Project Reports & Profiles » Best Business Opportunities in Lesotho, Africa- Identification and Selection of right Project, Thrust areas for Investment, Industry Startup and Entrepreneurship

Best Business Opportunities in Lesotho, Africa- Identification and Selection of right Project, Thrust areas for Investment, Industry Startup and Entrepreneurship

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Biodegradable Plastic Pellets • Corn Starch Thermoplastic & Polyvinyl Alcohol •PBAT & Corn Starch Thermoplastic •PLA + PBAT + Corn Starch Thermoplastic •PLA + PBAT + CaCO3
Among the biodegradable polymers made from renewable resources, starch is probably the most renewable naturally biodegradable polymer source because it is versatile, cheap, and abundant. It shows compatibility with extrusion processes used in the manufacture of conventional films and in the presence of a plasticizer it produces a material with thermoplastic characteristics, known as thermoplastic starch (TPS). As a result, TPS is often blended with other polymers, such as poly (butylene adipate-co-terephthalate) (PBAT) and biodegradable aliphatic-aromatic copolyester, which combines biodegradability with other desirable physical properties. The massive use of synthetic plastics, in particular in the food packaging area, has a great environmental impact, and alternative more ecologic materials are being required. Poly(lactic) acid (PLA) and starch have been extensively studied as potential replacements for non-degradable petrochemical polymers on the basis of their availability, adequate food contact properties and competitive cost. Indeed, plastics represent the second most widely used material for food packaging applications, after paper and cardboard.
Plant capacity: 1,200,000 Kgs per Annum	Plant & machinery: 128 Lakh
Working capital: -	T.C.I: Cost of Project:407 Lakh
Return: 29.00%	Break even: 48.00%
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Oxygen and Nitrogen Gas Production
Oxygen and Nitrogen Gas Production. Industrial Gas Plant India industrial gases market forecast to grow at a CAGR of over 11% Oxygen Gas Oxygen and nitrogen are the most important industrial gases finding its application in large quantities in metal fabrication and cutting industries. It is used in electric arc steel furnaces for decarburization and scrap matting. Oxygen is also used in medical treatment and for breathing at high altitude flying. Some quantities of liquid oxygen are used in explosives, chemicals and petrochemicals industries as an oxidizing and catalytic agent. As the quantity of oxygen required in integrated steel plants is huge, the excess of oxygen is compressed and bottled in steel cylinders and supplied to engineering industries such as manufacture of machine tools, industrial machinery, automobiles and component manufacturers, fabricators of chemical plants, storage tanks, and furniture and building elements. Nitrogen Gas Nitrogen is a colorless, odorless, inert and non-flammable gas. Although it is inert in nature, it reacts with other compounds under specific conditions. Industrial Nitrogen has a varied range of application in different industries. Nitrogen gas is used in the production of ammonia which in turn is used for the manufacture of urea and ammonium phosphate, which are fertilizers of great use. Nitrogen gas is used for blanketing hazardous chemicals which is an inert atmosphere. Nitrogen gas is used for purging purposes. Nitrogen gas is used for the purification of other gases with extremely low boiling points, such as hydrogen scrubbing. High purity nitrogen is used in strip steel annealing prior to tin plating. Human blood and cattle sperm cells are pressured by using nitrogen liquid freezing method. Large quantities of liquid nitrogen are employed in the preservation of food by rapid freezing. Liquid nitrogen is also used to maintain low temperatures during the transportation of frozen food. The demand of oxygen and nitrogen gas will increase in future Uses: Oxygen gas • Oxygen is also used in many industrial, commercial, medical, and scientific applications. It is used in blast furnaces to make steel, and is an important component in the production of many synthetic chemicals, including ammonia, alcohols, and various plastics. • The steel industry also uses oxygen gas in an oxy-acetylene flame, for scale removal from billets, and in oxygen lances, for cutting out imperfect ions. • The continuous gasification of coal or other solid fuel, oxygen gas admixed with steam is passed into the fuel bed and maintains a sufficiently high temperature to allow the waleragas