Manufacture of Value Added Products from Rice Husk (Hull) and Rice Husk Ash (RHA)(2nd Revised Edition)


Book Description

Manufacture of Value Added Products from Rice Husk (Hull) and Rice Husk Ash (RHA) (Precipitated Silica, Activated Carbon, Cement, Electricity, Ethanol, Hardboard, Oxalic Acid, Paper, Particle Board, Rice Husk Briquettes, Rice Husk Pellet, Silicon, Sodium Silicate Projects) Rice husk is the outermost layer of protection encasing a rice grain. Rice husk was largely considered a waste product that was often burned or dumped on landfills. Many ways are being thought for disposal of rice husk and only a small quantity of rice husk is used in agricultural field as a fertilizer, or as bedding and for stabilisation of soils. Therefore, the use of rice husk as rice husk ash is one of the most viable solution. The husk can be used for poultry farming, composting or burning. In the case of burning, it has been used as biomass to power reactors to generate thermal or electrical energy. India is a major rice producing country and the husk generated during milling is mostly used as a fuel in the boilers for processing paddy, producing energy through direct combustion and / or by gasification. The rice husk ash causes more environmental pollution and its disposal becomes a problem, hence requires attention regarding its disposal and its reuse. The ash is mainly composed of carbon and silica due to which it is used to manufacture different value added products. This book provides thorough information to utilize RHA with process pathway for economically valuable products. This handbook explains manufacturing process with flow diagrams of various value added products from rice husk & rice husk ash, photographs of plant & machinery with supplier’s contact details and sample plant layout & process flow sheets. The major contents of the book are rice husk, rice husk ash RHA), precipitated silica from rice husk ash, activated carbon from rice husk, cement from rice husk ash, electricity from rice husk, ethanol from rice husk, hardboard from rice husk, oxalic acid from rice husk, paper from rice husk, particle board from rice husk, rice husk briquettes, rice husk pellet, silicon from rice husk, sodium silicate from rice husk, packaging. This book will be a mile stone for the entrepreneurs, existing units, professionals, libraries and others interested in recovery of value added products from rice husk (rice hull) & rice husk ash to explore an economic way for recycle and reuse of agricultural waste. TAGS How to Manufacture Rice Husk based Products, Forming Products from Rice Husk, Rice Husk Ash Fuel & Powder Value Added Products, Rice Husk based Products, How to Produce Rice Husk based Products, Rice Husk (Hull), Rice Husk as a by-Product, How to Earn Money from Rice Husk Ash, Profitable Project Investment Opportunity in by-Product from Rice Husk Ash Rice Husk (Hull), Value Added Products From Rice Husk or Rice Hull Ash, Rice Husk Products, Rice Husk Product Production, Making of Rice Husk in India, Rice Husk Ash, Rice husk as a by-product, Rice Husk ash fuel, Use of Rice Husk Ash, Manufacturing of Rice Husk Ash, Study on properties of rice husk ash and its use, Projects on Rice Husk, Rice Hull, Rice Husk Ash, Properties and Industrial Applications of Rice husk, Rice Husk Production, Manufacturing of Products form rice hull, Potential of Rice Husk, Utilization of Rice Husk and their Ash in Product Manufacturing, Projects on Rice Husk, Projects on Rice Hull, Investment Opportunities in Manufacturing of Rice Husk, How to make Rice Husk Ash, Rice Husk Ash Production Process, RHA, Rice Husk Grinding, Rice Husk Granulation, Energy From Rice Husk, Projects on Rice Husk Products, Rice Husk and Powder, Rice Husk Production, Process of Manufacture of Products from Rice Husk Ash and Rice Hull, How to Make Rice Husk, Rice Husk Ash Making, Forming Products from Rice Hull




Handbook on Food Biotechnology (Extraction, Processing of Fruits, Vegetables and Food Products) 2nd Revised Edition


