Author: NIIR Board of Consultants & Engineers
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 8186623981
Category : Business & Economics
Languages : en
Pages : 526
Book Description
Natural fibers production, processing and export are vital to the economies of many developing countries and the livelihoods of millions of small scale farmers and low wage workers. Almost all natural fibers are produced by agriculture, and the major part is harvested in the developing world. It is convenient to classify natural fiber in two ways; morphologically, according to the part of plant from which they are obtained and practically according to the uses to which they are put, which in turn depend on their properties. From the view point of the uses vegetable fibers may be classified into following groups; textile fibers, cordage fibers, brush and mat fibers, stuffing and upholstery materials, paper making materials etc. Fibers from the view point of the part are classified as hair fibers, leaf fibers, woody fibers, bast fibers, etc. The use of fibers for paper making differs completely from their use in textiles, in that in papermaking it is ultimate fiber cells which are used; thus in papermaking process consists in breaking down the strands of fiber into the ultimate fibers. Jute, the most important textile fiber apart from cotton, is obtained from two species of corchorus(white jute) and C.olitoriusL. (tossa jute). Farmers around the world produce a wide variety of natural fibres, planting crops and rearing animals. Plant fibres may be from the plant fruit (e.g. cotton), stems (e.g. flax and jute) or leaf (e.g.sisal). Natural fibres are generally considered more environment friendly than synthetics in their production and disposal. However, there is great variation depending on the fibre and the growing conditions. Many chemicals are used to contain pests and weeds. Chemicals are also used in the processing and dyeing which can lead to water contamination. Processing of some natural fibers can lead to high levels of water pollutants, but they consist mostly of biodegradable compounds, in contrast to the persistent chemicals, including heavy metals, released in the effluent from synthetic fiber processing. Farming and production of natural fibres also plays a significant role in eradicating poverty as an important source of farming income and contribution to food security in developing countries. Demand for natural fiber composites are largely driven by increasing environmental awareness. Due to low cost, low density, acceptable specific properties, ease of separation, enhanced energy recovery, CO2 neutrality, biodegradability and recyclable properties, natural fiber use in composites is gaining as demand grows for component materials that are durable, reliable, light weight, with mechanical properties better than those of traditional materials. Total global natural fiber composite market expected to grow at 11% CAGR. Some of the fundamentals of the book are the occurrence and nature of vegetable fibres, conditions necessary for growing flax, mulberry family (moraceae), lime family (titliaceae), experiments on mechanized production of jute, mallow family (malvaceae), kenaf production in various other countries, the use of unretted kenaf ribbons for sack manufacture, pea family (leguminosae), sterculia family (sterculiaceae), agave family (agavaceae), structure of the sisal industry, narcissus family (amaryllidaceae), lily family (liliaceae), pineapple family (bromeliaceae), fibres from other species of musa and a related genus, brush making fibres, etc. The book contains process and other parameters for the manufacturing of fibers arrive from natural sources. Due to eco friendly nature there is very good domestic and export potentiality for natural fiber. This is very useful book for new generation entrepreneurs, consultant institutional libraries, and existing units.
Natural Fibers Handbook with Cultivation & Uses
Author: NIIR Board of Consultants & Engineers
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 8186623981
Category : Business & Economics
Languages : en
Pages : 526
Book Description
Natural fibers production, processing and export are vital to the economies of many developing countries and the livelihoods of millions of small scale farmers and low wage workers. Almost all natural fibers are produced by agriculture, and the major part is harvested in the developing world. It is convenient to classify natural fiber in two ways; morphologically, according to the part of plant from which they are obtained and practically according to the uses to which they are put, which in turn depend on their properties. From the view point of the uses vegetable fibers may be classified into following groups; textile fibers, cordage fibers, brush and mat fibers, stuffing and upholstery materials, paper making materials etc. Fibers from the view point of the part are classified as hair fibers, leaf fibers, woody fibers, bast fibers, etc. The use of fibers for paper making differs completely from their use in textiles, in that in papermaking it is ultimate fiber cells which are used; thus in papermaking process consists in breaking down the strands of fiber into the ultimate fibers. Jute, the most important textile fiber apart from cotton, is obtained from two species of corchorus(white jute) and C.olitoriusL. (tossa jute). Farmers around the world produce a wide variety of natural fibres, planting crops and rearing animals. Plant fibres may be from the plant fruit (e.g. cotton), stems (e.g. flax and jute) or leaf (e.g.sisal). Natural fibres are generally considered more environment friendly than synthetics in their production and disposal. However, there is great variation depending on the fibre and the growing conditions. Many chemicals are used to contain pests and weeds. Chemicals are also used in the processing and dyeing which can lead to water contamination. Processing of some natural fibers can lead to high levels of water pollutants, but they consist mostly of biodegradable compounds, in contrast to the persistent chemicals, including heavy metals, released in the effluent from synthetic fiber processing. Farming and production of natural fibres also plays a significant role in eradicating poverty as an important source of farming income and contribution to food security in developing countries. Demand for natural fiber composites are largely driven by increasing environmental awareness. Due to low cost, low density, acceptable specific properties, ease of separation, enhanced energy recovery, CO2 neutrality, biodegradability and recyclable properties, natural fiber use in composites is gaining as demand grows for component materials that are durable, reliable, light weight, with mechanical properties better than those of traditional materials. Total global natural fiber composite market expected to grow at 11% CAGR. Some of the fundamentals of the book are the occurrence and nature of vegetable fibres, conditions necessary for growing flax, mulberry family (moraceae), lime family (titliaceae), experiments on mechanized production of jute, mallow family (malvaceae), kenaf production in various other countries, the use of unretted kenaf ribbons for sack manufacture, pea family (leguminosae), sterculia family (sterculiaceae), agave family (agavaceae), structure of the sisal industry, narcissus family (amaryllidaceae), lily family (liliaceae), pineapple family (bromeliaceae), fibres from other species of musa and a related genus, brush making fibres, etc. The book contains process and other parameters for the manufacturing of fibers arrive from natural sources. Due to eco friendly nature there is very good domestic and export potentiality for natural fiber. This is very useful book for new generation entrepreneurs, consultant institutional libraries, and existing units.
