crystallization temperature at 780°C (Yu et al 1999). Silica is not a new commodity in the plastics market. Its usage as extenders and reinforcing fillers, as pozzolanic material and as glass microspheres for specific engineering applications are well known in the market. Because of its high silica and lignin content, rice husk is tough, woody and abrasive in nature with low nutritive properties and resistance to weathering. With growing environmental concern, open burning has been outlawed in many major rice-producing countries. 18% of the rice husk can be retrieved as ash after the gasification process. Silica content in ash is almost 90% and the rate of recovery of precipitated silica is 90-95% from the rice husk ash if the conversion efficiency is more than 70%. Rice hull ash (RHA) contains over 60% of silica which can be an economically viable raw material for the production of silica based products. Silica generation is a separate independent process not dependent on electricity generation, although the input ash is dependent on gasification process. Provision will be taken in the design so that external ash is used also as input thus increase silica production. Uses ? Rubber reinforcement (Tyre industry) ? Plastic reinforcement ? Agriculture (Animal food) ? Food, Healthcare, Cosmetics ? Catalyst; Coatings ? Pulp and Paper processing Market Outlook Combustion of rice hulls affords rice husk ash (acronym RHA). This ash is a potential source of amorphous reactive silica, which has a variety of applications in materials science. Most of the ash is used in the production of Portland cement. The rice husk ash is a green supplementary material that has applications in small to large scale. It can be used for waterproofing. It is also used as the admixture to make the concrete resistant against chemical penetration. The main applications of rice husk ash in the construction are: High-performance Concrete. Use of waste or by-products from different industries and the agricultural sector has received increasing attention in the scientific, technology, ecological, economic and social spheres in recent years. Rice husk (RH) is a by-product of rice milling and rice husk ash (RHA) is generated by combustion in a separate boiler. Both RH and RHA are abundantly accessible in rice growing countries such as China, India, Brazil, the USA, and Southeast Asia. Silica is the major constituent of the rice husk ash. So precipitated silica production will not only provide value addition but also solve the problem of large amount of ash disposal generated from gasification process. With such a large ash content & silica content in the ash it becomes economical to extract silica from the ash, which has wide market & also takes care of ash disposal. Precipitated Silica (also called particulate silica) is composed of aggregates of ultimate particles of colloidal size that have not become linked in massive gel network during the preparation process. It is an amorphous form of silica; the word amorphous denotes a lack or crystal structure, as defined by X ray diffraction. Early interest in amorphous silica was purely academic. The ash produced after the husks have been burned is high in silica. RHA can be used in a variety of application like: green concrete, high performance concrete, ceramic glaze, water proofing chemicals, roofing shingles, insulator, specialty paints, flame retardants, carrier for pesticides, insecticides & bio fertilizers etc. Precipitated silica is also used as filler for paper & rubber, as a carrier & diluents for agricultural chemicals, as an anti-caking agent, to control viscosity & thickness and as a cleansing agent in toothpastes & in cosmetics. The distinguishing feature of the growth of precipitated silica industry in India is that it has classifiably flourished in the small scale sector. Readily available new materials low capital investment & high rates of return offer a distinct advantage to the small scale manufacturers to venture into this field. There is a very good scope in this sector The market scope includes silica forms including precipitated, fumed, gels and sols, and micro silica (fumes). Rising demand for the product from the rubber industry is the primary factor driving the market. Increase in demand for tires is mainly driven by rising automotive production, especially in countries such as India, China, Indonesia, South Korea, Japan, Malaysia, Taiwan, Mexico, U.S., and Germany. Rapid economic growth. Silica provides higher abrasion resistance, tensile strength, and flex fatigue properties to rubber products. It is widely used in tire applications, owing to its ability to improve the bond and tear resistance between rubber tires and metallic reinforcements The growth of silica as a market is driven by its increasing application in paints and coatings. It is mainly utilized in this industry to control rheological characteristics and to aid in the deterrence of rust and corrosion. It is also used as an anti-settling agent and thixotroping agent in the sector. A developing paints and coatings industry in the emerging markets of Asia Pacific, driven by growing construction and automotive sectors, is expected to drive product demand over the forecast period. Key players SCR-Sibelco, US Silica Holdings, Emerge Energy Services, Fairmount Santrol, Badger Mining Corporation, Hi-Crush Partners, Saint Gobain, Mitsubishi Corporation, Toyota Tsusho, Pioneer Natural Resources, Tochu, EUROQUARZ GmbH, Guru Metachem Pvt. Ltd. (India), Yihai Kerry Investments Co., Ltd. (China), Usher Agro Ltd. (India), Jasoriya Rice Mill (India), and Rescon (India) Pvt. Ltd, Guru Metachem Pvt. Ltd., Astrra Chemicals, Jasoriya Rice Mill, KGR Agro Fusion (P) Ltd., Kothari Bio Fuels, B.D. Agrotech Pvt. Ltd., KRBL Limited, and J.M. Biotech Pvt. Ltd. Abhiraami Chemicals Ltd, Balls & Cylpebs Ltd, Kiran Global Chems Ltd, Shri Aster Silicates Ltd. Tags #Precipitated_silica, #Production_of_Silica, #Silica_From_Rice_Husk_Ash_Manufacturing_Plant, #Precipitated_Silica_Manufactures, #Introduction_of_Silica_Sand_Production, #Silica_Sand_Manufacturing_Plant, #Industrial_Processing_Plant_Precipitated_Silica, #Project_Report_on_Precipitated_Silica_Manufacturing, #Project_Report_on_Extraction_Precipitated_Silica_Rice_Husk_Ash, #Investment_Opportunities_in_Precipitated_Silica_from_Rice_Husk, #rice_husk_ash_silica_manufacturer, #extraction_of_silica_from_rice_husk_pdf, silica from rice husk ppt, rice husk ash silica manufacturer in India, Rice Husk Ash Manufacturers & Suppliers In India, India Silicon Market Report, Precipitated Silica Sand Manufacturing Plant, silica gel manufacturing plant, silicone gel manufacturers, How to Start Silica Processing Industry in India, Silica Processing Industry in India, Most Profitable Silica Processing Business Ideas , Silica from Rice Husk Ash Processing & Silica from Rice Husk Ash Based Profitable Projects, Silica from Rice Husk Ash Processing Projects, Small Scale Silica from Rice Husk Ash Processing Projects, Starting a Silica from Rice Husk Ash Processing Business, How to Start a Silica from Rice Husk Ash Production Business, Silica from Rice Husk Ash Based Small Scale Industries Projects, new small scale ideas in Silica from Rice Husk Ash processing industry Project report on Silica from Rice Husk Ash processing industries, Detailed Project Report on Silica from Rice Husk Ash, Project Report on Silica from Rice Husk Ash, Pre-Investment Feasibility Study on Silica from Rice Husk Ash, Techno-Economic feasibility study on Silica from Rice Husk Ash, Feasibility report on Silica from Rice Husk Ash, Free Project Profile on Silica from Rice Husk Ash, Project profile on Silica from Rice Husk Ash, Download free project profile on Silica from Rice Husk Ash, Business guidance to clients, Startup Project for Silica from Rice Husk Ash, Great Opportunity for Startup, Small Start-up Business Project, Start-up Business Plan for Silica from Rice Husk Ash, Start Up India, Stand Up India, Silica from Rice Husk Ash Making Small Business Manufacturing, small scale Silica from Rice Husk Ash making machine Silica from Rice Husk Ash production line, Silica from Rice Husk Ash making machine factory
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Production of Formic Acid