Book Description

Modern biotechnology refers to various scientific techniques used to produce specific desired traits in plants, animals or microorganisms through the use of genetic knowledge. Since its introduction to agriculture and food production in the early-1990, biotechnology has been utilized to develop new tools for improving productivity. Biotechnology is a broad term that applies to the use of living organisms and covers techniques that range from simple to sophisticated. In contrast, modern agricultural biotechnology techniques, such as genetic engineering, allow for more precise development of crop and livestock varieties. The potential benefits of biotechnology are enormous. Food producers can use new biotechnology to produce new products with desirable characteristics. These include characteristics such as disease and drought-resistant plants, leaner meat and enhanced flavor and nutritional quality of foods. This technology has also been used to develop life-saving vaccines, insulin, cancer treatment and other pharmaceuticals to improve quality of life. It is estimated that in the next 20-30 years demand for food will increase by 70%. Biotechnology will be key to meeting this demand. This handbook is designed for use by everyone engaged in thefoodtechnologysuch as fermentation, developing and testing of food and students who are pursuing their career in food biotechnology. It provide all information on modern cooking, food processing and preservation methods, juice preparation methods, etc. The major content of the book are Fermenter and Bio-Reactor Design, Development and Testing of a Milled Shea Nut Mixer, Production of Pure Apple Juice in Natural Colour, Drying of Ginger using Solar Cabinet Dryer, Roasting of Coffee Beans, Processing of Guava into Pulp Guava Leather, Processing and Preservation of Jack Fruit, Quality Changes in Banana, Processing and Quality Evaluation of Banana Natural Colour, Large Scale Separation and Isolation of Proteins, Preparation and Storage Studies on Onion-Ginger-Garlic Paste, Bitterness Development in Kinnow Juice, Effect of Incorporation of Defatted Soyflour, Gum from Ber Fruits, Juice Extraction of Aonla (EmblicaOfficinalisGaertn.) Cv. ‘Chakaiya’, Defatted Mucuna Flour in Biscuits, Detoxifying Enzymes, Processing Methods and Photographs of Machinery with Suppliers Contact Details. This book will be a mile stone for its readers who are new to this sector, will also find useful for professionals, entrepreneurs, those studying and researching in this important area.




The Complete Book on Ginger Cultivation and Manufacture of Value Added Ginger Products (Ginger Storage, Ginger Oil, Ginger Powder, Ginger Paste, Ginger Beer, Instant Ginger Powder Drink and Dry Ginger from Green Ginger)


Book Description

Ginger is the common name for Zingiber officinale, which was originally cultivated in China and now equally spread around the world. Ginger is a herb but is often known as a spice, with a strong distinct flavor that can increase the production of saliva. The part that is used as spice on the plant itself is the rhizomes or ginger root. This ginger root is traditionally used with sweet foods in Western cuisine being included in popular recipes such as ginger ale, gingerbread, ginger biscuits and ginger cake. It is also used in many countries as a medicinal ingredient which many believe in. Historically, ginger has a long tradition of being very effective in alleviating symptoms of gastrointestinal distress. In herbal medicine, ginger is regarded as an excellent carminative and intestinal spasmolytic. Modern scientific research has revealed that ginger possesses numerous therapeutic properties including antioxidant effects, an ability to inhibit the formation of inflammatory compounds, and direct anti-inflammatory effects. India is the leading producer of ginger oil and dominates the ginger oil market with almost half shares out of total market. China is also known for ginger production and trade of ginger oil. Asia Pacific mainly exports ginger oil to North America and European markets. Increasing number of health conscious consumers, and their demands for natural oils and extracts based products is the major factor driving growth for essential oils and in turn ginger oil market. Ginger is majorly used in spices and thus ginger oils and oleoresins are preferred to prepared dried spices as flavoring in food industry, because they are more stable, contamination free, cleaner and can be easily standardized by blending. Thus the growth of food industry and spices demand are another factors driving growth of ginger oil market. The growth of natural personal care products industry is another growth driver for ginger oil market. The major content of the book are Ginger Cultivation, Farm and Forestry Production for Ginger, Diseases & Pest Management in Ginger, Medicinal Values of Ginger, Active Ingredients of Ginger, Pharmacological Activity of Ginger, Ginger Storage, Ginger Processing, Ginger Oleoresin, Ginger Oil, Ginger Beer, Ginger Powder, Ginger Paste, Instant Ginger Powder Drink, Ginger Candy, Dry Ginger from Green Ginger, Extraction of Ginger Oleoresin from Ginger-Root Using Co2,Production of Ginger Rhizome by Shoot-Tip Culture, Extraction of Essential Oils from Ginger Rhizome Using Steam Distillation Method, Packaging and Labelling BIS Specifications, Good Manufacturing Practices, Sample Plant Layouts, Photoraphs of Machinery with Suppliers Contact Details. This book will be a mile stone for its readers who are new to this sector, will also find useful for professionals, entrepreneurs, those studying and researching in this important area.