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 8186623981
Category : Business & Economics
Languages : en
Pages : 526
Book Description
Natural fibers production, processing and export are vital to the economies of many developing countries and the livelihoods of millions of small scale farmers and low wage workers. Almost all natural fibers are produced by agriculture, and the major part is harvested in the developing world. It is convenient to classify natural fiber in two ways; morphologically, according to the part of plant from which they are obtained and practically according to the uses to which they are put, which in turn depend on their properties. From the view point of the uses vegetable fibers may be classified into following groups; textile fibers, cordage fibers, brush and mat fibers, stuffing and upholstery materials, paper making materials etc. Fibers from the view point of the part are classified as hair fibers, leaf fibers, woody fibers, bast fibers, etc. The use of fibers for paper making differs completely from their use in textiles, in that in papermaking it is ultimate fiber cells which are used; thus in papermaking process consists in breaking down the strands of fiber into the ultimate fibers. Jute, the most important textile fiber apart from cotton, is obtained from two species of corchorus(white jute) and C.olitoriusL. (tossa jute). Farmers around the world produce a wide variety of natural fibres, planting crops and rearing animals. Plant fibres may be from the plant fruit (e.g. cotton), stems (e.g. flax and jute) or leaf (e.g.sisal). Natural fibres are generally considered more environment friendly than synthetics in their production and disposal. However, there is great variation depending on the fibre and the growing conditions. Many chemicals are used to contain pests and weeds. Chemicals are also used in the processing and dyeing which can lead to water contamination. Processing of some natural fibers can lead to high levels of water pollutants, but they consist mostly of biodegradable compounds, in contrast to the persistent chemicals, including heavy metals, released in the effluent from synthetic fiber processing. Farming and production of natural fibres also plays a significant role in eradicating poverty as an important source of farming income and contribution to food security in developing countries. Demand for natural fiber composites are largely driven by increasing environmental awareness. Due to low cost, low density, acceptable specific properties, ease of separation, enhanced energy recovery, CO2 neutrality, biodegradability and recyclable properties, natural fiber use in composites is gaining as demand grows for component materials that are durable, reliable, light weight, with mechanical properties better than those of traditional materials. Total global natural fiber composite market expected to grow at 11% CAGR. Some of the fundamentals of the book are the occurrence and nature of vegetable fibres, conditions necessary for growing flax, mulberry family (moraceae), lime family (titliaceae), experiments on mechanized production of jute, mallow family (malvaceae), kenaf production in various other countries, the use of unretted kenaf ribbons for sack manufacture, pea family (leguminosae), sterculia family (sterculiaceae), agave family (agavaceae), structure of the sisal industry, narcissus family (amaryllidaceae), lily family (liliaceae), pineapple family (bromeliaceae), fibres from other species of musa and a related genus, brush making fibres, etc. The book contains process and other parameters for the manufacturing of fibers arrive from natural sources. Due to eco friendly nature there is very good domestic and export potentiality for natural fiber. This is very useful book for new generation entrepreneurs, consultant institutional libraries, and existing units.
Handbook of Natural Fibres
Author: Ryszard M. Kozlowski
Publisher: Elsevier
ISBN: 0857095501
Category : Science
Languages : en
Pages : 649
Book Description
Growing awareness of environmental issues has led to increasing demand for goods produced from natural products, including natural fibres. The two-volume Handbook of natural fibres is an indispensible tool in understanding the diverse properties and applications of these important materials. Volume 1: Types, properties and factors affecting breeding and cultivation is an essential guide to a wide range of natural fibres, and highlights key techniques for their improvement.Part one reviews key types and fundamental properties of natural textile fibres. The production, identification and testing of a range of cotton, bast, silk and wool fibres are discussed, alongside bioengineered natural textile fibres. Part two goes on to explore the improvement of natural fibre properties and production through breeding and cultivation, beginning with a discussion of fibrous flax and cotton. Improved natural fibre production through the prevention of fungal growth is explored, along with the use of genetic engineering and biotechnology to enhance desirable characteristics. Finally, the wider impact of natural textile production is discussed, using wild silk enterprise programs as an example.With its distinguished editor and international team of expert contributors, the two volumes of the Handbook of natural fibres are essential texts for professionals and academics in textile science and technology. - Provides an essential guide to a wide range of natural fibres and highlights key techniques for their improvement - Reviews key types and fundamental properties of natural textile fibres, addressing the production, identification and testing of a range of cotton, bast, silk and wool fibres - Explores the improvement of natural fibre properties and production through breeding and cultivation, beginning with a discussion of fibrous flax and cotton
Publisher: Elsevier
ISBN: 0857095501
Category : Science
Languages : en
Pages : 649
Book Description
Growing awareness of environmental issues has led to increasing demand for goods produced from natural products, including natural fibres. The two-volume Handbook of natural fibres is an indispensible tool in understanding the diverse properties and applications of these important materials. Volume 1: Types, properties and factors affecting breeding and cultivation is an essential guide to a wide range of natural fibres, and highlights key techniques for their improvement.Part one reviews key types and fundamental properties of natural textile fibres. The production, identification and testing of a range of cotton, bast, silk and wool fibres are discussed, alongside bioengineered natural textile fibres. Part two goes on to explore the improvement of natural fibre properties and production through breeding and cultivation, beginning with a discussion of fibrous flax and cotton. Improved natural fibre production through the prevention of fungal growth is explored, along with the use of genetic engineering and biotechnology to enhance desirable characteristics. Finally, the wider impact of natural textile production is discussed, using wild silk enterprise programs as an example.With its distinguished editor and international team of expert contributors, the two volumes of the Handbook of natural fibres are essential texts for professionals and academics in textile science and technology. - Provides an essential guide to a wide range of natural fibres and highlights key techniques for their improvement - Reviews key types and fundamental properties of natural textile fibres, addressing the production, identification and testing of a range of cotton, bast, silk and wool fibres - Explores the improvement of natural fibre properties and production through breeding and cultivation, beginning with a discussion of fibrous flax and cotton
Handbook of Natural Fibres
Author: Ryszard M. Kozlowski
Publisher: Woodhead Publishing
ISBN: 0128206667
Category : Science
Languages : en
Pages : 840
Book Description
The Handbook of Natural Fibres, Second Edition, Volume One: Types, Properties and Factors Affecting Breeding and Cultivation covers every aspect of natural fibers, their breeding, cultivation, processing and applications. This volume features fundamental discussions of each fiber, covering different stages of breeding and cultivation. Natural fibrous resources, both lignocellulosic and protein ones, are renewable, biodegradable, and nontoxic, making them an important source of sustainable textile solutions. A broad range of natural fibers are covered in this book, including cotton, jute, kenaf, flax, hemp, sisal, ramie, curaua, pineapple, bamboo, coir, sheep wool, and more. - Provides detailed instructions for how to carry out the latest scientific methods for identifying natural fibers - Explains properties of natural fibers that will be of interest to readers in growth fields like biocomposites and nanofibers - Includes a rare overview of emerging natural fibers and their uses, along with sources of further information
Publisher: Woodhead Publishing
ISBN: 0128206667
Category : Science
Languages : en
Pages : 840
Book Description