Production of Formic Acid. Investment Opportunities in Chemical Industry. Formic acid was first isolated from certain ants and was named after the Latin Formica, meaning ant. It is made by the action of sulfuric acid upon sodium formate, which is produced from carbon monoxide and sodium hydroxide. Formic acid. Saturated fat. The principal use of formic acid is as a preservative and antibacterial agent in livestock feed. When sprayed on fresh hay or other silage, it arrests certain decay processes and causes the feed to retain its nutritive value longer and so it is widely used to preserve winter feed for cattle. Formic acid is also prepared in the form of its esters by treatment of carbon monoxide with an alcohol such as methanol (methyl alcohol) in the presence of a catalyst. Formic acid (also called methanoic acid) is a colorless liquid with a sharp odor. It is also the simplest carboxylic acid. The chemical formula is HCOOH or HCO2H. Formic acid is an environmentally acceptable and highly efficient organic acid. It is used in many areas, from leather processing to feed preservation. Formic acid is soluble in water, various alcohols, acetone and ether. Most applications require formic acid in concentrations of 85%, 90%, 94% or 99%; the 85% product accounts for the major portion of global demand and is considered the industry standard. Market Outlook The global demand will increase from 95.4 Mb/d to 102.3 Mb/d with an annual growth rate of 1.2 Mb/d in terms of the barrel. Furthermore, the organization estimates the demand growth rate to be 0.6% through to 2040. This upsurge in the demand for oil will substantially resonate with the demand influx in the formic acid market that was valued to be around $550 million. This attributes to the application of formic acid in the oil & gas sector as the derivative of the chemical, potassium formate brine is added to drilling fluids in order to make them heavier. The demand for formic acid in various industries will observe a compound annual growth rate (CAGR) of 4.9% during the forecast period of 2019 to 2025. The pharmaceutical sector has been making strides with a gamut of international companies investing in developing economies such as India. Subsequently, the demand for formic acid, which is used in pharmaceutical industries, is on the rise. The region led the formic acid market. One of the major factors driving the growth of formic acid is the increasing demand for preservatives and feed additives. Increasing consumption of meat and poultry has also hugely attributed to the growth of the market. The market is segmented into animal feed, rubber and leather, finishing textile, dyeing, cleaning agents, and others. Formic Acid & rsquos proliferation in the animal feed industry has been so extensive that it is now dominating the segment and will continue to do in the coming years. Agriculture and animal feed industries are experiencing a transformation due to the increasing implementation of formic acid. Formic acid is the simplest form of the carboxylic acid, and its eco-friendly features assist in protecting livestock feed, ensuring nutritional value and increasing shelf life of foods to maintain a continuous supply of the same during the winter season. Global formic acid market is anticipated to witness significant growth increasing application scope in various end-use industries including leather, textile, rubber, chemical, pharmaceutical and agriculture. Rising demand for preservative and antibacterial agents in cattle feed is expected to augment the formic acid market growth. Rubber and leather industry are anticipated to be the fastest growing application segment owing to rising demand for tires and consumer goods in Asia Pacific. However agriculture segment is expected to witness largest demand on account of increasing use of animal feed additives. Superior antibacterial properties further fuel formic acid demand in aforementioned applications. Growing health and safety concerns ban on use of antibiotics in animal feedstock and increasing consumption of poultry & meat products are anticipated to propel the formic acid market over the next seven years. Asia Pacific formic acid market is anticipated to grow at a fast pace over the forecast period owing to increasing demand in rubber, agriculture, leather & textile industries in China and India. Lower capital and labor costs along with rapidly growing market in China are expected to draw high investments from major players. Agricultural segment is poised to lead the formic acid market is expected to create growth opportunities. Formic acid as a commercial animal feed additive, is added to the animal diet for feed it is used as an animal feed additive for fisheries, cattle, poultry, etc. Growth of cattle and poultry is higher in countries, such as the United States, China, India, etc., and these are the countries where the demand for formic acid has increased at a moderately high rate. Formic acid is also used as an antibacterial agent and preservative in livestock feed. Formic acid is sprayed on fresh hay, in order to delay or halt decay, thereby, allowing the feed a longer survival period. This process is of particular importance in the preservation of winter cattle feed. In poultry farming, formic acid is applied to feed in order to kill salmonella bacteria. These practices are widespread in Europe, but are not as common in the United States, due to the generally low commercial availability of formic acid. The use of formic acid on hay feed may reduce the total milk fat when given to mulch cows. Formic acid are on the rise due to the increase in demand for animal feed. This trend is expected to contribute to the demand for formic acid. Key Players ? BASF SE (Germany) ? Feicheng Acid Chemical (China) ? Gujarat Narmada Valley Fertilizers & Chemicals Limited (India) ? Chongqing Chuandong Chemical (Group) Co., Ltd (China) ? LUXI Group Co., Ltd. (China) ? Eastman Chemical Company (U.S) ? Perstorp AB (Sweden) ? Anhui Asahi Kasei Chemical ? Rashtriya Chemicals and Fertilizers ? Tianyuan Group ? Feicheng Acid ? Perstorp ? Wuhan Ruisunny Chemical ? Shandong Rongyue Chemical ? Huaqiang Chemical ? Shanxi Yuanping Chemicals Tags #formicacid #Acid #FormicAcid #chemicalIndustry #FormicAcidMarket #FormicAcidMarketSize #FormicAcidMarketDemand #DetailedProjectReport #businessconsultant #Manufacturing #BusinessPlan #marketresearchreport #ProjectReportForBankLoan #entrepreneurship #businessbook #futurebusiness #smallbusiness #technologyindustry #businessbook #businessopportunity #businessdevelopment #businessstrade Formic Acid Manufacturing Plant, new small scale ideas in Formic Acid processing industry, 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 Formic Acid, 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, Start-up Business Plan for Formic Acid, Start Up India, Stand Up India, Formic Acid Making Small Business Manufacturing, Small scale Formic Acid making machine Formic Acid production line, Formic Acid making machine factory, Modern small and cottage scale industries, Profitable small and cottage scale industries, Setting up and opening your Formic Acid Business, How to Start a Formic Acid?, How to start a successful Formic Acid business, Small scale Commercial Formic Acid making, Best small and cottage scale industries, Formic Acid Business, Profitable Small Scale Manufacturing, Feasibility Reports List, Detailed Project Reports List, Project Reports, Niir Project Consultancy Services, Business Ideas, Entrepreneur business of Formic Acid, Business Plan, Technology Book on Formic Acid, Manufacturing Business of Formic Acid, Detailed Project Report on Formic Acid, Market Research Report, Techno-Economic Feasibility Study on Formic Acid, Feasibility Report, Project Report & Profile, Project Consultancy, Startup, Small Business, Database, Technologies, Project Opportunities, Manufacturing Process, Technology Books, Business Listing, Business Books, Entrepreneur India Magazine, Small Scale Industries, Consultancy for Formic Acid, Feasibility Report, Project Report, Technology Book on Formic Acid, Business Ideas, Startup Project, Project Consultancy on Formic Acid, Niir Project Consultancy Services , Project Profile, Small Scale Industry, manufacturing business, technology on Formic Acid, Consultancy Services, Consultant for Formic Acid, Feasibility Report on Formic Acid, Production of Formic Acid, project cost, Investment Opportunities of Formic Acid, Industry Trends, Project Reports and Technology Books on Formic Acid, Industry, Market Detailed Analysis Report, Profitable business on Formic Acid
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Manufacturing of Vermicompost and Organic Manure.