Surfactants, Disinfectants, Cleaners, Toiletries, Personal Care Products Manufacturing and Formulations (2nd Revised Edition)


Book Description

Surfactants, Disinfectants, Cleaners, Toiletries, Personal Care Products Manufacturing and Formulations (Phenyl, Naphthalene Ball, Mosquito Coil, Floor Cleaner, Glass Cleaner, Toilet Cleaner, Utensil Cleaning Bar, Liquid Detergent, Detergent Powder, Detergent Soap, Liquid Soap, Handwash, Hand Sanitizer, Herbal Shampoo, Henna Based Hair Dye, Herbal Cream, Shaving Cream, Air Freshener, Shoe Polish, Tooth Paste) (2nd Revised Edition) The term surfactant comes from the words surface active agent. A surfactant is briefly defined as a material that can greatly reduce the surface tension of water when used in very low concentrations. These are one of many different compounds that make up a detergent. They are added to remove dirt from skin, clothes and household articles particularly in kitchens and bathrooms. They are also used extensively in industry. A disinfectant or agent that frees from infection is ordinarily a chemical agent which kills disease germs or other harmful microorganisms and is applied to inanimate objects. The specific way in which a disinfectant agent is used is dependent on both the desired objective and the infectious agent present. Growing emphasis on health, safety and sanitation is fuelling demand for disinfectants & surfactants across industries such as food processing, healthcare and consumer. Personal care industry in India is very huge and is one of the main key drivers for Indian surfactants market. Surfactants industry has a large market for consumer products. This handbook contains processes formulae of various products and providing information regarding manufacturing method. It covers raw material suppliers, photographs of plant & Machinery with supplier’s contact details and some plant layout & process flow sheets. The Major Contents of the book are phenyl, floor cleaner, glass cleaner, toilet cleaner, mosquito coils, liquid detergent, detergent powder, detergent soap, naphthalene balls, air freshener, shoe polish, tooth paste, shaving cream, liquid soaps and handwashes, herbal shampoo, heena based hair dye, herbal creams, utensil cleaning bar, hand sanitizer etc. It will be a standard reference book for professionals, entrepreneurs,those studying and researching in this important area and others interested in the field of surfactants, disinfectants, cleaners, toiletries, personal care products manufacturing. TAGS production process of surfactants, surfactant manufacturing, production process of surfactants, production of surfactants, production of disinfectant, disinfectant manufacturing, how surfactants are made, how to start a soap making business, soap manufacturing business, soap making business startup, how to start a successful soap making business, soaps & detergents: manufacturing, how to set up a soap manufacturing industry, soap making, soaps and soap making, how to start soap business industry, soap manufacturing process, manufacturing of soaps, saponification, ]preparation of soap, soap production, soap making ingredient, soap making methods, soap manufacturing business, production of disinfectant, how to produce disinfectants and germicides, how to manufacture disinfectants, soaps and detergents, personal care product contract manufacturing, personal skin care product formulation manufacturing, how to start personal care products manufacturing industry, skin care production processes, cosmetic formulation of skin care products, cosmetics manufacturing business, how to start cosmetics manufacturing business , how to start personal care products manufacturing industry, personal care products industry, how to start a cosmetic business, skin care formulation, personal care and cosmetic formulation, formulation and development of cosmetics and personal care products, how to formulate skin care products, cosmetic formulation of skin care products, skin care and cosmetic ingredients




Soaps, Detergents and Disinfectants Technology Handbook- 2nd Revised edition (Washing Soap, Laundry Soap, Handmade Soap, Detergent Soap, Liquid Soap , Hand Wash, Liquid Detergent, Detergent Powder , Bar, Phenyl, Floor Cleaner, Toilet Cleaner, Mosquito Coils, Naphthalene Balls, Air Freshener, Hand Sanitizer and Aerosols Insecticide)