reaction to proceed smoothly. • Oxygen gas is used in hospitals (to enrich air in respirators and to mix with anesthetics), aviation (for pilots' air supply), and pollution control. The space program was a major user of oxygen, • In the chemical and petrochemical industries, as well as in the oil and gas sector oxygen is used in commercial volumes as an oxidizer in chemical reactions. The use of oxygen in gas-flame operations, such as metal welding, cutting and brazing is one of the most significant and common applications of this gas. Nitrogen Gas • Nitrogen is used primarily as a freezing agent and a blanketing agent. About 21% of nitrogen produced is used for freezing • Other freezing applications include cryogenic size reduction of plastics, rubber, spices, and pharmaceuticals. About 33% of all nitrogen produced is used for blanketing, mostly in chemical processing and the electronics industry (14% each), with some application in the primary metals industry (5%). • Demand for nitrogen has been growing steadily 1n the liquefied industrial gases market and the chemical industry. In the aluminum industry, nitrogen has been replacing inert gas generators. The enhanced -oil products industry also requires fairly large quantities of gaseous nitrogen. • Nitrogen requirements for steel manufacture are modest and seldom exceed a small fraction of the oxygen flow. Some nitrogen~lso is used as the principal refrigerant in air separation cycles and as clean-up gas (to remove unwanted carbon dioxide and water). • Chemical Plants – Nitrogen is used to displace oxygen and prevent explosions in highly dangerous atmospheres, such as chemical plants and manufacturing facilities. Tire Inflation – Nitrogen offers many benefits when used to fill tires, such as giving them a longer life by reducing oxidation • Food Packaging – Nitrogen is used to displace oxygen in food packaging. By eliminating the oxygen, the food can last longer. It can also add a cushion around the food to keep it safe from breaking in transport. • Light Bulb Production – In incandescent light bulbs, nitrogen gas is often used as a cheaper alternative to argon. • Chemical Plants – Nitrogen is used to displace oxygen and prevent explosions in highly dangerous atmospheres, such as chemical plants and manufacturing facilities. • Tire Inflation – Nitrogen offers many benefits when used to fill tires, such as giving them a longer life by reducing oxidation. It also improves tire pressure retention to give drivers better gas mileage. • Electronics – When electronics are being assembled, nitrogen gas is used for soldering. Using nitrogen reduces the surface tension to provide a cleaner breakaway from the solder site. • Stainless Steel Manufacturing – By electroplating the stainless steel with nitrogen, the finished product is stronger and resistant to corrosion. • Pollution Control – Nitrogen gas can be used to remove the VOCs in liquids before they are discarded. • Pharmaceuticals – Almost every major drug class contains some nitrogen, even antibiotics. Nitrogen, in the form of nitrous oxide, is also used as an anesthetic. • Mining – In the mining industry, nitrogen gas is used to quickly extinguish fires by eliminating the oxygen from the air. And when an area is going to be abandoned, they use nitrogen to ensure the area will not explode. • Mild steel & carbon steel annealing • Electronic industries like semiconductors etc. • Blanketing during chemical reactions • Auto industries for Sintering, Brazing & Soldering • Food packaging • Tire filling • Metal powder formation Market Outlook The medical gases market size in India, in volume terms, is forecast to witness a two folds increase by 2019, exhibiting a CAGR of about 15% during 2014-19. The medical gases market in India is highly dominated by region-specific players, which are offering a stiff competition to multinational companies. India’s specialization in cardiology, orthopedic surgery, etc., is expected to drive healthcare demand, particularly for medical oxygen and nitrous oxide, which are vital requirements of any healthcare setup. Currently, the northern region, followed by the southern region, is the leading demand generators for medical gases, particularly medical oxygen gas. Oxygen Demand : Past and Future Year (In Million m3) 1990-91 450 2000-01 1335 2001-02 1525 2002-03 1725 2003-04 1975 2004-05 2315 2005-06 2760 2006-07 3360 2007-08 3730 2008-09 4910 2009-10 5400 2010-11 6250 2011-12 7210 2012-13 8200 2013-14 9165 2014-15 10000 2015-16 11250 2016-17 12800 2017-18 13950 2018-19 15700 2019-20 17230 2024-25 27125 Global Oxygen Market: Overview