Manufacturing of Vermicompost and Organic Manure. Profitable Investment in Organic Natural Plant Nutrient Industry. Vermicompost Vermicompost is the product of the decomposition process using various species of worms, usually red wigglers, white worms, and other earthworms, to create a mixture of decomposing vegetable or food waste, bedding materials, and vermicast. Vermicast is the end-product of the breakdown of organic matter by earthworms. Vermicomposting is a type of composting in which certain species of earthworms are used to enhance the process of organic waste conversion and produce a better end-product. Vermicompost, or castings, is worm manure. Worm castings are considered by many in horticulture to be one of the best soil amendments available. The nutrient content of castings is depends on the material fed to the worms--and worms commonly feed on highly nutritious materials, such as food waste and manures. Vermicompost (vermi-compost, permaculture) is the product of the decomposition process using which is used to remove organic matter, pathogens and oxygen demand from wastewater or directly from black water of flush toilets. Vermicompost is the product of the composting process using various species of worms, usually red wigglers, white worms, and other earthworms, to create a heterogeneous mixture of decomposing vegetable or food waste, bedding materials, and vermicast, also called worm castings, worm humus or worm manure, is the end-product of the breakdown of organic matter by an earthworm. These castings have been shown to contain reduced levels of contaminants and a higher saturation of nutrients than do organic materials before vermicomposting. Vermicompost, or vermiculture, most often uses two species of worms. Type of Vermicompost: - Africa Night Crwlers Vermicomposting, Lumbricus Rebellus Vermicomposting, Others. Vermicompost is the end-product of the breakdown of organic matter by some species of earthworm. Vermicompost is a nutrient-rich, organic fertilizer and soil conditioner. The process of producing vermicompost is called vermicomposting. It is the excreta of earthworm, which is rich in humus. Earthworms eat cow dung or farm yard manure along with other farm wastes and pass it through their body and in the process convert it into vermicomposting. Organic Manure Organic fertilizers are fertilizers derived from animal matter, animal excreta (manure), human excreta, and vegetable matter (e.g. compost and crop residues). Naturally occurring organic fertilizers include animal wastes from meat processing, peat, manure, slurry, and guano. Organic manures are natural products used by farmers to provide food (plant nutrients) for the crop plants. There are a number of organic manures like farmyard manure, green manures, compost prepared from crop residues and other farm wastes, vermicompost, oil cakes, and biological wastes – animal bones, slaughter house refuse. Organic fertilizer is a mixture of decayed organic matter. It is usually made by gathering plant material such as leaves, grass clippings, and vegetable peels and animal waste into a pile or bin and letting it decompose with the help of earthworms, fungi or bacteria. There are three types of organic manure animal, green, and wood ashes. Using some of each will give your garden the best possible soil and grow the best vegetables. Related Projects: - Fertilizers, Fertilisers, Inorganic Fertilizers (Mineral Fertilizer) Uses The use of organic-based fertilizers in sustainable agriculture benefits farmers, growers, consumers and the environment in many ways. As empirically demonstrated, organic-based fertilizers help to:- ? boost both nutrient efficiency and organic matter content in the soil ? nurture the soil with organic matter that reduces dependency on chemical inputs ? restore and maintain soil fertility to nurture plant growth ? enhance the biological activity and biodiversity of soils ? enhance the quality attributes of produce as well as yield ? improve the efficiency of nutrient use to produce more robust crops ? facilitate the slow release of nutrients in response to the dynamic needs of plants ? boost the efficiency of water use to render crops more resilient and drought-resistant ? Reduce the impact of farming and safeguard ecosystems by minimizing leaching. ? Enhance crop resistance to erosion by improving the soil’s organic matter content. ? Improve the efficiency of resource use by incorporating natural raw materials. Advantages:- ? Soil Structure ? Microbes Thrive ? Sustainable and Environmentally Friendly ? Reduce Fertilizers and Pesticides ? Plant Damage Threat Avoided ? Vermicompost is rich in all essential plant nutrients. ? Provides excellent effect on overall plant growth, encourages the growth of new Shoots / leaves and improves the quality and shelf life of the produce. Market Outlook Rising demand from agriculture farming for vermicompost is majorly driving the overall growth of this market. However, high maintenance expense under study period is limiting the growth of this market. High demand from several sectors such as home gardening and horticultural industry is anticipated to boost growth of this market in near future. Vermicompost, or vermiculture, most often uses two species of worms: Red Wigglers or Eudrilus eugenae rarely found in soil and are adapted to the special conditions in rotting vegetation, compost and manure piles. Vermicompost industry has much fragmented, manufacturers are mostly in the India and Southeast Asia. Among them, India Production value accounted for less than 9.50% of the total value of global Vermicompost. Global organic fertilizers market is expected to flourish at a CAGR of 6.9% during the forecast period. Further, the global organic fertilizers market is anticipated to reach at a valuation of USD 6.3 Billion by the end of 2024 from USD 3.1 Billion in 2016. Rising awareness about the long term benefit of organic farming and increasing adoption of eco-friendly products is anticipated to drive the growth of the global organic fertilizers market. Asia Pacific market of organic fertilizers is estimated to be the fastest growing market across the globe due to high availability of raw materials. Further, favorable government subsidy policies are envisioned to bolster the growth of organic fertilizers market in Asia Pacific region. Rise in demand and adoption of environment friendly agricultural products is expected to drive the global organic fertilizers market. Apart from this, rapid development of new organic fertilizer producing high yield crops is also envisioned to bolster the growth of global organic fertilizers market. Further, increasing farm area under organic cultivation is expected to garner the growth of global organic fertilizers market. Moreover, government is encouraging the adoption of organic fertilizers in various nations. Government has launched incentive and reimbursement programs. This factor is expected to positively impact the growth of the global organic fertilizers market. In contrast, lack of awareness about the benefits of organic fertilizers among farmers is expected to hamper the growth of global organic fertilizers market. Moreover, high adoption rate of chemical fertilizers over organic fertilizers is restraining the development of global organic fertilizers market. As consumers today are inclined towards clean labels and seeking transparency in everything they consume, organic has emerged as a promising approach to address these concerns. In light of these beneficial aspects of organic approaches and after gauging the futuristic opportunistic value of organic fertilizers, in its latest business intelligence, assesses how eco-friendly fertilizers are altering the big picture of farming, thereby shaping the gain prospects of organic fertilizer market. Organic farming, composed of organic fertilizers as an integral virtue, continues to remain a lucrative bet for the expanding agricultural industry, in line with growing organic food appeal to consumers as a healthy and ethical choice. Beyond ethics, organic fertilizers are gaining significant traction on account of numerous environmental benefits, such as enhanced soil structure and water conservation. Growing awareness among farmers about the nutritional benefits of plant based and animal based fertilizers and their role in promoting growth of earthworm and other microbiological activities vital for plant growth are fueling adoption of organic fertilizers. Animal based organic fertilizers are garnering significant traction over plant based variants owing to their good aeration and water retention capabilities that enhance the soil fertility. Government and environmental policies minimizing wastage and reduction in the consumption of non-biodegradable raw materials has led to an increased production of organic fertilizers. Regulations are also emphasizing more on human safety, so are supporting markets like organic fertilizers to reduce risk to human life and the environment. The organic fertilizers market is dependent upon the weather (rains/water supply) of that region or area; hence, weather conditions can hamper the growth of organic fertilizer market. Another concern with organic fertilizers is that a majority of them have lesser nutrient ratio than chemical fertilizers, which can massively impact farm produce. Based on crop organic fertilizers market is bifurcated as oilseeds & pulses, fruits & vegetables and cereals & grains. Technological advancement along with development in refrigerated transport facilities and cold chains has stimulated the fruits & vegetables industry growth. Rapid growth in natural cereals & grains demand enhancing necessity for biological farming in limited arable land will drive the product demand. Increasing awareness pertaining to environmental effects of synthetic agricultural inputs coupled with increasing consumer preference for natural based products will propel business growth. Growing adoption of sustainable farming practices particularly in Spain, France, Germany, and Italy owing to increasing health, safety and environmental concerns will drive industry demand. Fertilizers are chemical or natural substances which are added to the soil or land to increase fertility. Organic fertilizers are fertilizers extracted from animal manure, plant extracts as well as minerals and vegetable matter. Since organic fertilizers are derived from natural substances, damage to the environment is the least of concerns. Organic fertilizers are rich in growth hormones and micro nutrients and help to reduce the risk of diseases in humans, as they are used in human food also. Due to depletion of soil quality, use of fertilizers is being propelled to help farmers to increase crop production. The surge in crop acreage and requirement to increase crop production is encouraging farmers to use organic fertilizers. Organic fertilizers are selected according to the requirement of the nutrients by the crop. They have gained status globally, as they help in increasing the quantity as well as improve the quality produced. Increasing population, as well as their increasing willingness to pay for organic foods, are key drivers for the market. Related Books: - Biofertilizer, Biofertiliser, Biogas, Organic Farming, Vermicompost, Applications ? Landscaping ? Golf Courses ? Home Gardening ? Horticultural Industry ? Home improvement centers ? Nurseries ? Landscape contractors ? Greenhouses ? Garden supply stores ? Grocery chains ? Flower shops ? Discount houses ? General public ? Cereals & Grains ? Oilseeds & Pulses ? Fruits & Vegetables Key Players:- SLO County Worm Farm, Suman Vermi Compost, MyNOKE, Davo's Worm Farms, NutriSoil, Dirt Dynasty, Kahariam Realty and Farms, Worm Power and Sri Gayathri Biotec, Davo’s Worm Farms, Fertikal N.V., Multiplex Group, Gujarat Bio Organics Pvt. Ltd., Walt's Organic Fertilizer, BioSTAR Organics, California Organic Fertilizers, Madras Fertilizers Limited, Scotts Miracle-Gro., Tata Chemicals Ltd. (India), Midwestern BioAg (U.S.), Coromandel International Limited (India), Agrocare Canada (Canada), Italpollina S.p.A. (Italy), The Scotts Miracle-Gro Company (U.S.), Suståne Natural Fertilizer, Inc. (U.S.) Tags #vermicompost #worms #OrganicManure #organicfarming #fertilizerindustry #wastewaterindustry #AgricultureIndustry #Agriculture #projectreport #DetailedProjectReport #businessconsultant #businessfeasibilityreport #BusinessPlan #naturalfertilizer #organic #AgricultureWaste #SolidWaste #OrganicFertilizers #fertilizerindustry #fertilizerbusiness #earthworm #biofertilizer #farmbusiness #vermicompostingproject #vermicompostfertilizer #vermicompostcomposition
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Modern Technology of Synthetic Resins & Their Applications (2nd Revised Edition) (Acetal, Acrylonitrile, Alkyd, Amino, Casein, Cashew nut Shell Liquid, Epoxy, Phenolic, Polyamide, Polyurethane, Rubber, Silicon, Polyvinyl Acetate, Shellac, Sucrose, Terpene

Modern Technology of Synthetic Resins & Their Applications (2nd Revised Edition) (Acetal, Acrylonitrile, Alkyd, Amino, Casein, Cashew nut Shell Liquid, Epoxy, Phenolic, Polyamide, Polyurethane, Rubber, Silicon, Polyvinyl Acetate, Shellac, Sucrose, Terpene Resins) (2nd Revised Edition) Synthetic resins or polymers refers to a molecule that's created of several (poly) components (mers). These subunits or mers represents the only repetition chemical structural unit from that the compound consists these subunits are capable of conformist to infinite no. of configurations with entirely completely different chemical and physical properties this makes them a unique proposition for various applications in dentistry Synthetic resins, it's important to understand the difference between different types. First, there are similarities shared between all synthetic resins. They’re not too dissimilar from natural plant resins. This suggests that they need viscous liquids. These liquids are capable of hardening for good. Besides this one connecting feature, the two resins are very with chemicals totally different. When dealing with synthetic resins, it's important to understand the difference between differing kinds. First, there are similarities shared between all synthetic resins. They’re not too dissimilar from natural plant resins. This suggests that they have viscous liquids. These liquids are capable of hardening permanently. Besides this one connecting feature, the two resins are terribly chemically totally different. The most commonly used variety of synthetic resin is epoxy resin. These things is formed through polymerization and polycondensation reactions. They’re used as a thermosetting polymer that's used for adhesives. Epoxy resins are very sturdy. It’s even stronger than concrete, whereas also remaining waterproof. You’ll most likely notice flooring corporations using this type of resin. Synthetic resin are used in a variety of products such as plastics, paints, varnishes, and textiles. There are various kinds of synthetic resins; Acetal resins, amino resins, casein resins, epoxy resins, hydrocarbon resins, polyamide resins, etc. The classic variety is epoxy resin, manufactured through polymerization, used as a thermoset polymer for adhesives and composites. Epoxy resin is two times stronger than concrete, seamless and waterproof. Polyamide resin is another example of synthetic resins. Polyamide resins are products of polymerization of an amino acid or the condensation of a diamine with a carboxylic acid. They are used for fibers, bristles, bearings, gears, molded objects, coatings, and adhesives. The term nylon formerly referred specifically to synthetic polyamides as a class. Because of many applications in mechanical engineering, nylons are considered engineering plastics. Resins are valued for their chemical properties and associated uses, such as the production of varnishes, adhesives, lacquers, paints, rubber and pharmaceutical uses Applications:- Packaging Building Material Automotive Electronics Market outlook:- Synthetic resins are non-crystalline or viscous liquid substances. They consist of numerous synthetic materials which have similar properties to natural resins. However, the chemical composition of synthetic resins is different from natural resins. Synthetic resins are broadly differentiated into thermoplastic and thermosetting synthetic resins based on the procedure of their formation processes (esterification and/or soaping of organic compounds). Some of the common thermoplastic synthetic resins include polyethylene, polypropylene, ABS, PET, PVC, polycarbonate, polyurethane, and nylon, among others. Some of the common thermosetting synthetic resins include phenolic, polyurethanes, and epoxy resins, among others. Synthetic resins are materials with a property of interest that's almost like natural plant resins they're viscous liquids that are capable of hardening permanently. Otherwise, with chemicals they're terribly totally different from the various resinous compounds secreted by plants. Synthetic resins comprise an outsized category of synthetic product that have a number of the physical properties of natural resins however are totally different with chemicals. Synthetic resins aren't clearly differentiated from plastics. The growth of the synthetic resins market can be attributed to the high demand from the packaging sector due to favorable properties, including lightweight and ability to act as an excellent barrier, which allows for their usage in applications such as barrier packaging, shrink wraps, and pharmaceutical packaging. The synthetic resins procurement ways because of the growing environmental concerns over the usage of synthetic resins. Considering this, it's imperative for consumers to partner with suppliers that incorporate sustainability into their production processes and facilitate them in achieving their sustainability goals. A number of the green initiatives that consumers ought to think about are recycling measures, environmental audits of raw materials utilized by suppliers, among others. The global Synthetic Resin market was valued at million US$ in 2018 and will reach million US$ by the end of 2025, growing at a CAGR of during 2019-2025. The globally flourishing construction sector is one of the largest consumers of raw materials such as steel, various forms of industrial chemicals, polymers and engineering plastics. Demand for epoxy resins is surfacing due to modern infrastructural developments and consequently augmenting sustainable resins market growth. Epoxy resins are applied in the production of coatings, adhesives, paints, plastics, primers and sealers, flooring and innumerable products and other materials that are used for building and construction operations. Key Players:- Huntsman International LLC, MCC Chemicals, Inc., UPC Technology Corporation, Bayer AG, DSM, Assa Abloy AB, Akolite Synthetic Resins, Sinopec Corporation, Formosa Plastics Group, Purolite, Kansai Paint Co., Ltd., Lawter, Inc., D.S.V Chemicals, RÜTGERS Group, The Dow Chemical Company, NAN YA PLASTICS Corporation, Momentive, KUKDO CHEMICAL. Co. Ltd., Gellner Industrial, LLC, Synresins Ltd., Chang Chun Group Tags:- #OrganicCompounds, #SyntheticResins #businessideas #businessgrowth #entrepreneur #startupidea #startyourbusiness #projectreport #DetailedProjectReport #businessconsultant #businessfeasibilityreport #BusinessPlan