Book Description

Soaps are cleaning agents that are usually made by reacting alkali (e.g., sodium hydroxide) with naturally occurring fat or fatty acids. A soap is a salt of a compound known as a fatty acid. A soap molecule consists of a long hydrocarbon chain (composed of carbons and hydrogens) with a carboxylic acid group on one end which is ionic bonded to a metalion, usually a sodium or potassium. The hydrocarbon end is nonpolar and is soluble in nonpolar substances (such as fats and oils), and the ionic end (the salt of a carboxylic acid) is soluble in water. Soap is made by combining tallow (or other hard animal fat) or vegetable or fish oil with an alkaline solution. The two most important alkalis in use are caustic soda and caustic potash. A detergent is an effective cleaning product because it contains one or more surfactants. Because of their chemical makeup, the surfactants used in detergents can be engineered to perform well under a variety of conditions. Such surfactants are less sensitive than soap to the hardness minerals in water and most will not form a film. Disinfectants are chemical agents applied to non-living objects in order to destroy bacteria, viruses, fungi, mold or mildews living on the objects. Disinfectants are chemical substances used to destroy viruses and microbes (germs), such as bacteria and fungi, as opposed to an antiseptic which can prevent the growth and reproduction of various microorganisms, but does not destroy them. The ideal disinfectant would offer complete sterilization, without harming other forms of life, be inexpensive, and non-corrosive. The global soap and detergent market is expected to reach USD 207.56 billion by 2025. The industrial soaps & detergents are extensively used by the commercial laundries, hotels, restaurants, and healthcare providers. Increasing demand from healthcare and food industries will continue to drive the market. Aerosol and liquid products are the common disinfectants used in hospitals, although growing number of healthcare facilities are implementing ultraviolet disinfection systems as further measure. Increasing demand for disinfectants from water treatment and healthcare industries is fuelling growth of the global disinfectants market. The major contents of the book are Liquid Soaps and Hand Wash, Liquid Soap and Detergents, Washing Soap: Laundry Soap Formulation, Antiseptic and Germicidal Liquid Soap, Manufacturing Process And Formulations Of Various Soaps, Handmade Soap, Detergent Soap, Liquid Detergent, Detergent Powder, Application and Formulae Of Detergents, Detergent Bar, Detergents Of Various Types, Formulating Liquid Detergents, Phenyl, Floor Cleaner, Toilet Cleaner, Mosquito Coils, Naphthalene Balls, Air Freshener (Odonil Type), Liquid Hand Wash and Soaps, Hand Sanitizer, Aerosols–Water and Oil Based Insecticide (Flies, Mosquitoes Insect and Cockroach Killer Spray), Ecomark Criteria for Soaps & Detergents, Plant Layout, Process Flow Chart and Diagram, Raw Material Suppliers List and Photographs of Machinery with Supplier’s Contact Details. This book will be a mile stone for its readers who are new to this sector, will also find useful for professionals, entrepreneurs, those studying and researching in this important area. TAGS Soaps & Detergents Manufacturing, Manufacture of Soap, Soap Manufacturing Process, Manufacturing of Soaps, Soap Manufacturing, Soaps and Detergents, Raw Materials for Soap Production, Soap Manufacturing Process Flow Chart, Bar Soap Manufacturing Process, Washing Soap Manufacturing Process, Soap Manufacturing Process Pdf, Soap Manufacturing Process PPT, Soap Making Process in Factories, Soap Making Process, Soaps and Detergents Production, Soap Manufacturing Business, Soap Industry, Manufacture of Soap and Detergents, How to Make Soap? Detergents Manufacturing Process, Detergent Production, Detergent Manufacturing Business, Manufacture of Detergent Powder, Detergent Manufacturing, Detergent Manufacturing Process Pdf, Detergent Powder Manufacturing Process Pdf, Detergent Manufacturing Process Flow Chart, Liquid Detergent Manufacturing Process, Raw Materials for Detergent Manufacturing, Detergent Soap Manufacturing Process, Ingredients of Detergent Powder Formula, Detergent Powder Manufacturing Plant Cost, How to Manufacture Detergents, Soap and Other Detergent Manufacturing, Detergents Production, Soap, Washing Powder & Detergents Making, Detergent Manufacture, Soaps, Detergents, Disinfectants, Washing Soap, Laundry Soap, Handmade Soap, Detergent Soap, Liquid Soap , Hand Wash, Liquid Detergent, Detergent Powder , Bar, Phenyl, Floor Cleaner, Toilet Cleaner, Mosquito Coils, Naphthalene Balls, Air Freshener, Hand Sanitizer and Aerosols Insecticide, Production of Disinfectant, How to Produce Disinfectants, Manufacture of Disinfectants, Project Report on Detergent Manufacturing Industry, Detailed Project Report on Detergent Manufacturing, Project Report on Soap Manufacturing, Pre-Investment Feasibility Study on Soap Manufacturing, Techno-Economic feasibility study on Soaps & Detergents Production, Feasibility report on Soap Manufacturing, Free Project Profile on Detergent Manufacturing, Project profile on Detergent Manufacturing, Download free project profile on Soaps & Detergents Production




Phenolic Resins Technology Handbook (2nd Revised Edition)