The Handbook of Natural Fibres, Second Edition, Volume One: Types, Properties and Factors Affecting Breeding and Cultivation covers every aspect of natural fibers, their breeding, cultivation, processing and applications. This volume features fundamental discussions of each fiber, covering different stages of breeding and cultivation. Natural fibrous resources, both lignocellulosic and protein ones, are renewable, biodegradable, and nontoxic, making them an important source of sustainable textile solutions. A broad range of natural fibers are covered in this book, including cotton, jute, kenaf, flax, hemp, sisal, ramie, curaua, pineapple, bamboo, coir, sheep wool, and more. - Provides detailed instructions for how to carry out the latest scientific methods for identifying natural fibers - Explains properties of natural fibers that will be of interest to readers in growth fields like biocomposites and nanofibers - Includes a rare overview of emerging natural fibers and their uses, along with sources of further information
Handbook on Natural Dyes for Industrial Applications (Extraction of Dyestuff from Flowers, Leaves, Vegetables) 2nd Revised Edition
Author: Dr. Padma S Vankar
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 9381039755
Category :
Languages : en
Pages : 445
Book Description
Dyeing is the process of imparting colors to a textile material. Natural dyes are friendly and satisfying to use. They are obtained from sources like flowers, leaves, insects, bark roots etc. however, they are not readily available and involve an extraction process. With the advancement of chemical industry, all finishing procedures of textile materials have been growing constantly and, sustainable and ecological production techniques have become extremely crucial. This is a single book which has information related to extraction of dyestuff from 19 common flowers, weeds, bark or leaves and its application on cotton silk and wool fabrics for textile industry. The Handbook describes the step wise methodology of extraction, mordanting, dyeing with photos of the actual plants part used for extraction of Natural dye. Shade cards have been incorporated so that the full gamut of colors can be visualized from each dyestuff. Major contents of the book are nature of material to be dyed, history of natural dyes, promotion of natural dyes, sources of natural dyes, mordanting the textiles for natural dyeing, quality standards for vegetable dyes, methods of dye extraction, dyeing methodology, chemistry of dye, some recent publications on natural dyes. This handbook is designed for use by everyone engaged in the natural dye manufacturing and explains different methods of dye extraction. Also contains addresses of machinery suppliers with their photographs. It will be a standard reference book for professionals, entrepreneurs, those studying and researching in this important area. About Author The Author Dr. Padma S Vankar, works as Principal Research Scientist, in Facility for Ecological and Analytical Testing (FEAT) at Indian Institute of Technology, Kanpur. She has been engaged in the screening and characterization of newer natural dyes for the past 10 years. She also works in the area of designing synthetic strategies for Eco-friendly dyes using microwave heating system. Using innovative technology for natural dyeing has been her main emphasis. The author has conducted several workshops throughout India in order to popularize natural dyeing. TAGS Application of Natural Dyes, Application of natural dyes on textiles, Best small and cottage scale industries, Book on Natural Dyes, Book on Natural Dyes for Industrial Applications, Business guidance for natural dyes production, Chemistry of dye, Classification of Natural Dyes, Dye extraction, Dyeing method, Extraction of Dyestuff from Flowers, Extraction of Dyestuff from Leaves, Extraction of Dyestuff from Vegetables, Extraction of Eco-Friendly Dyestuff, Extraction of eco-friendly natural dyes, How to Dye Fabric & Clothes, How to Guide on making and using natural dyes, How to Make Natural Dyes, How to make natural dyes from vegetables, How to Make Natural Dyes to Dye Fabric & Clothes, How to Make Your Own Natural Dyes, How to manufacture natural dyes, How to produce natural dyes, How to start a natural dyes production Business, How to start a natural dyes Sector?, How to start a successful natural dyes business, How to start natural dyes production Industry in India, Information on Natural Dyes, Make Natural Dyes for Dyeing, Making Natural Dyes from Plants, Most Profitable natural dyes Business Ideas, Natural Dye Plants and Dye Plant Products, Natural dye technology, Natural dyes, Natural dyes Based Profitable Projects, Natural dyes Based Small Scale Industries Projects, Natural dyes Business, Natural dyes for fabric, Natural Dyes for Industrial Applications, Natural Dyes for the Textile Industry, Natural dyes in India, Natural Dyes Machinery details, Natural dyes making machine factory, Natural dyes Making Small Business Manufacturing, Natural Dyes Manufacturing, Natural dyes manufacturing Industry in India, Natural Dyes Production, Natural Dyes Suppliers Contact details, Natural Dyes: Sources, Chemistry, Application, Natural Dyes: Technology and Science Book, New small scale ideas in natural dyes production industry, Plant Dyes to Serve as Colorants for Food and Textiles, Profitable Small Scale natural dyes Manufacturing, Setting up and opening your natural dyes Business, Setting up of natural dyes production Unit, Small scale Commercial natural dyes making, Small Scale natural dyes manufacturing Projects, Small scale natural dyes production, Small scale natural dyes production line, Small Start-up Business Project, Start a Dye & Pigment Manufacturing Plant, Starting a natural dyes production Business, Start-up Business Plan for natural dyes, Startup Project for natural dyes production, Textiles for natural dyeing, Types of natural dyes, Uses of natural dyes, Using Plants as Natural Dyes, Vegetable dyes for textiles, Vegetable Dyes from Plant Sources
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 9381039755
Category :
Languages : en
Pages : 445
Book Description
Dyeing is the process of imparting colors to a textile material. Natural dyes are friendly and satisfying to use. They are obtained from sources like flowers, leaves, insects, bark roots etc. however, they are not readily available and involve an extraction process. With the advancement of chemical industry, all finishing procedures of textile materials have been growing constantly and, sustainable and ecological production techniques have become extremely crucial. This is a single book which has information related to extraction of dyestuff from 19 common flowers, weeds, bark or leaves and its application on cotton silk and wool fabrics for textile industry. The Handbook describes the step wise methodology of extraction, mordanting, dyeing with photos of the actual plants part used for extraction of Natural dye. Shade cards have been incorporated so that the full gamut of colors can be visualized from each dyestuff. Major contents of the book are nature of material to be dyed, history of natural dyes, promotion of natural dyes, sources of natural dyes, mordanting the textiles for natural dyeing, quality standards for vegetable dyes, methods of dye extraction, dyeing methodology, chemistry of dye, some recent publications on natural dyes. This handbook is designed for use by everyone engaged in the natural dye manufacturing and explains different methods of dye extraction. Also contains addresses of machinery suppliers with their photographs. It will be a standard reference book for professionals, entrepreneurs, those studying and researching in this important area. About Author The Author Dr. Padma S Vankar, works as Principal Research Scientist, in Facility for Ecological and Analytical Testing (FEAT) at Indian Institute of Technology, Kanpur. She has been engaged in the screening and characterization of newer natural dyes for the past 10 years. She also works in the area of designing synthetic strategies for Eco-friendly dyes using microwave heating system. Using innovative technology for natural dyeing has been her main emphasis. The author has conducted several workshops throughout India in order to popularize natural dyeing. TAGS Application of Natural Dyes, Application of natural dyes on textiles, Best small and cottage scale industries, Book on Natural Dyes, Book on Natural Dyes for Industrial Applications, Business guidance for natural dyes production, Chemistry of dye, Classification of Natural Dyes, Dye extraction, Dyeing method, Extraction of Dyestuff from Flowers, Extraction of Dyestuff from Leaves, Extraction of Dyestuff from Vegetables, Extraction of Eco-Friendly Dyestuff, Extraction of eco-friendly natural dyes, How to Dye Fabric & Clothes, How to Guide on making and using natural dyes, How to Make Natural Dyes, How to make natural dyes from vegetables, How to Make Natural Dyes to Dye Fabric & Clothes, How to Make Your Own Natural Dyes, How to manufacture natural dyes, How to produce natural dyes, How to start a natural dyes production Business, How to start a natural dyes Sector?, How to start a successful natural dyes business, How to start natural dyes production