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Business Idea of Bleaching Powder Manufacturing

Business Idea of Bleaching Powder Manufacturing. Production of Bleaching Powder. Bleaching powder is one in all the foremost widely used bleaching, sanitation and disinfecting agents within the world. Bleaching powder is considered to be the most effective product to be utilized in swimming pool water treatment. A white powder with the odour of chlorine, consisting of chlorinated calcium hydroxide with an approximate formula CaCl (OCl).4H 2 O. It is used in solution as a bleaching agent and disinfectant also called chloride of lime, chlorinated lime. Bleaching powder, white or nearly white powder that is usually a mixture of calcium chloride hypochlorite, CaCl (OCl); calcium hypochlorite, Ca (OCl) 2; and calcium chloride, CaCl 2. Sometimes called chloride of lime, it can be prepared by reacting calcium hydroxide or slaked lime, Ca (OH) 2, with chlorine gas, Cl 2. It is used as a strong bleaching agent, as a disinfectant, and in making Javelle water. Related Project: - Business Ideas after the Covid Breakdown Uses of Bleaching Powder ? It is used for bleaching dirty clothes in the laundry, as a bleaching agent for cotton and linen in the textile industry. ? It is a strong oxidizing agent hence used as an oxidizer in many industries. ? It is used as a disinfectant which is used for disinfecting water to make potable water. ? For making wool unshrinkable. ? As an oxidizing agent in the industry. ? Bleaching powder is used as disinfectant and germicide especially in the sterilization of drinking water. ? It is used for manufacturing of chloroform. ? It is used for bleaching silk and wool. ? It is used as an oxidizing agent in many chemical industries to obtain various chemical products. ? It is mainly used as bleaching agent for cotton, linen and wood pulp. Preparation of bleaching powder reaction Bleaching powder is prepared on an outsized scale by passing the chlorine gas through an answer that contains calcium hydroxide. Bleaching powder is also sold-out on the basis of the on the market chlorine, that is liberated once it's treated with the dilute acid. Bleaching powder is used for bleaching paper pulps and fabrics and for sterilizing water. Calcium hypochlorite is used as a bleaching agent and disinfectant agent. The bleaching powder is also known as chlorinated lime (chloride of lime) that is used in error within the whitewash. Bleaching powder also causes irritation on the skin and eye. Related Projects: - Chemicals (Organic, Inorganic, Industrial) Projects Advantages: Peroxide may be a universal bleaching agent and may be used for wool, silk as well as cotton. It’s especially suited to the bleaching of union fabrics containing each cotton and wool or silk. Hydrogen peroxide may be a milder reagent than salt and therefore the degrading effect of peroxide bleaching on cellulose is less influenced than is that the case with hypochlorite. Peroxide is capable of continuous the scouring action simultaneously with the bleaching action, therefore a single stage combined scour and bleach or a continuous method is feasible using hydrogen peroxide. Peroxide bleaching is generally less prone to have adverse impact on dyed threads. The white impact is good and permanent and there's less risk of yellowing at a later stage. Thorough rinsing followed by scouring or antichlor treatment is required with hypochlorite bleaching, whereas with peroxide a comparatively short rinsing suffices. With hydrogen peroxide, there's no danger of equipment corrosion, no unpleasant odors and no limitations on processing techniques. Increasing strict control over the discharge of AOX from chlorine bleaching liquors has led to a greater advantage of peroxide processes for bleaching cellulosic fibres. Related Books:- Chemical Technology (Organic, Inorganic, Industrial), Fine Chemicals Characteristics of Bleaching Powder Bleaching powder is a pale yellowish powder existing with a strong smell of chlorine. It is soluble in water but due to the presence of impurities. Its chemical formula is CaOCl2 with its chemical name as Calcium hypochlorite. Applications • Bleaching powder is used for bleaching cotton and linen in textile industry. • Bleaching wood pulp in paper industry. • It is also used for bleaching washed clothes in laundry. The bleaching action of bleaching powder is due to the chlorine released by it. • Bleaching powder is used for disinfecting drinking water supply. That is, for making drinking water free from germs. • Bleaching powder is used for the manufacture of chloroform (CHCl). • Bleaching powder is used as an oxidizing agent in many chemical industries. • Waste Water Treatment and Sewage disposal. • Household Bleaching/Cleaning applications. • Used as a Sanitizing Agent also. Market Outlook Asia Pacific is anticipated to be a fast-growing marketplace for oxidizing and bleaching agents. Demand for oxidizing and bleaching agents within the region is estimated to be primarily driven by swift rise in the consumption of hydrogen peroxide in India, China, and countries in Asian. Related video:- Bleaching Powder Manufacturing Business Production of Stable Bleaching Powder Growth in paper and pulp and chemical industries is anticipated to drive demand for oxidizing and bleaching agents in Asia Pacific. Brazil is one in all the significant producers of short-fiber pulp within the paper business that is the biggest end-user market for oxidizing and bleaching agents. In addition, demand for oxidizing and bleaching agents within the paper and pulp business in South Africa is increasing steadily. As a result, the marketplace for oxidizing and bleaching agents in Latin America and Middle East and Africa is likely to experience decent growth. The oxidizing and bleaching agents market in Europe and North America is expected to witness moderate growth because of steady recovery from the economic slowdown. Related Video:- https://bit.ly/2YofJ01 https://bit.ly/2XTy1ag The global bleaching powder market was valued at around US$ 5 Bn in 2016 and is anticipated to expand at a CAGR of more than 3% from 2018 to 2026. Expansion in the global bleaching powder market is driven by the rise in demand for fresh water and increase in demand for bleaching powder in pulp & paper applications. The bleaching powder market in Asia Pacific is anticipated to expand at a CAGR of around 4% during the forecast period. Rapid urbanization in developing economies such as China and India is estimated to propel the bleaching powder market in the region. As a precursor to decolorizing agent in textile business, Asia-Pacific is panned to observe substantial bleaching chemicals market growth on account of rising bleaching chemicals usage. On the rear of multiplying bleaching chemical uses in growing end-use industries reminiscent of agricultural, construction, pulp and paper, physical science, industrial and water treatment, Asia Pacific is budding as a regional Bleaching Chemicals and its derivatives consumption market. North America is expected to follow Asia-Pacific in terms of consumption because of increasing bleaching chemicals requirements in food & food and water treatment industries. Key players Swastik Chemicals, Olin Chlor Alkali, Aditya Birla Chemicals, Lords Chloro Alkali Limited, GACL, Sree Rayalaseema Hi-Strength Hypo Ltd, Suvidhi Industries, OxyChem, Kuehne, Clorox, Hill Brothers Chemical, Vertex Chemical, HASA etc. Tags:- #BleachingPowder #Chemical #bleaching #CalciumHypochlorite #businessopportunity #projectreport #DetailedProjectReport #businessconsultant #businessfeasibilityreport #BusinessPlan #startyourbusiness #investmentopportunity #growyourbusiness #covidbusiness #covid19 #covidsmallbusiness #COVIDBusiness #coronavirusbusiness #covidandbusiness #CoronavirusBusiness #Entrepreneur #coronavirus #npcs #covidbusinessideas #covid19businessideas #businessideas #covid
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Production of Acetaldoxime or Acetaldehyde Oxime