Book Description

Phenolic resins, also known as phenol–formaldehyde resins, are synthetic polymers that are produced from the reaction of phenol or substituted phenol with formaldehyde at high temperatures. These are widely used in wood adhesives, molding compounds, and laminates. The resins are flame-retardant, demonstrate high heat resistance, high tensile strength, and low toxicity, and generate low smoke. In the report, the phenolic resins market is segmented on the basis of product type, application, and region. Phenolic Resin Market size estimated to reach at USD 19.13 billion in 2026. Alongside, the market is anticipated to grow at a CAGR of 5.4% during the forecast period. The global phenolic resins market has experienced a notable growth and it has been projected that the global market will see stable growth during the forecast period. The high mechanical strengths, low toxicity, heat resistance, low smoke and other several properties has made the phenolic resins to make their use in the applications such as in laminations, wood adhesives, molding compound, construction, automobile and others. Growing demand of these applications has increased the production of phenolic resins to meet the current market demand. Also, phenolic resins is used in flame retardant which is very crucial for automobiles and aircrafts. This book basically deals with general reaction of phenols with aldehydes, the resoles, curing stages of resoles, kinetics of a stage reaction, chemistry of curing reactions, kinetics of the curing reaction, the novolacs, decomposition products of resites, acid cured resites, composition of technical resites, mechanisms of rubber vulcanization with phenolic resins, thermosetting alloy adhesives, vinyl phenolic structural adhesives, nitrile phenolic structural adhesives, phenolic resins in contact adhesives, chloroprene phenolic contact adhesives, nitrile phenolic contact adhesives, phenolic resins in pressure sensitive adhesives, rubber reinforcing resins, resorcinol formaldehyde latex systems, phenolic resin chemistry, bio-based phenolic resins, flexibilization of phenolic resins, floral foam (Phenolic Foam) with resin manufacturing, lignin-based phenol formaldehyde (LPF) resins, phenol formaldehyde resin, alkaline phenol formaldehyde resin, furfuryl alcohol phenol urea formaldehyde resin, phenol formaldehyde resin (Shell Sand Resin), phenol formaldehyde resin (Cold Box Resin), effluent treatment plant, standards and legislation, marketing of thermoset resins, process flow sheet, sample plant layout and photographs of machinery with supplier’s contact details. A total guide of phenolic resins and entrepreneurial success in one of today's most lucrative resin industry. This book is one-stop guide to one of the fastest growing sectors, where opportunities abound for manufacturers, retailers, and entrepreneurs. This is the only complete handbook on Phenolic resins.




The Complete Book on Glass and Ceramics Technology (2nd Revised Edition)