Oxygen is a colorless gas which is a paramount factor to sustain life. Oxygen is available in cylinders, containers, and cans. They are mostly used for industrial, medical, and scientific applications. Oxygen is used as an oxidizing agent and as a catalyst in various scientific and industrial processes. The oxygen market is growing at a significant pace and the growth in the oxygen market has resulted in an increase in the related markets such as medical oxygen generators, air-oxygen blenders, and stationary and portable oxygen concentrators. The global oxygen market is divided into its form, application, end-users, and geography. On the basis of a form of oxygen, the market is segregated into solid, liquid, and gaseous. Based on application, the market is classified into cosmetics, pharmaceutical, automobiles, and mining and mineral processing applications. On the basis of end-users, the market is categorized into industrial, medical, and scientific sectors. Diversification of the market on the basis of the region is seen into Asia Pacific, North America, Europe, Latin America, and the Middle East and Africa. Global Oxygen Market: Regional Analysis The largest share in the oxygen market is held by the Asia Pacific region. This growth can be attributed to reasons such as the growth of manufacturing sector and healthcare. Also, growth in the mineral and mining processing, where oxygen is a key catalyst, helps in the expansion of oxygen market in the region. Regions such as China, Japan, India, Australia, and New Zealand are showing major contribution in the Asia Pacific market. Key Players ? Hale Hamilton ? Maximator GmbH ? Hydrotechnik UK Ltd ? HyDAC ? Hydraulics International ? Inc ? Accudyne Industries ? Semmco Limited among Industrial Nitrogen Gas Market The market is witnessing a rise in demand from the food and beverages market. Its freezing property has expanded its use in blood banks, cryogenic treatments and plastic and rubber industries. Demand from end-users such as metal manufacturers, chemical and transportation industries are also propelling the industry to grow. Application wise its use can be segmented into metal manufacturing, oil and gas sector, petrochemical, pharmaceutical and healthcare, chemical, food and beverage industry and electronics. Food packaging - to displace the Oxygen from packaging that helps the food product to last long, used as fertilizer when combined with Ammonia to form Nitrates, Tire Inflation - by improving life of the tire and getting better mileage. The demand for industrial gases also continued to remain strongly driven by an increase in investments in infrastructure development and petroleum reserves in emerging markets. In fact, metal fabrication and production sector are expected to remain the second major sector for industrial gases, next to petroleum refining. Over the longer term to 2022, the annual growth rate in the industrial gas market is expected to significantly exceed the rate of industrial production driven by multitude of factors including opening of new startups, rapid industrialization of emerging economies, increasing demand for energy, environment regulations, improving healthcare sector, and advancements in industrial technology. Tags #Oxygen_and_Nitrogen_Gas_Plant, #Production_of_Oxygen_Gas, How Oxygen is Made, Producing Oxygen Gas, Oxygen Plant, Nitrogen Plants, #Oxygen_Plant, Industrial Oxygen Plant, #Industrial_Gases, Making of Oxygen Gas, Oxygen Production, Manufacturing Process of Oxygen Gas Plant, Oxygen Plant Manufacturing Process, Oxygen Plant in India, Oxygen Gas Production Plant, Oxygen Gas Manufacturing Plant, Manufacturing of Oxygen Gas, Project Report on Oxygen Gas Plant, Oxygen Gas Manufacture in India, Manufacturing of Medical Gases, Oxygen Gas Manufacturing Unit, Nitrogen Gas Plant, Oxygen Gas Plant Project Cost, #Oxygen_&_Nitrogen_Gas_Plant, Oxygen and Nitrogen Gas Plant Manufacturing Plant, Industrial Gas Plants, Uses and Applications of Nitrogen Gas, Nitrogen Gas Production, Nitrogen Gas Manufacturing Process, #Production_of_Nitrogen, Manufacturing Process of Nitrogen Gas, Manufacturing Process of Oxygen Nitrogen Gas Plant, Setting up Oxygen and Nitrogen Gas Plant, #Industrial_&_Medical_Oxygen_and_Nitrogen_Gases, Industrial Oxygen Gas Filling Plant, Medical Gases, #Oxygen_Gas_Plant_Project Cost, Industrial Oxygen Plant Project Report Pdf, Medical Oxygen Plant Setup Cost in India, Oxygen Gas Business, #How_to_Start_Oxygen_Plant, Project Report on Oxygen & Nitrogen Gas Industry, Detailed Project Report on Oxygen & Nitrogen Gas Plant, #Project_Report_on_Oxygen_&_Nitrogen_Gas_Plant, Pre-Investment Feasibility Study on Oxygen & Nitrogen Gas Plant, Techno-Economic feasibility study on Oxygen & Nitrogen Gas Plant, Feasibility report on Oxygen & Nitrogen Gas Plant, Free Project Profile on Oxygen & Nitrogen Gas Plant, Project profile on Oxygen & Nitrogen Gas Plant, Download free project profile on Oxygen & Nitrogen Gas Plant