Production of Acetaldoxime or Acetaldehyde Oxime. Exploring Business Opportunity in Chemical Industry. Acetaldehyde Oxime is prepared by oximating acetaldehyde with an aqueous hydroxylamine-containing solution to form an aqueous oximation reaction mixture which includes a salt and recovering acetaldehyde Oxime from the aqueous oximation reaction mixture by distilling a mixture of acetaldehyde Oxime and water directly from the aqueous oximation reaction mixture. The existence of an azeotrope between water and acetaldehyde Oxime enables all the acetaldehyde Oxime to distill out of the aqueous oximation reaction mixture without large amounts of excess water being distilled, which could undesirably concentrate acetaldehyde Oxime in the bottoms of the distillation, leading to product decomposition or side reaction. The recovered mixture containing acetaldehyde Oxime and water and lites including acetaldehyde and ammonia is then purified by a second or lights distillation to remove the lights including acetaldehyde and water and produce a product mixture of acetaldehyde Oxime and water relatively free of lights. This product mixture may then be diluted and reacted with Cl2. Oxime are chemical compounds having the general formula >C=NOH. They belong to the imine family. Oxime are generated by the condensation of an aldehyde or a ketone with hydroxylamine. During condensation aldehydes produce aldoxime similarly ketones produce ketoxime. Oxime exist as colorless crystals and are poorly soluble in water. Oxime can be hydrolyzed in the presence of various inorganic acids, and they decompose into the corresponding ketones or aldehydes, and hydroxylamines. The reduction of Oxime compounds produces the corresponding amine compounds. Uses and Applications Acetaldoxime is used as an oxygen scavenger in boiler water. It is also used as an intermediate in chemical synthesis and pharmaceuticals. It is involved in the rearrangement reaction to prepare acetamide by using nickel acetate as a catalyst. It acts as a precursor to prepare heterocyclic compound such as spiroisoxazoline. Further, it is used to prepare alkylated (Z)-Oxime by deprotonating followed by reaction with benzyl bromide. Acetaldehyde Oxime (AAO) is an essential raw material used in the production of pesticides that are used to protect crops from insect and fungus infestation. AAO is also used in small quantities in the production of certain types of coatings. Pesticide intermediate, synthesis of pesticides Methomyl, Thiodicarb, etc.; organic synthesis intermediate. When melted, excellent solvent for many inorganic and organic compounds, organic synthesis, stabilizer, plasticizer, alcohol denaturant. Creation of acrylamide through the aldehyde Oxime one-pot method. With the presence of catalyst InCl3, acetaldehyde Oxime replaces water and reacts with nitrile water to create acrylamide at a high yield Application Insights The global acetaldehyde market by application has been segmented into chemicals, plastics & synthetic rubber, food & beverages, paints & coatings, pharmaceutical & cosmetics, paper & pulp, and others. The acetaldehyde market for the paints & coatings application is projected to grow at the fastest pace over the forecast period. Acetaldehyde is used as a binder in paints and coating substances for the modification of gloss and rheology. It is used as a raw material for the manufacturing of pentaerythritol, which is used in the synthesis of Alkyd resins, fatty acid resin, and tall oil esters; it is also used as intumescents in flame retardant paints. It is used in wooden varnished, laminate, linoleum, and cork/pine flooring. The chemical also finds applications in plastic water-based and matt emulsion paints used for wood ceilings, and wooden, particle-board, plywood, pinewood, and chipboard furniture. Therefore, the elevating use of acetaldehyde in the paints and coating application is projected to boost the demand Rising demand in array of applications is expected to boost the demand for acetaldehyde Acetaldehyde is used in a wide range of industrial applications; it is the most commonly used raw material in the organic chemical industry. As a raw material, it is used in the manufacturing of paint binders, plasticizers, and super absorbents that are used in baby nappies. It is also used in the manufacture of various types of building materials, synthetic lubricants, fire protection paints, and explosives. In the pharmaceutical industry, it is used in the production of vitamins, sleeping aids, and sedatives. It is also often used as an intermediate in the chemical synthesis of acetic acid. Moreover, acetaldehyde chemical is infused in various types of perfumes and can further be used in decorative cosmetics, fragrances, shampoos, soaps, and oral care products as well as in household cleaners and detergents. Market Outlook The global acetaldehyde market is accounted to US$ 1,329.4 MN in 2018 and is expected to grow at a CAGR of 6.7% during the forecast period 2019 – 2027, to account to US$ 2,367.0 MN by 2027. The global acetaldehyde market has been segmented into pyridine and pyridine bases, pentaerythritol, acetic acid, and others. Under the derivative segment, the pyridine and pyridine bases segment led the global acetaldehyde market. The pyridines and pentaerythritol derivatives are gaining popularity over the past few years. Pyridine is widely used in the production of food additives and agrochemicals such as herbicides, pesticides, and insecticides. Pyridine is used as a raw material in ethylene diacetate, which is further used in vinyl acetate production. It is also used as a plasticizer in the plastic industry and as a paint binder in the paint industry. This growth can be attributed to the increasing demand for acetaldehyde in the water treatment application. In addition, the demand for high-quality derivatives in emerging economies is another significant factor contributing to the growth of the acetaldehyde market. Based on application, acetaldehyde finds use in a wide range of applications, such as chemicals, plastics & synthetic rubber, food & beverage, paints & coatings, pharmaceuticals & cosmetics, paper & pulp, water treatment, and others. The food & beverage segment is the largest application segment of the acetaldehyde market. The food & beverage application leads the overall acetaldehyde market, due to its use as a flavoring agent in several food products. In the food & beverage industry, acetaldehyde is used in the production of preservatives and flavorings. Furthermore, it occurs naturally in fruits and fruit juices, ripe fruits, cheese, and heated milk. Acetaldehyde arises naturally during fermentation and is found in low levels in foodstuffs such as milk products, soy products, pickled vegetables, and nonalcoholic beverages. Acetaldehyde acts as an additive in fruit and fish preservatives and flavoring agents, as well as a cross-linker in gelatin hardening. Furthermore, it is also used in producing vinegar and fruit and fish preservative. Acetaldehyde is mainly used to produce other chemicals, such as disinfectants, drugs, perfumes, explosives, lacquer and varnishes, photographic chemicals, phenolic, and urea resins, rubber accelerators and antioxidants, and room air deodorizers. Key Players:- A C I (Agro Chemical Inds.) Ltd. A V T Agrochem Ltd. Agro Chem Punjab Ltd. Ajay Bio-Tech (India) Ltd. Essem Catalyst Ltd. Evonik Catalysts India Pvt. Ltd. Gharda Chemicals Ltd. Celanese (US) Eastman (US) Merck KGaA (Germany) Sumitomo (Japan) Sekab (Sweden) Showa Denko (Japan) Jubilant Life Sciences (India) Lonza (Switzerland) LCY Chemical (Taiwan) Ashok Alco-chem (India) Tags:- #Acetaldoxime #acetaldehyde #chemicals #Oxime #DetailedProjectReport #businessconsultant #BusinessPlan #marketresearchreport #feasibilityReport #NPCS #industrialproject #entrepreneurindia #startupbusiness #startupbusinessideas #businessestostart #startupideas #startupbusinesswithnomoney #businessstartupindia #chemicalmanufacturing #chemicalindustry #chemicalconsultant #ManufacturingConsultant #chemicalbusiness #ChemicalGrowth #Chemicaltrends #BUSINESSOPPORTUNITIES #SmallScaleChemicalBusiness #BusinessOpportunity
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Acetaldoxime or Acetaldehyde Oxime

Acetaldoxime is one of the simplest oxime-containing compounds, and it has a wide variety of uses in chemical synthesis processes as an important intermediate. It is especially notable for its commercial application as an intermediate in the production of pesticides and cyanogenic glucosides or as boiler chemicals to remove oxygen with its limited toxicity and strong reduction. Initially, acetaldoxime can be prepared using hydroxylamine sulfate or hydroxylamine hydrochloride with sodium nitrite and sulfur dioxide, which has a low utilization rate, a high level of low value by-products and serious environmental pollution effects. Therefore, it is extremely important to develop a new synthesis process for acetaldoxime. Acetaldoxime is one of the simplest oxime-containing compounds, and it has a wide variety of uses in chemical synthesis processes as an important intermediate. It is especially notable for its commercial application as an intermediate in the production of pesticides and cyanogenic glucosides or as boiler chemicals to remove oxygen with its limited toxicity and strong reduction. Initially, acetaldoxime can be prepared using hydroxylamine sulfate or hydroxylamine hydrochloride with sodium nitrite and sulfur dioxide, which has a low utilization rate, a high level of low value by-products and serious environmental pollution effects. Therefore, it is extremely important to develop a new synthesis process for acetaldoxime. Acetaldehyde ammoximation to its oxime using TS-1 (Titanium Silicalite-1) as a catalyst and H2O2 as an oxidant offers a better approach. Moreover, the utilization of carbon atoms is up to 100%, and water is a unique byproduct that meets the development requirements of green chemical industry. The global acetaldehyde market accounted for US$ 1,329.4 Mn in 2018 and is expected to grow at a CAGR of 6.7% during the forecast period 2019 - 2027, to account for US$ 2,367.0 Mn by 2027. The largest share of the global acetaldehyde market. The growth of the market in this region is primarily attributed to the growing manufacturing industry in countries such as China, India, Japan, and South Korea. India also offers huge market