Book Description

Ceramics also known as fire clay is an inorganic, non-metallic solid article, which is produced by the art or technique of heat and subsequent cooling. The ceramics industry in India came into existence about a century ago and has matured over time to form an industrial base. From traditional pottery making, the industry has evolved to find its place in the market for sophisticated insulators, electronic and electrical items. The ceramic industry has been modernizing continuously, by newer innovations in product design, quality etc. Glass is an inorganic product typically produced by melting a mixture of silica, soda and calcium compound with desired metallic oxides that serves as coloring agents. Indian glass industry will increase on the sidelines of real estate growth across retail, residential and office estate. Glass production involves the fusion of several inorganic substances. These various substances include products such as silica sand, soda ash, dolomite and limestone, representing together 99% of all the raw materials, excluding recycled glass. Glass-ceramics are mostly produced in two steps: First, a glass is formed by a glass-manufacturing process. The glass is cooled down and is then reheated in a second step. In this heat treatment the glass partly crystallizes. In most cases nucleation agents are added to the base composition of the glass-ceramic. These nucleation agents aid and control the crystallization process. Glass-ceramics are fine-grained polycrystalline materials formed when glasses of suitable compositions are heat treated and thus undergo controlled crystallization to the lower energy, crystalline state. It is important to emphasize a number of points in this statement on glass ceramics.Glass ceramics has helped the electronics industry build much smaller and highly efficient transistors, leading to advances in all types of devices. The book covers almost all important aspects of Glass and Ceramic Industry: Properties, Applications, Manufacturing, Processing and Photographs of Plant &Machinery with Supplier’s Contact Details. The major contents of the book are types of glasses, silicate glasses, boric oxide and borate glasses, phosphorus pentoxide and phosphate glasses, germanium dioxide and germanate glasses, titanate glasses, nitrate glasses, glasses based on water, halide glasses, modern glass working, monax and pyrex glass, electric welding, photo electric cells, glassy metals, analysis of glass, glass ceramics, ceramics as electrical materials, analysis of ceramics etc. The book will be useful to the consultants, technocrats, research scholars, libraries and existing units and new entrepreneurswho will find a good base to work further in this field. TAGS applications of Ceramics, Best small and cottage scale industries, Boric Oxide and Borate Glasses, Business guidance for glass ceramics, Business Plan for a Startup Business, Business start-up, Ceramic and glass business, ceramic business ideas, Ceramic forming techniques, Ceramic Industry, Ceramic Material Manufacturing Methods, Ceramic processing, Ceramics and Glass Technology, Ceramics Based Profitable Projects, Ceramics Based Small Scale Industries Projects, ceramics business plan, Ceramics Forming Processes, Ceramics pottery Manufacturing, Ceramics Processing Projects, Ceramics Production Industry in India, Chalcogenide Glasses, Germanium Dioxide and Germanate Glasses, Glass & ceramics Business, Glass & ceramics Small Business Manufacturing, Glass and Ceramics, glass and ceramics industry, Glass and Ceramics Technology, Glass Based Profitable Projects, Glass Based Small Scale Industries Projects, Glass Ceramic Products, Glass Ceramics Industry, glass ceramics properties, Glass Forming & Processing, glass forming process, Glass Forming Technology, Glass making - Industry process, Glass Manufacture and Processing, Glass Manufacturing Process, Glass Processing Projects, Glass production, Glass Production Industry in India, Glass-ceramic materials, Glass-ceramics: their production, properties and potential, Great Opportunity for Startup, Halide Glasses, How to Start a Ceramic Business, How to Start a Ceramics Production Business, How to start a glass & ceramics business?, How to Start a Glass Production Business, How to start a successful glass ceramics business, How to Start Ceramics Production Industry in India, How to Start Glass Production Industry in India, Modern Glass Working, Modern Small and Cottage Scale Industries, Monax and Pyrex Glass, Most Profitable Ceramics manufacturing Business Ideas, Most Profitable Glass manufacturing Business Ideas, New small scale ideas in Ceramics Production industry, New small scale ideas in Glass Production industry, Nitrate Glasses, Phosphorus Pentoxide and Phosphate Glasses, Processing Glass and Glass-Ceramics, Production of Glass Ceramic, Profitable Small and Cottage Scale Industries, Profitable Small Scale glass ceramics manufacturing, Project for startups, Properties of Ceramics, Setting up and opening your glass & ceramics Business, Setting up of glass ceramics Processing Units, Silicate Glasses, Small Scale Ceramics Production Projects, Small scale Commercial glass & ceramics industry, Small scale glass & ceramics production line, Small Scale Glass Production Projects, Small Start-up Business Project, Start Up India, Stand Up India, Start your own business in ceramics, Starting a Ceramic Business, Starting a Ceramics Production Business, Starting a Glass Production Business, Start-up Business Plan for glass & ceramics, Startup ideas, Startup Project, Startup Project for glass & ceramics Industry, Startup project plan




Modern Technology of Synthetic Resins & Their Applications (2nd Revised Edition)