Industry in India, Information on Natural Dyes, Make Natural Dyes for Dyeing, Making Natural Dyes from Plants, Most Profitable natural dyes Business Ideas, Natural Dye Plants and Dye Plant Products, Natural dye technology, Natural dyes, Natural dyes Based Profitable Projects, Natural dyes Based Small Scale Industries Projects, Natural dyes Business, Natural dyes for fabric, Natural Dyes for Industrial Applications, Natural Dyes for the Textile Industry, Natural dyes in India, Natural Dyes Machinery details, Natural dyes making machine factory, Natural dyes Making Small Business Manufacturing, Natural Dyes Manufacturing, Natural dyes manufacturing Industry in India, Natural Dyes Production, Natural Dyes Suppliers Contact details, Natural Dyes: Sources, Chemistry, Application, Natural Dyes: Technology and Science Book, New small scale ideas in natural dyes production industry, Plant Dyes to Serve as Colorants for Food and Textiles, Profitable Small Scale natural dyes Manufacturing, Setting up and opening your natural dyes Business, Setting up of natural dyes production Unit, Small scale Commercial natural dyes making, Small Scale natural dyes manufacturing Projects, Small scale natural dyes production, Small scale natural dyes production line, Small Start-up Business Project, Start a Dye & Pigment Manufacturing Plant, Starting a natural dyes production Business, Start-up Business Plan for natural dyes, Startup Project for natural dyes production, Textiles for natural dyeing, Types of natural dyes, Uses of natural dyes, Using Plants as Natural Dyes, Vegetable dyes for textiles, Vegetable Dyes from Plant Sources
Manufacture of Thinners & Solvents (Properties, Uses, Production, Formulation with Machinery Details)
Author: NPCS Board of Consultants & Engineers
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 9381039836
Category :
Languages : en
Pages : 232
Book Description
Solvents are defined as chemicals compound that are introduced during manufacture of the paint itself and before packaging, in order to maintain all components of the paint in a liquid / viscous state such as we know it. A solvent is usually a liquid but can also be a solid or a gas. Solvents find various applications in chemical, pharmaceutical, oil, and gas industries, including in chemical syntheses and purification processes. Thinners are defined as chemical compounds that are introduced into the paint prior to application, in order to modify the viscosity and other properties related to the rate of curing that may affect the functionality and aesthetics of the final layer painting.Paint thinner, a solvent used in painting and decorating, for thinning oil-based paint and cleaning brushes. A Thinner may be a single solvent or a combination of solvent types. Often, specific thinners are required by the manufacturer of a coating to prevent damage to coating properties that may occur when an inappropriate thinner is used. Solvents (for cleaning up or softening) and Thinners (for diluting or extending) are useful not only in painting but in other areas such as Wooden Furniture industry, Automobile industry, Ink industry, Rubber industry. As the paint industry is a major consumer of Thinners & Solvents, and is expanding at a tremendous speed, it is very obvious that the demand of thinners, too, will increase tremendously. The paints & coatings accounts for the largest share in the aliphatic hydrocarbon Thinners & Solvents market. It is also projected to be the fastest-growing application of the aliphatic hydrocarbon Thinners and Solvents market. The book contains Properties, Uses, manufacturing of Thinners & Solventsand providing information regarding thinner formulation. It also covers raw material suppliers, photographs of plant & Machinery with supplier’s contact details. Some of the fundamentals of the book are thinner in Paint Industry, Health and Safety Measures of Chemicals, Pollution Control, Waste Disposal of Hazardous Chemicals and Storage, Labelling and Packaging of Chemicals etc. It will be a standard reference book for professionals and entrepreneurs. Those who are interested in this field can find the complete information from manufacture to final uses of Solvents and Thinners. It will be very helpful to consultants, new entrepreneurs, technocrats, research scholars, libraries and existing units. TAGS Solvents for Pharmaceutical Manufacturing, Book of Solvents, Solvents for Production and Purification, How to start Solvents manufacturing business, How to start Solvents business, Manufacture of Solvents, Solvent use in production and cleaning processes, Starting a Solvents Business, Paint & Solvents Business, Solvents Science and Technology, Industrial Solvent book, Thinner Used in Paint Industry, Formulation of Thinners, Manufacturing process of Thinners, Thinners Market, Book of Thinners, How to start Thinners manufacturing business, Manufacture of Thinners , Starting a Thinners Business, Paint & Thinners Business, Thinners Science and Technology, Industrial Thinners book, Thinner Manufacturing Plant, How to set up Thinners industry, Thinner for industrial use, How to Use Paint Thinner Properly, How to start Thinners business, Thinner Formulation, How to make thinner, How to make solvent thinner, Solvents and thinners business, Manufacture of Thinners & Solvents, How to start solvents manufacturing Industry in India, Solvents manufacturing Industry in India, Most Profitable solvents manufacturing Business Ideas, Solvents Based Profitable Projects, Solvents manufacturing Projects, Small Scale solvents manufacturing Projects, Starting a solvents manufacturing Business, How to Start a solvents Production Business, Solvents Based Small Scale Industries Projects, New small scale ideas in solvents industry, Solvents Making Small Business Manufacturing, Machinery Details of Thinners and Solvents, Uses of solvents, Solvents Used in Adhesives and Sealants Industry, Solvents Used in Ship Industry, Solvents Used in Food Industry, Solvents Used in Electronic Industry, Solvents Used in Printing Industry, Solvents Used in Pharmaceutical Industry, Solvents Used in Iron Steel Industry, Manufacturing process of Solvents, Solvents Market, Industrial Application of Solvents, Properties of Solvents, Small scale solvents production line, Setting up and opening your solvents manufacturing Business, How to start a solvents production? , How to start a successful solvents production business, Small scale Commercial solvents making, Best small and cottage scale industries, Solvents manufacturing Business, Profitable Small Scale solvents manufacturing, How to start Thinners manufacturing Industry in India, Thinners manufacturing Industry in India, Most Profitable Thinners manufacturing Business Ideas, Thinners Based Profitable Projects, Thinners manufacturing Projects, Small Scale Thinners manufacturing Projects, Starting a Thinners manufacturing Business, How to Start a Thinners Production Business, Thinners Based Small Scale Industries Projects, New small scale ideas in Thinners industry, Thinners Making Small Business Manufacturing, Small scale Thinners production line, Setting up and opening your Thinners manufacturing Business, How to start a Thinners production? , How to start a successful Thinners production business, Small scale Commercial Thinners making, Thinners manufacturing Business, Profitable Small Scale Thinners manufacturing, Industrial Project Report , Process technology books, Startup, Startup Project for Thinner solvent, Startup Project Startup ideas, Business start-up, Business Plan for a Startup Business, Great Opportunity for Startup, Small Start-up Business Project, Start-up Business Plan for Thinner solvent, Start up India, Stand up India
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 9381039836
Category :
Languages : en
Pages : 232
Book Description