Plant capacity: -	Plant & machinery: -
Working capital: -	T.C.I: -
Return: 1.00%	Break even: N/A
Add to Inquiry Basket

Oxygen and Nitrogen Gas Production
Oxygen and Nitrogen Gas Production. Industrial Gas Plant India industrial gases market forecast to grow at a CAGR of over 11% Oxygen Gas Oxygen and nitrogen are the most important industrial gases finding its application in large quantities in metal fabrication and cutting industries. It is used in electric arc steel furnaces for decarburization and scrap matting. Oxygen is also used in medical treatment and for breathing at high altitude flying. Some quantities of liquid oxygen are used in explosives, chemicals and petrochemicals industries as an oxidizing and catalytic agent. As the quantity of oxygen required in integrated steel plants is huge, the excess of oxygen is compressed and bottled in steel cylinders and supplied to engineering industries such as manufacture of machine tools, industrial machinery, automobiles and component manufacturers, fabricators of chemical plants, storage tanks, and furniture and building elements. Nitrogen Gas Nitrogen is a colorless, odorless, inert and non-flammable gas. Although it is inert in nature, it reacts with other compounds under specific conditions. Industrial Nitrogen has a varied range of application in different industries. Nitrogen gas is used in the production of ammonia which in turn is used for the manufacture of urea and ammonium phosphate, which are fertilizers of great use. Nitrogen gas is used for blanketing hazardous chemicals which is an inert atmosphere. Nitrogen gas is used for purging purposes. Nitrogen gas is used for the purification of other gases with extremely low boiling points, such as hydrogen scrubbing. High purity nitrogen is used in strip steel annealing prior to tin plating. Human blood and cattle sperm cells are pressured by using nitrogen liquid freezing method. Large quantities of liquid nitrogen are employed in the preservation of food by rapid freezing. Liquid nitrogen is also used to maintain low temperatures during the transportation of frozen food. The demand of oxygen and nitrogen gas will increase in future Uses: Oxygen gas • Oxygen is also used in many industrial, commercial, medical, and scientific applications. It is used in blast furnaces to make steel, and is an important component in the production of many synthetic chemicals, including ammonia, alcohols, and various plastics. • The steel industry also uses oxygen gas in an oxy-acetylene flame, for scale removal from billets, and in oxygen lances, for cutting out imperfect ions. • The continuous gasification of coal or other solid fuel, oxygen gas admixed with steam is passed into the fuel bed and maintains a sufficiently high temperature to allow the waleragas reaction to proceed smoothly. • Oxygen gas is used in hospitals (to enrich air in respirators and to mix with anesthetics), aviation (for pilots' air supply), and pollution control. The space program was a major user of oxygen, • In the chemical and petrochemical industries, as well as in the oil and gas sector oxygen is used in commercial volumes as an oxidizer in chemical reactions. The use of oxygen in gas-flame operations, such as metal welding, cutting and brazing is one of the most significant and common applications of this gas. Nitrogen Gas • Nitrogen is used primarily as a freezing agent and a blanketing agent. About 21% of nitrogen produced is used for freezing • Other freezing applications include cryogenic size reduction of plastics, rubber, spices, and pharmaceuticals. About 33% of all nitrogen produced is used for blanketing, mostly in chemical processing and the electronics industry (14% each), with some application in the primary metals industry (5%). • Demand for nitrogen has been growing steadily 1n the liquefied industrial gases market and the chemical industry. In the aluminum industry, nitrogen has been replacing inert gas generators. The enhanced -oil products industry also requires fairly large quantities of gaseous nitrogen. • Nitrogen requirements for steel manufacture are modest and seldom exceed a small fraction of the oxygen flow. Some nitrogen~lso is used as the principal refrigerant in air separation cycles and as clean-up gas (to