Book Description

Synthetic resin is typically manufactured using a chemical polymerization process. This process then results in the creation of polymers that are more stable and homogeneous than naturally occurring resin. Since they are more stable and are cheaper, various forms of 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 dicarboxylic 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. The applications of synthetic resins are seen in some important industries like paint industry, adhesive industry, the printing ink industry, the textile industry, the leather industry, the floor polish, paper, agricultural industry etc. As it can be seen that there is an enormous scope of application of resins hence it is one of the major field to venture. Synthetic Resins are materials with properties similar to natural plant resins. They are viscous liquids capable of hardening permanently. Chemically they are very different from resinous compounds secreted by plants. Synthetic resins are of several classes. 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 major contents of the book are properties, manufacturing process, formulae of synthetic resins and applications of synthetic resins, derivatives of resins, use of resins in polymer field, alkyd resin technology, epoxy resins, manufacture of polystyrene based ion-exchange, phenol formaldehyde reactions, polycarbonates resins, polyester coating compositions, synthetic rubbers, modification with synthetic resins, water-soluble polymers, cross-linking of water-soluble coatings etc. This book also contains the list of manufacturers and dealers of raw materials, list of Chemical Plant, Photographs of Machinery with Suppliers Contact Details, Sample Plant Layout and Process Flow Chart. The book will be very useful for new entrepreneurs, manufacturers of synthetic resins who can easily extract the relevant formulation and manufacturing process from the book. TAGS Alkyl and hydroxy alkyl alkylcellulose, Applications of Synthetic Resins, Best small and cottage scale industries, Business Plan for a Startup Business, Business start-up, Emulsion polymers manufacture, Formulation of Synthetic Resins, Formulation of Resins, Great Opportunity for Startup, How to Manufacture Synthetic Resins, How to start a successful synthetic resin business, How to start a synthetic resin production Business, How to start a synthetic resin production?, How to Start Emulsions of Synthetic Resin Business, How to start synthetic resin production Industry in India, Indene-coumarone resins, Manufacturing process of Acrylonitrile Resins, Manufacturing process of Actel Resins, Manufacturing process of Alkyd Resin, Manufacturing process of Amino Resins, Manufacturing process of Casein Resins, Manufacturing process of Epoxy Resins, Manufacturing process of Ion-exchange Resins, Manufacturing process of Phenolic resins, Manufacturing process of Polyamide Resins, Manufacturing process of Polycarbonates Resins, Manufacturing process of Polyesters, Manufacturing process of Polyurethane resins, Manufacturing process of Polyvinyl Acetate Solid Resins, Manufacturing process of Silicone resins, Modern small and cottage scale industries, Most Profitable Synthetic resin Business Ideas, New small scale ideas in synthetic resin production industry, Process of making synthetic resin adhesive, Processing of synthetic resin, Production of a synthetic resin, Profitable small and cottage scale industries, Profitable Small Scale synthetic resin Manufacturing, Project for startups, Resin Types and Production, Rosin & rosin derivatives, Rubber resins Formulation, Setting up and opening your synthetic resin Business, Shellac resins, Small scale Commercial synthetic resin making, Small Scale Synthetic resin manufacturing Projects, Small scale synthetic resin production line, Small Start-up Business Project, Start Up India, Stand up India, Starting a synthetic resin production Business, Start-up Business Plan for synthetic resin production, Startup ideas, Startup Project, Startup Project for synthetic resin production, Startup project plan, Sucrose resins, Synthetic resin Based Profitable Projects, Synthetic resin Based Small Scale Industries Projects, Synthetic Resin Business, Synthetic resin Making Small Business Manufacturing, Synthetic Resin Manufacturing, Synthetic resin manufacturing Industry in India, Synthetic resin manufacturing process, Synthetic resin manufacturing Projects, Synthetic resin method, Synthetic resin production, Synthetic resin production Business, Synthetic Resin Technology with formulation, Synthetic resin uses, Synthetic Resins, Synthetic Resins - Resin Chemical, Synthetic Resins and Polymer Emulsion, Synthetic Resins Technology book, Technological advances in the manufacture of resins, Technology of Synthetic Resins, Terpene resins, Types and applications of synthetic resin, Uses of rosin in the polymer fiel, Water-reducible resins




Manufacture of Pan Masala, Tobacco and Tobacco Products (Tobacco Cultivation, Chewing Tobacco, Cigarettes, Bidi, Cigars, Khaini, Zarda, Gutka, Katha, Mouth Freshner, Pan Chatni, Kimam, Sweet Supari, Nicotine Sulphate, USP Nicotine, Nicotine Tartarate, Nicotine, Polacrilex Resin)


Book Description

Tobacco comes from a leafy plant that tends to grow in warm tropical areas. It is famously grown all over the Caribbean, where the warm, sunny conditions make for a perfect growing climate. Tobacco is usually smoked as a nicotinic stimulant and is mostly processed, rolled and dried before being smoked. Different geographies produce different types of the plant. The taste and flavor of the leaves are the characteristic trademarks of different types. The process of curing also determines the type of tobacco. Tobacco products include cigarettes, cigars, loose pipe tobacco, chewing tobacco, and snuff. These products contain the dried, processed leaves of the tobacco plant nicotiana rustica or nicotiana tabacum. All tobacco contains nicotine, an addictive drug. Today’s tobacco also contains thousands of other chemicals designed to make the products more user-friendly and addictive. Nicotine is a nitrogen-based compound which dissolves in organic compounds. Tobacco leaves contain plenty of nicotine which evaporates on burning. This nitrogen-based compound is addictive in low amounts and toxic in high doses. Nicotine Sulfate is a potent pesticide, known for its high toxicity. A large proportion of Indian economy is agro based in which Tobacco is one of the principal cash crops. The tobacco production and its allied products’ sales in the country have played a prominent role in the development of nation’s economy. India is the largest tobacco market in the world in terms of tobacco consumption. The smokeless tobacco has historically been served as a tradition in India for many decades. Tobacco Waste or dust is generated at various stages of post-harvest processing of tobacco and also while manufacturing various tobacco products mainly during manufacture of tobacco products like cigarette and Beedi. The types of wastes generated during pre and post-harvest practice of tobacco include suckers, stems, mid ribs, leaf waste and dust. The main contents of the book are Tobacco Cultivation, Tobacco Diseases and Pests, Organic Tobacco Production, Chewing Tobacco, Cigarettes, Bidi, Cigars, Readymade Khaini, Chewing Tobacco (Khaini), Zarda, Gutka, Katha, Mouth Fresheners, Pan Chutney, Pan Masala, Kimam, Tobacco of Various Grade, Sweet Supari, Nicotine Sulphate, USP Nicotine, Nicotine Tartarate, Nicotine Polacrilex Resin, Smokeless Tobacco (SLT), Hookah, Tobacco Products Manufacturing Processes, E-Liquid (Main Chemicals, Compounds, Components), Additives in Tobacco Products, Additives Products, Packaging & Labeling (Design Trends & Technologies), Plastics in Food Packaging, Packaging Laws and Regulations and Photographs of Machinery with Supplier’s Contact Details. This book will be a mile stone for its readers who are new to this sector, will also find useful for professionals, entrepreneurs, those studying and researching in this important area.