potential due to emerging players in the chemicals, plastics and synthetic rubber, food & beverages, paints and coatings, and pharmaceuticals and cosmetics industries. Moreover, in the agriculture industry, acetaldehyde is used in the production of methomyl. The chemical is also used to make acetaldoxime, which is used as an insecticide. The Asia Pacific region has a well-established agriculture sector, and the demand for insecticides is growing over the past few years. This factor is projected to propel the demand for acetaldehyde. In the pharmaceutical industry, acetaldehyde is used in the production of sedatives and tranquilizers. Therefore, the growth of this industry in India is projected to boost the acetaldehyde market. Acetaldehyde is used in a wide range of industrial applications; it is the most commonly used raw material in the organic chemical industry. As a raw material, it is used in the manufacturing of paint binders, plasticizers, and super absorbents that are used in baby nappies. It is also used in the manufacture of various types of building materials, synthetic lubricants, fire protection paints, and explosives. In the pharmaceutical industry, it is used in the production of vitamins, sleeping aids, and sedatives. It is also often used as an intermediate in the chemical synthesis of acetic acid. Moreover, acetaldehyde chemical is infused in various types of perfumes and can further be used in decorative cosmetics, fragrances, shampoos, soaps, and oral care products as well as in household cleaners and detergents. Few Indian major players are as under A C I (Agro Chemical Inds.) Ltd. A V T Agrochem Ltd. Agro Chem Punjab Ltd. Ajay Bio-Tech (India) Ltd. Ankur Agro Chem Ltd Bombay Chemicals Pvt. Ltd
Plant capacity: Acetaldoxime :16.7 MT / dayPlant & machinery: 42 lakhs
Working capital: -T.C.I: Cost of Project : Rs 1334 lakhs
Return: 30.00%Break even: 49.00%
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Business Ideas of L-ASCORBIC ACID (PLAIN)

Business Ideas of L-ASCORBIC ACID (PLAIN). Profitable Business Investment in Chemical Industry. L-Ascorbic acid may be a versatile water soluble radical scavenger widely distributed in aerobic organisms that plays a central role within the protection of cellular components against oxidative harm by free radicals and oxidants that are involved in the development and exacerbation of a large number of chronic diseases similar to cancer, heart disease, brain dysfunction, aging, rheumatism, inflammation, stroke, emphysema, and AIDS. Ascorbic acid (vitamin C) occurs naturally in foods similar to citrus, tomatoes, potatoes, and ivied vegetables. Vitamin c is very important for bones and connective tissues, muscles, and blood vessels. Vitamin c also helps the body absorb iron that is required for red blood corpuscle production. Related Projects:- Chemicals (Organic, Inorganic, Industrial) Projects That is why ascorbic acid content of foodstuffs and beverages represents a relevant indicator of quality that has got to be carefully monitored, concerning its variation during producing and storage. Ascorbic acid is a labile substance, as it is easily degraded by enzymes and atmospheric oxygen. Its oxidation can be accelerated by excessive heat, light, and heavy metal captions Benefits L-ascorbic acid or L-ascorbate is a vital nutrient for many animals, including humans. It is an antioxidant which protects the body against oxidative stress. An antioxidant is a molecule that can inhibit the oxidation of other molecules. Oxidation reactions produce free radicals which can start chain reactions that damage cells. It is also a cofactor in 8 enzymatic reactions. An organic compound - vitamin C is an organic compound, so are the other vitamins. This means it contains the elements carbon and oxygen and is a substance that exists in living things. Collagen - vitamin C is involved in the production of collagen. Collagen is the main component of connective tissue and the most abundant protein in mammals. Experts say that 1% to 2% of muscle tissue is collagen. Collagen is a vital and abundant component of fibrous tissues, such as tendon, ligament, skin, cornea, cartilage, bone, the gut, and blood vessels. Healing - vitamin C plays a significant role in the healing of wounds, cuts and grazes. Infections - individuals with adequate levels of vitamin C are better able to fight off infections compared to people with vitamin C deficiency. Cancer protection - vitamin C slows down the conversion of irritants into cancer-causing substances. Examples of irritants include tobacco smoke, smog, and some substances found in foods. Cardiovascular benefits - experts believe vitamin C widens the blood vessels, protecting us from developing hypertension (high blood pressure) and heart disease. Cholesterol -individuals with adequate levels of vitamin C have better cholesterol level control compared to others. Related Projects: - Chemicals, Biotechnology, Enzymes, Bio Fertilizer, Vermiculture, Vermicompost Chemical & Allied Industries and Alcohol Projects Scurvy - if you consume plenty of vitamin C you will not get scurvy, a disease that causes swollen joints, bleeding gums, loose teeth, anemia and tiredness. Scurvy used to be a problem among ship crews many years ago because of a lack of fruit and vegetable consumption. Today scurvy is uncommon. Eyes - vitamin C lowers the risk of cataracts. Diabetes patients - individuals with diabetes who eat plenty of vitamin C rich fruit and vegetables are less likely to experience deterioration of the kidneys, eyes and nerves. Food Processing- Ascorbic acid (vitamin C) is used extensively in the food industry, not only for its nutritional value but for its many functional contributions to product quality. Acting as an antioxidant, ascorbic acid can improve the color and palatability of many kinds of food products. Market Outlook The global ascorbic acid market is expected to witness growth over the forecast amount because of increasing demand from end-use industries as well as food & drinkable, prescription drugs, chemicals, care, and cosmetics. In addition, growing demand for potassium, calcium, and sodium salts of ascorbic acid or vitamin C as an antioxidant food additive is expected to drive the market over following six years. However, unsure raw material provide and ensuing price fluctuations are anticipated to hamper the market growth. What is more, wide acceptance of ascorbic acid within the food and feed business as a preservative is expected to act as a market restraint over the forecast period. R&D by major business participants alongside technological developments in medical industry is poised to form growth avenues for the ascorbic acid market. Significant growth in dietetic & diabetic population as well as up living standards and rising health awareness are anticipated to create further market opportunities over the forecast period. Related Books: - Chemical Technology (Organic, Inorganic, Industrial), Fine Chemicals Two grades of ascorbic acid are available in the market, viz. food &pharmaceutical and industrial. On the basis of application, the global ascorbic acid market has been segmented into six segments – food & beverage, pharmaceutical, chemical, personal care, agriculture and others. The global ascorbic acid market is estimated to create an incremental $ opportunity US$ 667.6 MN during the forecast, registering a CAGR of 5.1% over 2018-2028. Ascorbic acid also plays a pivotal role in several other commercial applications. Ascorbic acid is also used in bakeries, water treatments plants and beverages. Ascorbic acid helps extend the shelf life of breads by strengthening gluten, aiding higher tenderness and finer crumb, reduction of crust thickness, etc. Ascorbic acid also prevents oxidation during meat and organic fruit juice production. This is essential use for meat and fruit supplier as many supermarkets do not purchase produce that has turned brown. Ascorbic acid is increasingly being used for its ability to separate chlorine from water supply. Ascorbic acid combined with sodium ascorbate can clean chlorine polluted water and make it safe to release back into streams. Superior Functional Attributes of Ascorbic Acid to Propel Market Growth The global ascorbic acid market is expected to witness lucrative growth in the coming years, owing to the significant demand from numerous end-use industries such as chemical, food & beverage, cosmetics, agriculture, pharmaceutical, and others. Shifting preferences towards healthy foods, including nutrition supplements, have been contributing to the growing prominence of vitamin C/ascorbic acid in numerous applications, such as in skin products, healing injuries and prevention of infections and to improve the absorption of iron from food, reduce the risk of chronic diseases, enhance immune health, and control blood pressure. Related Videos:- Chemicals (Organic, Inorganic, Industrial) Additionally, ascorbic acid is required for the growth, development, and repair of all body tissues and to carry out body functions such as the creation of collagen and maintenance of cartilages, bones and teeth. As per health expert recommendations, ascorbic acid is considered as one of the safest and most beneficial nutrients, which in turn is expected to drive the global ascorbic acid market with a healthy growth rate during the forecast period. For instance, according to the American Journal of Clinical Nutrition, those with the highest