Solvents are defined as chemicals compound that are introduced during manufacture of the paint itself and before packaging, in order to maintain all components of the paint in a liquid / viscous state such as we know it. A solvent is usually a liquid but can also be a solid or a gas. Solvents find various applications in chemical, pharmaceutical, oil, and gas industries, including in chemical syntheses and purification processes. Thinners are defined as chemical compounds that are introduced into the paint prior to application, in order to modify the viscosity and other properties related to the rate of curing that may affect the functionality and aesthetics of the final layer painting.Paint thinner, a solvent used in painting and decorating, for thinning oil-based paint and cleaning brushes. A Thinner may be a single solvent or a combination of solvent types. Often, specific thinners are required by the manufacturer of a coating to prevent damage to coating properties that may occur when an inappropriate thinner is used. Solvents (for cleaning up or softening) and Thinners (for diluting or extending) are useful not only in painting but in other areas such as Wooden Furniture industry, Automobile industry, Ink industry, Rubber industry. As the paint industry is a major consumer of Thinners & Solvents, and is expanding at a tremendous speed, it is very obvious that the demand of thinners, too, will increase tremendously. The paints & coatings accounts for the largest share in the aliphatic hydrocarbon Thinners & Solvents market. It is also projected to be the fastest-growing application of the aliphatic hydrocarbon Thinners and Solvents market. The book contains Properties, Uses, manufacturing of Thinners & Solventsand providing information regarding thinner formulation. It also covers raw material suppliers, photographs of plant & Machinery with supplier’s contact details. Some of the fundamentals of the book are thinner in Paint Industry, Health and Safety Measures of Chemicals, Pollution Control, Waste Disposal of Hazardous Chemicals and Storage, Labelling and Packaging of Chemicals etc. It will be a standard reference book for professionals and entrepreneurs. Those who are interested in this field can find the complete information from manufacture to final uses of Solvents and Thinners. It will be very helpful to consultants, new entrepreneurs, technocrats, research scholars, libraries and existing units. TAGS Solvents for Pharmaceutical Manufacturing, Book of Solvents, Solvents for Production and Purification, How to start Solvents manufacturing business, How to start Solvents business, Manufacture of Solvents, Solvent use in production and cleaning processes, Starting a Solvents Business, Paint & Solvents Business, Solvents Science and Technology, Industrial Solvent book, Thinner Used in Paint Industry, Formulation of Thinners, Manufacturing process of Thinners, Thinners Market, Book of Thinners, How to start Thinners manufacturing business, Manufacture of Thinners , Starting a Thinners Business, Paint & Thinners Business, Thinners Science and Technology, Industrial Thinners book, Thinner Manufacturing Plant, How to set up Thinners industry, Thinner for industrial use, How to Use Paint Thinner Properly, How to start Thinners business, Thinner Formulation, How to make thinner, How to make solvent thinner, Solvents and thinners business, Manufacture of Thinners & Solvents, How to start solvents manufacturing Industry in India, Solvents manufacturing Industry in India, Most Profitable solvents manufacturing Business Ideas, Solvents Based Profitable Projects, Solvents manufacturing Projects, Small Scale solvents manufacturing Projects, Starting a solvents manufacturing Business, How to Start a solvents Production Business, Solvents Based Small Scale Industries Projects, New small scale ideas in solvents industry, Solvents Making Small Business Manufacturing, Machinery Details of Thinners and Solvents, Uses of solvents, Solvents Used in Adhesives and Sealants Industry, Solvents Used in Ship Industry, Solvents Used in Food Industry, Solvents Used in Electronic Industry, Solvents Used in Printing Industry, Solvents Used in Pharmaceutical Industry, Solvents Used in Iron Steel Industry, Manufacturing process of Solvents, Solvents Market, Industrial Application of Solvents, Properties of Solvents, Small scale solvents production line, Setting up and opening your solvents manufacturing Business, How to start a solvents production? , How to start a successful solvents production business, Small scale Commercial solvents making, Best small and cottage scale industries, Solvents manufacturing Business, Profitable Small Scale solvents manufacturing, How to start Thinners manufacturing Industry in India, Thinners manufacturing Industry in India, Most Profitable Thinners manufacturing Business Ideas, Thinners Based Profitable Projects, Thinners manufacturing Projects, Small Scale Thinners manufacturing Projects, Starting a Thinners manufacturing Business, How to Start a Thinners Production Business, Thinners Based Small Scale Industries Projects, New small scale ideas in Thinners industry, Thinners Making Small Business Manufacturing, Small scale Thinners production line, Setting up and opening your Thinners manufacturing Business, How to start a Thinners production? , How to start a successful Thinners production business, Small scale Commercial Thinners making, Thinners manufacturing Business, Profitable Small Scale Thinners manufacturing, Industrial Project Report , Process technology books, Startup, Startup Project for Thinner solvent, Startup Project Startup ideas, Business start-up, Business Plan for a Startup Business, Great Opportunity for Startup, Small Start-up Business Project, Start-up Business Plan for Thinner solvent, Start up India, Stand up India
Handbook on Ayurvedic Medicines with Formulae, Processes & Their Uses (2nd Revised Edition)
Author: H. Panda
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 9381039259
Category :
Languages : en
Pages : 568
Book Description
Ayurvedic medicine (also called Ayurveda) is one of the world’s oldest medical systems. It originated in India and has evolved there over thousands of years. It is a holistic healing science. Ayurvedic practice involves the use of medications that typically contain herbs, metals, minerals, or other materials. Now-a-days people are attracted more towards Ayurvedic medicines as the allopathic medicines are costlier and have side effects. There is more and more scientific research being conducted in our country for treatment of various diseases by Ayurvedic and herbal therapy. Research on medicinal and cosmetic uses of herbs is contributing to the growth of herbal industry. A large number of ailments have Ayurvedic treatment much superior to the other system of medicines and this has been recognized world over. Medicine has become an increasingly accepted alternative medical treatment in America during the last two decades. Up to 80% of people in India use either Ayurveda or other traditional medicines. It is believed that building a healthy metabolic system, attaining good digestion and proper excretion leads to vitality. India is said to have advantage of well recorded and well practiced knowledge of traditional herbal medicines. Herbal products are in huge demand in the developed world for health care, for the reason that they are efficient, safe and have lesser side effects. Efforts have been made on this book to enable readers to explore details regarding medicinal plants and their processing, learn about the unique composition of Rooh Afza, a clinical study of Chyavanaprash produced by Ayurveda rasashala, a clinical assessment of effect of triphala inlipoma, formulae and processes of different types of Ayurvedic Medicines like churan, capsules, syrup, sharbat, pastes etc that are used in various ailments. It also highlights preparation and uses of every product accompanied with their formulations which offers relief from a variety of conditions, such as cold and flu symptoms, headaches, toothaches, sore throats, high cholesterol, vision problems, anxiety, depression etc. Special content on machinery equipment photographs along with supplier details has also been included.
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 9381039259
Category :
Languages : en
Pages : 568
Book Description
Ayurvedic medicine (also called Ayurveda) is one of the world’s oldest medical systems. It originated in India and has evolved there over thousands of years. It is a holistic healing science. Ayurvedic practice involves the use of medications that typically contain herbs, metals, minerals, or other materials. Now-a-days people are attracted more towards Ayurvedic medicines as the allopathic medicines are costlier and have side effects. There is more and more scientific research being conducted in our country for treatment of various diseases by Ayurvedic and herbal therapy. Research on medicinal and cosmetic uses of herbs is contributing to the growth of herbal industry. A large number of ailments have Ayurvedic treatment much superior to the other system of medicines and this has been recognized world over. Medicine has become an increasingly accepted alternative medical treatment in America during the last two decades. Up to 80% of people in India use either Ayurveda or other traditional medicines. It is believed that building a healthy metabolic system, attaining good digestion and proper excretion leads to vitality. India is said to have advantage of well recorded and well practiced knowledge of traditional herbal medicines. Herbal products are in huge demand in the developed world for health care, for the reason that they are efficient, safe and have lesser side effects. Efforts have been made on this book to enable readers to explore details regarding medicinal plants and their processing, learn about the unique composition of Rooh Afza, a clinical study of Chyavanaprash produced by Ayurveda rasashala, a clinical assessment of effect of triphala inlipoma, formulae and processes of different types of Ayurvedic Medicines like churan, capsules, syrup, sharbat, pastes etc that are used in various ailments. It also highlights preparation and uses of every product accompanied with their formulations which offers relief from a variety of conditions, such as cold and flu symptoms, headaches, toothaches, sore throats, high cholesterol, vision problems, anxiety, depression etc. Special content on machinery equipment photographs along with supplier details has also been included.