Entrepreneur’s Start-Up Handbook: Manufacturing of Profitable Household (FMCG) Products with Process & Formulations (2nd Revised Edition)


Book Description

" ‘Startup India, Stand-up India’ “Can India be a ‘Startup Capital’? Can the youth in the states have the opportunities in the form of start-ups, with innovations, whether it be manufacturing, service sector or agriculture? --- Narendra Modi, Prime Minister of India Startup India Stand up Our Prime Minister unveiled a 19-point action plan for start-up enterprises in India. Highlighting the importance of the Standup India Scheme, Hon’ble Prime minister said that the job seeker has to become a job creator. Prime Minister announced that the initiative envisages loans to at least two aspiring entrepreneurs from the Scheduled Castes, Scheduled Tribes, and Women categories. It was also announced that the loan shall be in the ten lakh to one crore rupee range. A startup India hub will be created as a single point of contact for the entire startup ecosystem to enable knowledge exchange and access to funding. Startup India campaign is based on an action plan aimed at promoting bank financing for start-up ventures to boost entrepreneurship and encourage startups with jobs creation. Startup India is a flagship initiative of the Government of India, intended to build a strong ecosystem for nurturing innovation and Startups in the country. This will drive sustainable economic growth and generate large scale employment opportunities. The Government, through this initiative aims to empower Startups to grow through innovation and design. What is Startup India offering to the Entrepreneurs? Stand up India backed up by Department of Financial Services (DFS) intents to bring up Women and SC/ST entrepreneurs. They have planned to support 2.5 lakh borrowers with Bank loans (with at least 2 borrowers in both the category per branch) which can be returned up to seven years. PM announced that “There will be no income tax on startups’ profits for three years” PM plans to reduce the involvement of state government in the startups so that entrepreneurs can enjoy freedom. No tax would be charged on any startup up to three years from the day of its establishment once it has been approved by Incubator. India Government is promoting finance for start-up ventures and providing incentives to further boost entrepreneurship, manufacturing and job creation. The correct choice of business is an extremely essential step in the process of ‘being your own boss’. This handbook contains few formulations of cosmetic products, properties and manufacturing process with flow diagrams of various products. After gathering the above information of products, the decision of choosing an appropriate one will no longer be a cumbersome process. The Fast-Moving Consumer Goods (FMCG) sector, also called the consumer packaged goods (CPG) sector, is one of the largest industries worldwide. FMCGs are generally cheap products that are purchased by consumers on a regular basis. FMCG sector is the fourth largest sector in the economy and creates employment for more than three million people in downstream activities. The FMCG market is estimated to treble from its current figure in the coming decade. Fast Moving Consumer Goods Companies have been expanding rapidly. Most of the product categories like jams, toothpaste, skin care, shampoos, etc, have low per capita consumption as well as low penetration level, but the potential for growth is huge. The industry has developed both in the small scale sector and organized sector. Major contents of the book are banana wafers, biscuits, bread, candy, chocolates, potato chips, rice flakes (poha), corn flakes, baby cereal food, fruit juice, milk powder, paneer, papad, ghee, extruded food (kurkure type), instant noodles, instant tea, jam & jelly, khakhra, soft drinks, spices, sweet scented supari, detergent powder, detergent soap, face freshener tissue, floor cleaner, glass cleaner, henna based hair dye, herbal creams, herbal hair oil, herbal shampoo, incense sticks, lipsticks, liquid detergent, mosquito coils, nail polish, air freshener (odonil type), naphthalene balls, phenyl, shoe polish, tissue paper, toilet cleaner, tooth brush, tooth paste, toothpicks, utensil cleaning bar, packaging. It will be a standard reference book for professionals, entrepreneurs and food technologists.