remove unwanted carbon dioxide and water). • Chemical Plants – Nitrogen is used to displace oxygen and prevent explosions in highly dangerous atmospheres, such as chemical plants and manufacturing facilities. Tire Inflation – Nitrogen offers many benefits when used to fill tires, such as giving them a longer life by reducing oxidation • Food Packaging – Nitrogen is used to displace oxygen in food packaging. By eliminating the oxygen, the food can last longer. It can also add a cushion around the food to keep it safe from breaking in transport. • Light Bulb Production – In incandescent light bulbs, nitrogen gas is often used as a cheaper alternative to argon. • Chemical Plants – Nitrogen is used to displace oxygen and prevent explosions in highly dangerous atmospheres, such as chemical plants and manufacturing facilities. • Tire Inflation – Nitrogen offers many benefits when used to fill tires, such as giving them a longer life by reducing oxidation. It also improves tire pressure retention to give drivers better gas mileage. • Electronics – When electronics are being assembled, nitrogen gas is used for soldering. Using nitrogen reduces the surface tension to provide a cleaner breakaway from the solder site. • Stainless Steel Manufacturing – By electroplating the stainless steel with nitrogen, the finished product is stronger and resistant to corrosion. • Pollution Control – Nitrogen gas can be used to remove the VOCs in liquids before they are discarded. • Pharmaceuticals – Almost every major drug class contains some nitrogen, even antibiotics. Nitrogen, in the form of nitrous oxide, is also used as an anesthetic. • Mining – In the mining industry, nitrogen gas is used to quickly extinguish fires by eliminating the oxygen from the air. And when an area is going to be abandoned, they use nitrogen to ensure the area will not explode. • Mild steel & carbon steel annealing • Electronic industries like semiconductors etc. • Blanketing during chemical reactions • Auto industries for Sintering, Brazing & Soldering • Food packaging • Tire filling • Metal powder formation Market Outlook The medical gases market size in India, in volume terms, is forecast to witness a two folds increase by 2019, exhibiting a CAGR of about 15% during 2014-19. The medical gases market in India is highly dominated by region-specific players, which are offering a stiff competition to multinational companies. India’s specialization in cardiology, orthopedic surgery, etc., is expected to drive healthcare demand, particularly for medical oxygen and nitrous oxide, which are vital requirements of any healthcare setup. Currently, the northern region, followed by the southern region, is the leading demand generators for medical gases, particularly medical oxygen gas. Oxygen Demand : Past and Future Year (In Million m3) 1990-91 450 2000-01 1335 2001-02 1525 2002-03 1725 2003-04 1975 2004-05 2315 2005-06 2760 2006-07 3360 2007-08 3730 2008-09 4910 2009-10 5400 2010-11 6250 2011-12 7210 2012-13 8200 2013-14 9165 2014-15 10000 2015-16 11250 2016-17 12800 2017-18 13950 2018-19 15700 2019-20 17230 2024-25 27125 Global Oxygen Market: Overview Oxygen is a colorless gas which is a paramount factor to sustain life. Oxygen is available in cylinders, containers, and cans. They are mostly used for industrial, medical, and scientific applications. Oxygen is used as an oxidizing agent and as a catalyst in various scientific and industrial processes. The oxygen market is growing at a significant pace and the growth in the oxygen market has resulted in an increase in the related markets such as medical oxygen generators, air-oxygen blenders, and stationary and portable oxygen concentrators. The global oxygen market is divided into its form, application, end-users, and geography. On the basis of a form of oxygen, the market is segregated into solid, liquid, and gaseous. Based on application, the market is classified into cosmetics, pharmaceutical, automobiles, and mining and mineral processing applications. On the basis of end-users, the market is categorized into industrial, medical, and scientific sectors. Diversification of the market on the basis of the region is seen into Asia Pacific, North America, Europe, Latin America, and the Middle East and Africa. Global Oxygen Market: Regional Analysis The largest share in the oxygen market is held by the Asia Pacific region. This growth can be attributed to reasons such as the growth of manufacturing sector and healthcare. Also, growth in the mineral and mining processing, where oxygen is a key catalyst, helps in the expansion of oxygen market in the region. Regions