The Complete Book on Emulsifiers with Uses, Formulae and Processes (2nd Revised Edition)
Author: NPCS Board of Consultants & Engineers
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 8190568531
Category : Emulsions
Languages : en
Pages : 426
Book Description
Emulsifier is an organic compound that encompasses in the same molecule two dissimilar structural groups e.g. water soluble and a water insoluble moiety. It is the ingredient which binds the water and oil in a cream or lotion together permanently. The composition, solubility properties, location and relative sizes of these dissimilar groups in relation to the overall molecular configuration determine the surface activity of a compound. Emulsifiers are classified on the basis of their hydrophilic or solubilizing groups in to four categories anionic, non ionic, cationics and amphoterics. Emulsifier is utilized in various industries; agriculture, building and construction, elastomers & plastics, food & beverages, industrial cleaning, leather, metals, paper, textiles paints & protective coatings etc. An emulsion is an ideal formulation for the administration. The emulsion form allows uniform application of a small amount of active ingredient on the surface of the skin. Some of the important emulsions in different field are pharmaceutical emulsions, rosin & rubber emulsion, textile emulsions, pesticide emulsions, food emulsions, emulsion in paint industry, emulsion in polish industry, leather & paper treatment emulsions etc. Various cosmetics creams, such as moisturizers, contain emulsifiers. Lighter, less greasy feeling creams are oil in water emulsions; heavier creams used to treat rough skin are water in oil emulsions, with oil as the main ingredient. Liquid soaps, toothpastes and other body care products also contain emulsifiers. Emulsifiers have the ability to optimize the concentration of certain nutrients in an emulsion. For example, in hair conditioners, some conditioning agents can damage hair if not properly diluted in the solution. Emulsifiers are among the most frequently used types of food additives. Emulsifiers can help to make a food appealing. Emulsifiers have a big effect on the structure and texture of many foods. Increasing demand for low fat food among health conscious consumers is gradually driving the market for emulsifiers. Besides stabilizing emulsions, emulsifiers derived from non hydrogenated fats help in maintaining sensory characteristics of food such as texture, flavor, and taste that are often lost due to fat reduction. This characteristic of making healthier products similar in taste to fat containing versions has enabled emulsifiers in gaining widespread acceptance in the market. The global food industry is also witnessing increase in demand for multipurpose emulsifiers that perform functions of both stabilization and emulsification. Some of the fundamentals of the book are characteristics and application of emulsifiers, wetting and detergent structures in emulsifier, effect of surfactant on the properties of solutions, wetting characteristics of emulsifiers, formulated emulsifiers, non surfactant functional additives, inert fillers, functional surfactant additives, uses of emulsifiers, household and personal products, industrial uses of emulsifier, anionic surfactants, non ionic surfactants, cationic, amphoteric and enzyme, alkylolamides, vinylarene polymers, alkyl sulfates, ethoxylation processes, application of emulsifiers, etc. The present book contains manufacturing processes of various types of emulsifiers which have applications in different industries. This is a resourceful book for scientists, technologists, entrepreneurs and ingredients suppliers. TAGS applications of emulsifier, Book on emulsifier, emulsifier Based Small Scale Industries, emulsifier examples, emulsifier in food, Emulsifier Processing Industry in India, emulsifiers list, Emulsifiers with Uses, Formulae and Processes, Emulsion - Uses of Emulsions, Emulsion Surface Area, Emulsions in Polish Industry, Food Emulsifier Applications, Food Emulsifiers and Their Applications, formulation and stability of emulsions with polymeric emulsifiers, Formulation of emulsifiers, Formulation of Emulsion Paints manufacturing process, Formulation of Textile emulsions manufacturing process, function of emulsifier in cosmetics, function of emulsifier in food, how to manufacture emulsifiers, How to start an emulsifier Production Business, How to Start Emulsifier Processing Industry in India, Industrial Applications of Emulsion Technology, Industrial Uses of Emulsifier, Leather and Paper Treatment Emulsions manufacturing process, Manufacturing process of emulsifier, Most Profitable emulsifier Processing Business Ideas, Nature and use of emulsifiers in foods, new small scale ideas in emulsifier processing industry, pharmaceutical application of emulsion, Procedure for Emulsification of Oil in Water Using Surfactants, Process of Polish Emulsions, Process technology book on emulsifier, role of emulsifier in emulsion, role of surfactant in emulsion, Starting an emulsifier Processing Business, types of food emulsifiers, Uses of emulsifiers, What is an Emulsifier?
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 8190568531
Category : Emulsions
Languages : en
Pages : 426
Book Description
Emulsifier is an organic compound that encompasses in the same molecule two dissimilar structural groups e.g. water soluble and a water insoluble moiety. It is the ingredient which binds the water and oil in a cream or lotion together permanently. The composition, solubility properties, location and relative sizes of these dissimilar groups in relation to the overall molecular configuration determine the surface activity of a compound. Emulsifiers are classified on the basis of their hydrophilic or solubilizing groups in to four categories anionic, non ionic, cationics and amphoterics. Emulsifier is utilized in various industries; agriculture, building and construction, elastomers & plastics, food & beverages, industrial cleaning, leather, metals, paper, textiles paints & protective coatings etc. An emulsion is an ideal formulation for the administration. The emulsion form allows uniform application of a small amount of active ingredient on the surface of the skin. Some of the important emulsions in different field are pharmaceutical emulsions, rosin & rubber emulsion, textile emulsions, pesticide emulsions, food emulsions, emulsion in paint industry, emulsion in polish industry, leather & paper treatment emulsions etc. Various cosmetics creams, such as moisturizers, contain emulsifiers. Lighter, less greasy feeling creams are oil in water emulsions; heavier creams used to treat rough skin are water in oil emulsions, with oil as the main ingredient. Liquid soaps, toothpastes and other body care products also contain emulsifiers. Emulsifiers have the ability to optimize the concentration of certain nutrients in an emulsion. For example, in hair conditioners, some conditioning agents can damage hair if not properly diluted in the solution. Emulsifiers are among the most frequently used types of food additives. Emulsifiers can help to make a food appealing. Emulsifiers have a big effect on the structure and texture of many foods. Increasing demand for low fat food among health conscious consumers is gradually driving the market for emulsifiers. Besides stabilizing emulsions, emulsifiers derived from non hydrogenated fats help in maintaining sensory characteristics of food such as texture, flavor, and taste that are often lost due to fat reduction. This characteristic of making healthier products similar in taste to fat containing versions has enabled emulsifiers in gaining widespread acceptance in the market. The global food industry is also witnessing increase in demand for multipurpose emulsifiers that perform functions of both stabilization and emulsification. Some of the fundamentals of the book are characteristics and application of emulsifiers, wetting and detergent structures in emulsifier, effect of surfactant on the properties of solutions, wetting characteristics of emulsifiers, formulated emulsifiers, non surfactant functional additives, inert fillers, functional surfactant additives, uses of emulsifiers, household and personal products, industrial uses of emulsifier, anionic surfactants, non ionic surfactants, cationic, amphoteric and enzyme, alkylolamides, vinylarene polymers, alkyl sulfates, ethoxylation processes, application of emulsifiers, etc. The present book contains manufacturing processes of various types of emulsifiers which have applications in different industries. This is a resourceful book for scientists, technologists, entrepreneurs and ingredients suppliers. TAGS applications of emulsifier, Book on emulsifier, emulsifier Based Small Scale Industries, emulsifier examples, emulsifier in food, Emulsifier Processing Industry in India, emulsifiers list, Emulsifiers with Uses, Formulae and Processes, Emulsion - Uses of Emulsions, Emulsion Surface Area, Emulsions in Polish Industry, Food Emulsifier Applications, Food Emulsifiers and Their Applications, formulation and stability of emulsions with polymeric emulsifiers, Formulation of emulsifiers, Formulation of Emulsion Paints manufacturing process, Formulation of Textile emulsions manufacturing process, function of emulsifier in cosmetics, function of emulsifier in food, how to manufacture emulsifiers, How to start an emulsifier Production Business, How to Start Emulsifier Processing Industry in India, Industrial Applications of Emulsion Technology, Industrial Uses of Emulsifier, Leather and Paper Treatment Emulsions manufacturing process, Manufacturing process of emulsifier, Most Profitable emulsifier Processing Business Ideas, Nature and use of emulsifiers in foods, new small scale ideas in emulsifier processing industry, pharmaceutical application of emulsion, Procedure for Emulsification of Oil in Water Using Surfactants, Process of Polish Emulsions, Process technology book on emulsifier, role of emulsifier in emulsion, role of surfactant in emulsion, Starting an emulsifier Processing Business, types of food emulsifiers, Uses of emulsifiers, What is an Emulsifier?