concentration of ascorbic acid in their blood were associated with a 42% lower stroke risk as compared to those with the lowest concentration. Market participants are emphasizing on strategies, such as mergers, expansion, acquisitions, and the introduction of innovative products, to fulfil the high demand from end-use markets. Such strategies across the competitive landscape form a notable trend in the global ascorbic acid market. Global Ascorbic Acid Market Segmentation The global ascorbic acid market can be segmented on the basis of grade, application, and region. On the basis of product grade, the global ascorbic acid market can be segmented into two segments – industrial and food & pharmaceutical. On the basis of application, the global ascorbic acid market can be segmented into six segments – food & beverage, pharmaceutical, chemical, personal care, agriculture, and others. The food & beverage segment is expected to grow with a CAGR of 4.9% during the forecast period (2018–2028). Related Videos: - Production of Vitamin C (Ascorbic Acid). L-Ascorbic Acid Manufacturing Business The global ascorbic acid market is estimated to register a significant growth rate in the near future. South Asia is estimated to be a prominent region in terms of both volume and value share in the global ascorbic acid market. China and India are major consumers in the ascorbic acid market due to the presence of a number of small-sized manufacturing players, especially, chemical, pharmaceutical, and food industries. Developed markets, including Europe and North America, are anticipated to hold a collective revenue share of around a fourth of the market value in the global ascorbic acid landscape through 2028. Key Players:- Ambalal Sarabhai Enterprises Ltd. Jayant Vitamins Ltd. Romeda Chemicals Ltd. Synbiotics Ltd. Koninklijke DSM N.V. Northeast Pharmaceutical Group Co., Ltd. Bactolac Pharmaceutical Inc Merck KGaA Koninklijke DSM N.V. Northeast Pharmaceutical Group Shandong Luwei Pharmaceutical Foodchem International Corporation Tags:- #vitaminc #ascorbicacid #SodiumAscorbate #chemicalindustry #DetailedProjectReport #businessconsultant #BusinessPlan #feasibilityReport #NPCS #industrialproject #entrepreneurindia #startupbusiness #startupbusinessideas #businessestostart #startupideas
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Calcium & Zinc Stabilizer for Pipe and Foam board Application

Stabilisers are added to PVC to allow its processing and to improve its resistance especially in outdoor applications, weathering and heat ageing and have an important influence on the physical properties of PVC finished articles. Factors such as process technology involved, technical requirements of PVC end product, regulatory requirements and cost, influence the choice of the stabilizer used. Calcium-based stabilisers have also been introduced in PVC rigid calendering film production when improved organoleptic characteristics are required, for instance as alternative to tin mercaptides in transparent food packaging application or as alternative to tin carboxylates in PVC blown films shrinkable and for candy wrap. Similarly, calcium-based stabilisers are now an alternative to Liquid Mixed Metals (LMM) for several flexible applications, especially for the indoor ones, when stringent air quality requirements are in place (see “VOC improvement” under the liquid stabilisers). The use of calcium/zinc stabilizer systems has been common in PVC. Because of the characteristics of calcium/zinc stabilized materials they are widely used in many flexible and rigid PVC applications. This type of stabilizing system can give products which have a high degree of clarity, good mechanical and electrical properties, excellent organoleptic properties and good outdoor weather ability. Calcium zinc stabilizer is synthesized by special composite technology with calcium salt, zinc salt, lubricant and antioxidant as the main components. It can not only replace lead cadmium salt and organic tin and other toxic stabilizers, but also has good thermal stability, optical stability, transparency and coloring power. Practice has proved that, in PVC resin products, good processing performance, thermal stability is equivalent to lead salt stabilizer, is a good non-toxic stabilizer. The global metallic stearate market size was valued at USD 3,017.7 million in 2016. The U.S. metallic stearate market size was recorded at USD 263.9 million in 2016 and is anticipated to grow at a CAGR of over 3% from 2017 to 2025. There are various product types in the industry, including ones based on zinc, calcium, aluminum, and magnesium. The others segment includes, sodium and lithium stearates. The demand for the product in various applications, such as plastics, rubber, pharmaceutical, cosmetics, building & construction, and paints & coatings has increased over the years, and is expected to expand in major markets such as China and India.As a whole any entrepreneur can venture in this project without risk and earn profit.
Plant capacity: Calcium Stabilizer :1.33 MT / day Zinc Stabilizer:1.33 MT / day Calcium-Zinc Stabilizer:1.33 MT / dayPlant & machinery: Rs 62 lakhs
Working capital: -T.C.I: Cost of Project : Rs 291 lakhs
Return: 27.00%Break even: 58.00%
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Hydrated Lime Production from Limestone

The term “hydrated lime” is widely used to describe a powdered calcium hydroxide product made by reacting quicklime with a controlled excess of water. The product is essentially dry and generally contains less than 1% of un-reacted water. The process is called “hydration” and should be differentiated from “slaking” which involves the production of a dispersion of calcium hydroxide in water. However, the expression “slaked lime” is used as a generic term for hydrated lime, milk of lime and lime putty. An estimated 10 to 15% of the quicklime produced in developed countries is converted in to hydrated lime and the percentage may be higher in countries which do not have a large steel industry. Because hydrating plants are relatively complex and can be fed with surplus grades of quicklime, there are relatively few of them and they are normally located at a lime works. While the chemical reactions involved in the formation of hydrated lime are simple, the physical chemistry is complex. Lime is second to petroleum as the world's most widely used chemicals. It is used for coagulation, hydroxylation and absorption. Lime is a major component of fertilizer and soil conditioner in agriculture. In the preparation of insecticides, medicines and livestock feeds, lime is used. In the chemical industries, leather industries use lime extensively for liming. Other industries that use lime include cement, soap, steel and paper industries. The global hydrated lime market size will grow by 31.24 MMT during 2018-2022. In terms of value, the global lime market is anticipated to expand at a CAGR of ~ 6% and reach a value of US$ ~65.4 Bn by 2027. Hydrated Lime is a caustic solid substance, white when pure and is obtained by calcining limestone and others forms of calcium carbonates. Hydrated lime has become one of the most important industrial minerals because of its chemical and physical properties, as well as its commercial importance and the simplicity in its production. They are agriculture, water treatment, building, tannery, food processing, breweries, and soft drink, paint and chemical industries. On the basis of geography, the global hydrated lime market can be segmented into nine key regions, namely, South East Asia Pacific, Latin America, Western Europe, Middle East & Africa, China, Japan, Eastern Europe, and India. With growing investments in the Latin America region in the construction sector, the market in the region is projected to witness significant traction. Further, an increase of coal mining and the production of coal in the Asian market are expected to subsequently drive the demand for hydrated lime at the regional level. Increasing demand for pesticides from the South East Asia Pacific region, the hydrated lime market is estimated to grow with a healthy growth rate. Also, China and India are major consumers of hydrated lime. In term of steel production, Europe dominates the market (the region has 168.7 million metric tons production of steel in 2017), owing to that, the demand for hydrated lime in Europe will increase in next few years. Further, the hydrated lime market in developed economies like North America estimated to grow with a healthy growth rate during the forecast period. Few major players are as under Shandong Zhongxin Calcium Industry Co., Ltd., Mississippi Lime Company, Pete Lien & Sons, Inc., Linwood Mining & Minerals Corp., Lhoist, Cheney Lime & Cement Company, United States Lime & Minerals Inc.
Plant capacity: Hydrated Lime: 120 MT / day Plant & machinery: Rs 181 lakhs
Working capital: -T.C.I: Cost of Project: Rs 1415 lakhs
Return: 28.00%Break even: 68.00%
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Information
  • One Lac / Lakh / Lakhs is equivalent to one hundred thousand (100,000)
  • One Crore is equivalent to ten million (10,000,000)
  • T.C.I is Total Capital Investment
  • 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.
  • Caution: The project's cost, capacity and return are subject to change without any notice. Future projects may have different values of project cost, capacity or return.

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