such as China, Japan, India, Australia, and New Zealand are showing major contribution in the Asia Pacific market. Key Players ? Hale Hamilton ? Maximator GmbH ? Hydrotechnik UK Ltd ? HyDAC ? Hydraulics International ? Inc ? Accudyne Industries ? Semmco Limited among Industrial Nitrogen Gas Market The market is witnessing a rise in demand from the food and beverages market. Its freezing property has expanded its use in blood banks, cryogenic treatments and plastic and rubber industries. Demand from end-users such as metal manufacturers, chemical and transportation industries are also propelling the industry to grow. Application wise its use can be segmented into metal manufacturing, oil and gas sector, petrochemical, pharmaceutical and healthcare, chemical, food and beverage industry and electronics. Food packaging - to displace the Oxygen from packaging that helps the food product to last long, used as fertilizer when combined with Ammonia to form Nitrates, Tire Inflation - by improving life of the tire and getting better mileage. The demand for industrial gases also continued to remain strongly driven by an increase in investments in infrastructure development and petroleum reserves in emerging markets. In fact, metal fabrication and production sector are expected to remain the second major sector for industrial gases, next to petroleum refining. Over the longer term to 2022, the annual growth rate in the industrial gas market is expected to significantly exceed the rate of industrial production driven by multitude of factors including opening of new startups, rapid industrialization of emerging economies, increasing demand for energy, environment regulations, improving healthcare sector, and advancements in industrial technology. Tags #Oxygen_and_Nitrogen_Gas_Plant, #Production_of_Oxygen_Gas, How Oxygen is Made, Producing Oxygen Gas, Oxygen Plant, Nitrogen Plants, #Oxygen_Plant, Industrial Oxygen Plant, #Industrial_Gases, Making of Oxygen Gas, Oxygen Production, Manufacturing Process of Oxygen Gas Plant, Oxygen Plant Manufacturing Process, Oxygen Plant in India, Oxygen Gas Production Plant, Oxygen Gas Manufacturing Plant, Manufacturing of Oxygen Gas, Project Report on Oxygen Gas Plant, Oxygen Gas Manufacture in India, Manufacturing of Medical Gases, Oxygen Gas Manufacturing Unit, Nitrogen Gas Plant, Oxygen Gas Plant Project Cost, #Oxygen_&_Nitrogen_Gas_Plant, Oxygen and Nitrogen Gas Plant Manufacturing Plant, Industrial Gas Plants, Uses and Applications of Nitrogen Gas, Nitrogen Gas Production, Nitrogen Gas Manufacturing Process, #Production_of_Nitrogen, Manufacturing Process of Nitrogen Gas, Manufacturing Process of Oxygen Nitrogen Gas Plant, Setting up Oxygen and Nitrogen Gas Plant, #Industrial_&_Medical_Oxygen_and_Nitrogen_Gases, Industrial Oxygen Gas Filling Plant, Medical Gases, #Oxygen_Gas_Plant_Project Cost, Industrial Oxygen Plant Project Report Pdf, Medical Oxygen Plant Setup Cost in India, Oxygen Gas Business, #How_to_Start_Oxygen_Plant, Project Report on Oxygen & Nitrogen Gas Industry, Detailed Project Report on Oxygen & Nitrogen Gas Plant, #Project_Report_on_Oxygen_&_Nitrogen_Gas_Plant, Pre-Investment Feasibility Study on Oxygen & Nitrogen Gas Plant, Techno-Economic feasibility study on Oxygen & Nitrogen Gas Plant, Feasibility report on Oxygen & Nitrogen Gas Plant, Free Project Profile on Oxygen & Nitrogen Gas Plant, Project profile on Oxygen & Nitrogen Gas Plant, Download free project profile on Oxygen & Nitrogen Gas Plant
Plant capacity: -	Plant & machinery: -
Working capital: -	T.C.I: -
Return: 1.00%	Break even: N/A
Add to Inquiry Basket

Oxygen and Nitrogen Gas Production
Oxygen and Nitrogen Gas Production. Industrial Gas Plant India industrial gases market forecast to grow at a CAGR of over 11% Oxygen Gas Oxygen and nitrogen are the most important industrial gases finding its application in large quantities in metal fabrication and cutting industries. It is used in electric arc steel furnaces for decarburization and scrap matting. Oxygen is also used in medical treatment and for breathing at high altitude flying. Some quantities of liquid oxygen are used in explosives, chemicals and petrochemicals industries as an oxidizing and catalytic agent. As the quantity of oxygen required in integrated steel plants is huge, the excess of oxygen is compressed and bottled in steel cylinders and supplied to engineering industries such as manufacture of machine tools, industrial machinery, automobiles and component manufacturers, fabricators of chemical plants, storage tanks, and furniture and building elements. Nitrogen Gas Nitrogen is a