Detailed Project Profiles on Selected Hi-Tech Projects (Project Reports)
Author: NIIR Board
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 938103964X
Category :
Languages : en
Pages : 198
Book Description
NIIR had identified some Hi-Tech Projects for the entrepreneurs and published a book on that projects which titled "Detailed Projects Profile on Selected Hi-Tech Projects". These Hi-tech projects are Aluminium Beverages cans, Beer industry, Compact Disc, Lap Top computers, Optical fibre cables, plastic I. V. Bottles, Solar Power Plant, Telephone Cables and XLPE cables. All the above projects are based on latest technologies. Each project present with uses and application, market position, manufacturing process, flow diagram. Suppliers of machineries and raw material along with cost estimation. These hi-tech projects have bright market potential and demand would be increased. This book is very informative and useful for relevant entrepreneurs.
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 938103964X
Category :
Languages : en
Pages : 198
Book Description
NIIR had identified some Hi-Tech Projects for the entrepreneurs and published a book on that projects which titled "Detailed Projects Profile on Selected Hi-Tech Projects". These Hi-tech projects are Aluminium Beverages cans, Beer industry, Compact Disc, Lap Top computers, Optical fibre cables, plastic I. V. Bottles, Solar Power Plant, Telephone Cables and XLPE cables. All the above projects are based on latest technologies. Each project present with uses and application, market position, manufacturing process, flow diagram. Suppliers of machineries and raw material along with cost estimation. These hi-tech projects have bright market potential and demand would be increased. This book is very informative and useful for relevant entrepreneurs.
Detailed Project Profiles on Hi-Tech Plastic Products (2nd Revised Edition)
Author: NPCS Board of Plastic Technologists
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 9381039631
Category :
Languages : en
Pages : 204
Book Description
Plastic is a polymeric material that has the capability of being molded or shaped, usually by the application of heat and pressure. This property of plasticity, often found in combination with other special properties such as low density, low electrical conductivity, transparency, and toughness, allows plastics to be made into a great variety of products. Many of the chemical names of the polymers employed as plastics have become familiar to consumers, although some are better known by their abbreviations or trade names. Thus, polyethylene terephthalate and polyvinyl chloride are commonly referred to as PET and PVC, while foamed polystyrene and polymethyl methacrylate are known by their trademarked names, Styrofoam and Plexiglas (or Perspex). The plastic consumption will increase to 20 million tonnes a year in 2020 from the current 8 million tonnes a year in India. Plastics is one of the biggest contributor to India’s GDP with the growth rate of 12%-15% per annum, it houses over 50,000 manufacturers and employees of over 40 lakh workers in the plastics industry. Polymers are chemical compounds whose molecules are very large, often resembling long chains made up of a seemingly endless series of interconnected links. The size of these molecules, as is explained in chemistry of industrial polymers, is extraordinary, ranging in the thousands and even millions of atomic mass units. Polymers have found uses in all spheres of life with demand for better materials, greater functional utility, more economical packaging and versatile and durable all-weather products. The per capita consumption of polymers in India is around 5.5 kg. The Government of India has prepared an ambitious plan to achieve a ten-fold increase in plastic exports (from $ 25 mn to 250 mn) to the US. Polyethylene terephthalate is a thermoplastic polymer resin of the polyester family and is used in synthetic fibers; beverage, food and other liquid containers; thermoforming applications; and engineering resins often in combination with glass fiber. PET in its natural state is a colorless, semi-crystalline resin. Based on how it is processed, PET can be semi-rigid to rigid, and it is very lightweight. It makes a good gas and fair moisture barrier, as well as a good barrier to alcohol and solvents. Poly (vinyl chloride), is the third-most widely produced polymer, after polyethylene and polypropylene. PVC comes in two basic forms: rigid (sometimes abbreviated as RPVC) and flexible. The rigid form of PVC is used in construction for pipe and in profile applications such as doors and windows. It is also used for bottles, other non-food packaging, and cards (such as bank or membership cards). It can be made softer and more flexible by the addition of plasticizers, the most widely used being phthalates. Around 1.1 Million Metric Tons, out of which, Polyvinyl chloride (PVC) accounts for 0.36 Million Metric Tons, Polypropylene (PP) 0.27 Million Metric Tons and Polyethylene (PE) 0.46 Million Metric Tons. The quantum of imports increased further to 1.8 MMT with imports of Polyvinyl chloride (PVC), Polypropylene (PP) and Polyethylene (PE) rising to 0.70, 0.43 and 0.62 MMT. Replicating the growth in gross domestic product, polymer demand in India grew from 3.459 Million Metric ton per annum (MMtpa) in 2000 to 9.013 MMtpa in 2011 at a Compound Annual Growth Rate (CAGR) of 9.1%. Strong growth in the packaging sectors will drive the demand further to 14.315 MMtpa in 2016. To meet this growing demand, India increased its polymer production from 3.568 MMtpa in 2000 to 7.377 MMtpa in 2016. With an increase in demand the polymer consumption is expected to double by 2020, to about 20 million metric tons. Disposable is the ability of something to be disposed of or thrown away after use. A disposable (also called disposable product) is a product designed for a single use after which it is recycled or is disposed as solid waste. The term often implies cheapness and short-term convenience rather than medium to long-term durability. Polystyrene is a synthetic aromatic polymer made from the monomer styrene. Polystyrene can be solid or foamed. General purpose polystyrene is clear, hard, and rather brittle. It is an inexpensive resin per unit weight. It is a rather poor barrier to oxygen and water vapor and has a relatively low melting point. Polystyrene is one of the most widely used plastics, the scale of its production being several billion kilograms per year. India is growing at an average annual rate of 7.6% for the past five years and it is expected to continue growing at an equal if not faster rate. The rapid economic growth is increasing and enhancing employment and business opportunities and in turn increasing disposable incomes. As households with disposable incomes from Rs 200,000 to 1,000,000 a year comprises about 50 million people, roughly 5% of the population at present. By 2025 the size of middle class will increase to about 583 million people, or 41% of the population. The size of the Indian medical device industry will jump to INR 761 billion by 2017 registering a CAGR of 20% during 2012-17. The content of the book includes information about plastic. The major contents of this book are project profiles of projects like Plastics and Polymers Industry in India, Disposable Plastic Syringes, Flexible Polyurethane Foam, PVC Wires & Cables, Disposable Dishes, Knife, Fork & Cutlery Items (Spoon)Thermacol Cups, Glass and Plates, Pet Bottle from Pet Resin, PVC Flex Banner (Front Lit, Backlit & Vinyl),Wood Plastic Composite (WPC),HDPE/PP Woven Sacks, Pet Bottle Recycling, Plastic Injection, Moulded Products (Buckets, Tumblers, Tubs & Toilet Bowl Cleaning Brush),Disposable Plastic Cups, Plates & Glasses. Project profile contains information like introduction, uses and applications, properties, manufacturing process, B.I.S. specifications, raw material details, process description, process flow diagram, suppliers of plant & machinery, suppliers of raw material, land & building, plant & machinery, fixed capital, working capital requirement/month, total working capital/month, cost of project, rate of return, breakeven point (B.E.P) This book is very useful for new entrepreneurs, technical institutions, existing units and technocrats.
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 9381039631
Category :
Languages : en
Pages : 204
Book Description
Plastic is a polymeric material that has the capability of being molded or shaped, usually by the application of heat and pressure. This property of plasticity, often found in combination with other special properties such as low density, low electrical conductivity, transparency, and toughness, allows plastics to be made into a great variety of products. Many of the chemical names of the polymers employed as plastics have become familiar to consumers, although some are better known by their abbreviations or trade names. Thus, polyethylene terephthalate and polyvinyl chloride are commonly referred to as PET and PVC, while foamed polystyrene and polymethyl methacrylate are known by their trademarked names, Styrofoam and Plexiglas (or Perspex). The plastic consumption will increase to 20 million tonnes a year in 2020 from the current 8 million tonnes a year in India. Plastics is one of the biggest contributor to India’s GDP with the growth rate of 12%-15% per annum, it houses over 50,000 manufacturers and employees of over 40 lakh workers in the plastics industry. Polymers are chemical compounds whose molecules are very large, often resembling long chains made up of a seemingly endless series of interconnected links. The size of these molecules, as is explained in chemistry of industrial polymers, is extraordinary, ranging in the thousands and even millions of atomic mass units. Polymers have found uses in all spheres of life with demand for better materials, greater functional utility, more economical packaging and versatile and durable all-weather products. The per capita consumption of polymers in India is around 5.5 kg. The Government of India has prepared an ambitious plan to achieve a ten-fold increase in plastic exports (from $ 25 mn to 250 mn) to the US. Polyethylene terephthalate is a thermoplastic polymer resin of the polyester family and is used in synthetic fibers; beverage, food and other liquid containers; thermoforming applications; and engineering resins often in combination with glass fiber. PET in its natural state is a colorless, semi-crystalline resin. Based on how it is processed, PET can be semi-rigid to rigid, and it is very lightweight. It makes a good gas and fair moisture barrier, as well as a good barrier to alcohol and solvents. Poly (vinyl chloride), is the third-most widely produced polymer, after polyethylene and polypropylene. PVC comes in two basic forms: rigid (sometimes abbreviated as RPVC) and flexible. The rigid form of PVC is used in construction for pipe and in profile applications such as doors and windows. It is also used for bottles, other non-food packaging, and cards (such as bank or membership cards). It can be made softer and more flexible by the addition of plasticizers, the most widely used being phthalates. Around 1.1 Million Metric Tons, out of which, Polyvinyl chloride (PVC) accounts for 0.36 Million Metric Tons, Polypropylene (PP) 0.27 Million Metric Tons and Polyethylene (PE) 0.46 Million Metric Tons. The quantum of imports increased further to 1.8 MMT with imports of Polyvinyl chloride (PVC), Polypropylene (PP) and Polyethylene (PE) rising to 0.70, 0.43 and 0.62 MMT. Replicating the growth in gross domestic product, polymer demand in India grew from 3.459 Million Metric ton per annum (MMtpa) in 2000 to 9.013 MMtpa in 2011 at a Compound Annual Growth Rate (CAGR) of 9.1%. Strong growth in the packaging sectors will drive the demand further to 14.315 MMtpa in 2016. To meet this growing demand, India increased its polymer production from 3.568 MMtpa in 2000 to 7.377 MMtpa in 2016. With an increase in demand the polymer consumption is expected to double by 2020, to about 20 million metric tons. Disposable is the ability of something to be disposed of or thrown away after use. A disposable (also called disposable product) is a product designed for a single use after which it is recycled or is disposed as solid waste. The term often implies cheapness and short-term convenience rather than medium to long-term durability. Polystyrene is a synthetic aromatic polymer made from the monomer styrene. Polystyrene can be solid or foamed. General purpose polystyrene is clear, hard, and rather brittle. It is an inexpensive resin per unit weight. It is a rather poor barrier to oxygen and water vapor and has a relatively low melting point. Polystyrene is one of the most widely used plastics, the scale of its production being several billion kilograms per year. India is growing at an average annual rate of 7.6% for the past five years and it is expected to continue growing at an equal if not faster rate. The rapid economic growth is increasing and enhancing employment and business opportunities and in turn increasing disposable incomes. As households with disposable incomes from Rs 200,000 to 1,000,000 a year comprises about 50 million people, roughly 5% of the population at present. By 2025 the size of middle class will increase to about 583 million people, or 41% of the population. The size of the Indian medical device industry will jump to INR 761 billion by 2017 registering a CAGR of 20% during 2012-17. The content of the book includes information about plastic. The major contents of this book are project profiles of projects like Plastics and Polymers Industry in India, Disposable Plastic Syringes, Flexible Polyurethane Foam, PVC Wires & Cables, Disposable Dishes, Knife, Fork & Cutlery Items (Spoon)Thermacol Cups, Glass and Plates, Pet Bottle from Pet Resin, PVC Flex Banner (Front Lit, Backlit & Vinyl),Wood Plastic Composite (WPC),HDPE/PP Woven Sacks, Pet Bottle Recycling, Plastic Injection, Moulded Products (Buckets, Tumblers, Tubs & Toilet Bowl Cleaning Brush),Disposable Plastic Cups, Plates & Glasses. Project profile contains information like introduction, uses and applications, properties, manufacturing process, B.I.S. specifications, raw material details, process description, process flow diagram, suppliers of plant & machinery, suppliers of raw material, land & building, plant & machinery, fixed capital, working capital requirement/month, total working capital/month, cost of project, rate of return, breakeven point (B.E.P) This book is very useful for new entrepreneurs, technical institutions, existing units and technocrats.
Industrial Applications of Natural Fibres
Author: Jörg Müssig
Publisher: John Wiley & Sons
ISBN: 9780470660348
Category : Science
Languages : en
Pages : 560
Book Description
Natural fibres are becoming increasingly popular for use in industrial applications, providing sustainable solutions to support technical innovation. These versatile, natural based materials have applications in a wide range of industries, from textiles and consumer products to the automotive and construction industries. Industrial Applications of Natural Fibres examines the different steps of processing, from natural generation, fibre separation and fibre processing, to the manufacturing of the final product. Each step is linked to fibre properties and characterization, highlighting how different fibres influence the product properties through a discussion of their chemical and structural qualities. Considering the value-added chain from natural generation to final product, with emphasis on quality management, this book reviews the current research and technical applications of natural fibres. Topics covered include: Introduction to the Chemistry and Biology of Natural Fibres Economic Aspects of Natural Fibres Vegetable Fibres Animal Fibres Testing and Quality Management Applications: Current and Potential Industrial Application of Natural Fibres will be a valuable resource for scientists in industry and academia interested in the development of natural based materials and products. It is particularly relevant for those working in chemical engineering, sustainable chemistry, agricultural sciences, biology and materials sciences.
Publisher: John Wiley & Sons
ISBN: 9780470660348
Category : Science
Languages : en
Pages : 560
Book Description
Natural fibres are becoming increasingly popular for use in industrial applications, providing sustainable solutions to support technical innovation. These versatile, natural based materials have applications in a wide range of industries, from textiles and consumer products to the automotive and construction industries. Industrial Applications of Natural Fibres examines the different steps of processing, from natural generation, fibre separation and fibre processing, to the manufacturing of the final product. Each step is linked to fibre properties and characterization, highlighting how different fibres influence the product properties through a discussion of their chemical and structural qualities. Considering the value-added chain from natural generation to final product, with emphasis on quality management, this book reviews the current research and technical applications of natural fibres. Topics covered include: Introduction to the Chemistry and Biology of Natural Fibres Economic Aspects of Natural Fibres Vegetable Fibres Animal Fibres Testing and Quality Management Applications: Current and Potential Industrial Application of Natural Fibres will be a valuable resource for scientists in industry and academia interested in the development of natural based materials and products. It is particularly relevant for those working in chemical engineering, sustainable chemistry, agricultural sciences, biology and materials sciences.