colorless, odorless, inert and non-flammable gas. Although it is inert in nature, it reacts with other compounds under specific conditions. Industrial Nitrogen has a varied range of application in different industries. Nitrogen gas is used in the production of ammonia which in turn is used for the manufacture of urea and ammonium phosphate, which are fertilizers of great use. Nitrogen gas is used for blanketing hazardous chemicals which is an inert atmosphere. Nitrogen gas is used for purging purposes. Nitrogen gas is used for the purification of other gases with extremely low boiling points, such as hydrogen scrubbing. High purity nitrogen is used in strip steel annealing prior to tin plating. Human blood and cattle sperm cells are pressured by using nitrogen liquid freezing method. Large quantities of liquid nitrogen are employed in the preservation of food by rapid freezing. Liquid nitrogen is also used to maintain low temperatures during the transportation of frozen food. The demand of oxygen and nitrogen gas will increase in future Uses: Oxygen gas • Oxygen is also used in many industrial, commercial, medical, and scientific applications. It is used in blast furnaces to make steel, and is an important component in the production of many synthetic chemicals, including ammonia, alcohols, and various plastics. • The steel industry also uses oxygen gas in an oxy-acetylene flame, for scale removal from billets, and in oxygen lances, for cutting out imperfect ions. • The continuous gasification of coal or other solid fuel, oxygen gas admixed with steam is passed into the fuel bed and maintains a sufficiently high temperature to allow the waleragas reaction to proceed smoothly. • Oxygen gas is used in hospitals (to enrich air in respirators and to mix with anesthetics), aviation (for pilots' air supply), and pollution control. The space program was a major user of oxygen, • In the chemical and petrochemical industries, as well as in the oil and gas sector oxygen is used in commercial volumes as an oxidizer in chemical reactions. The use of oxygen in gas-flame operations, such as metal welding, cutting and brazing is one of the most significant and common applications of this gas. Nitrogen Gas • Nitrogen is used primarily as a freezing agent and a blanketing agent. About 21% of nitrogen produced is used for freezing • Other freezing applications include cryogenic size reduction of plastics, rubber, spices, and pharmaceuticals. About 33% of all nitrogen produced is used for blanketing, mostly in chemical processing and the electronics industry (14% each), with some application in the primary metals industry (5%). • Demand for nitrogen has been growing steadily 1n the liquefied industrial gases market and the chemical industry. In the aluminum industry, nitrogen has been replacing inert gas generators. The enhanced -oil products industry also requires fairly large quantities of gaseous nitrogen. • Nitrogen requirements for steel manufacture are modest and seldom exceed a small fraction of the oxygen flow. Some nitrogen~lso is used as the principal refrigerant in air separation cycles and as clean-up gas (to remove unwanted carbon dioxide and water). • Chemical Plants – Nitrogen is used to displace oxygen and prevent explosions in highly dangerous atmospheres, such as chemical plants and manufacturing facilities. Tire Inflation – Nitrogen offers many benefits when used to fill tires, such as giving them a longer life by reducing oxidation • Food Packaging – Nitrogen is used to displace oxygen in food packaging. By eliminating the oxygen, the food can last longer. It can also add a cushion around the food to keep it safe from breaking in transport. • Light Bulb Production – In incandescent light bulbs, nitrogen gas is often used as a cheaper alternative to argon. • Chemical Plants – Nitrogen is used to displace oxygen and prevent explosions in highly dangerous atmospheres, such as chemical plants and manufacturing facilities. • Tire Inflation – Nitrogen offers many benefits when used to fill tires, such as giving them a longer life by reducing oxidation. It also improves tire pressure retention to give drivers better gas mileage. • Electronics – When electronics are being assembled, nitrogen gas is used for soldering. Using nitrogen reduces the surface tension to provide a cleaner breakaway from the solder site. • Stainless Steel Manufacturing – By electroplating the stainless steel with nitrogen, the finished product is stronger and resistant to corrosion. • Pollution Control – Nitrogen gas can be used to remove the VOCs in liquids before they are discarded. • Pharmaceuticals – Almost every major drug class contains some nitrogen, even antibiotics. Nitrogen, in the form of nitrous oxide, is also used as an anesthetic. • Mining – In the mining industry, nitrogen gas is used to quickly extinguish fires by eliminating the oxygen from the air. And when an area is going to be abandoned, they use nitrogen to ensure the area will not explode. • Mild steel & carbon steel annealing • Electronic industries like semiconductors etc. • Blanketing during chemical reactions • Auto industries for Sintering, Brazing & Soldering • Food packaging • Tire filling • Metal powder formation Market Outlook The medical gases market size in India, in volume terms, is forecast to witness a two folds increase by 2019, exhibiting a CAGR of about 15% during 2014-19. The medical gases market in India is highly dominated by region-specific players, which are offering a stiff competition to multinational companies. India’s specialization in cardiology, orthopedic surgery, etc., is expected to drive healthcare demand, particularly for medical oxygen and nitrous oxide, which are vital requirements of any healthcare setup. Currently, the northern region, followed by the southern region, is the leading demand generators for medical gases, particularly medical oxygen gas. Oxygen Demand : Past and Future Year (In Million m3) 1990-91 450 2000-01 1335 2001-02 1525 2002-03 1725 2003-04 1975 2004-05 2315 2005-06 2760 2006-07 3360 2007-08 3730 2008-09 4910 2009-10 5400 2010-11 6250 2011-12 7210 2012-13 8200 2013-14 9165 2014-15 10000 2015-16 11250 2016-17 12800 2017-18 13950 2018-19 15700 2019-20 17230 2024-25 27125 Global Oxygen Market: Overview Oxygen is a colorless gas which is a paramount factor to sustain life. Oxygen is available in cylinders, containers, and cans. They are mostly used for industrial, medical, and scientific applications. Oxygen is used as an oxidizing agent and as a catalyst in various scientific and industrial processes. The oxygen market is growing at a significant pace and the growth in the oxygen market has resulted in an increase in the related markets such as medical oxygen generators, air-oxygen blenders, and stationary and portable oxygen concentrators. The global oxygen market is divided into its form, application, end-users, and geography. On the basis of a form of oxygen, the market is segregated into solid, liquid, and gaseous. Based on application, the market is classified into cosmetics, pharmaceutical, automobiles, and mining and mineral processing applications. On the basis of end-users, the market is categorized into industrial, medical, and scientific sectors. Diversification of the market on the basis of the region is seen into Asia Pacific, North America, Europe, Latin America, and the Middle East and Africa. Global Oxygen Market: Regional Analysis The largest share in the oxygen market is held by the Asia Pacific region. This growth can be attributed to reasons such as the growth of manufacturing sector and healthcare. Also, growth in the mineral and mining processing, where oxygen is a key catalyst, helps in the expansion of oxygen market in the region. Regions such as China, Japan, India, Australia, and New Zealand are showing major contribution in the Asia Pacific market. Key Players ? Hale Hamilton ? Maximator GmbH ? Hydrotechnik UK Ltd ? HyDAC ? Hydraulics International ? Inc ? Accudyne Industries ? Semmco Limited among Industrial Nitrogen Gas Market The market is witnessing a rise in demand from the food and beverages market. Its freezing property has expanded its use in blood banks, cryogenic treatments and plastic and rubber industries. Demand from end-users such as metal manufacturers, chemical and transportation industries are also propelling the industry to grow. Application wise its use can be segmented into metal manufacturing, oil and gas sector, petrochemical, pharmaceutical and healthcare, chemical, food and beverage industry and electronics. Food packaging - to displace the Oxygen from packaging that helps the food product to last long, used as fertilizer when combined with Ammonia to form Nitrates, Tire Inflation - by improving life of the tire and getting better mileage. The demand for industrial gases also continued to remain strongly driven by an increase in investments in infrastructure development and petroleum reserves in emerging markets. In fact, metal fabrication and production sector are expected to remain the second major sector for industrial gases, next to petroleum refining. Over the longer term to 2022, the annual growth rate in the industrial gas market is expected to significantly exceed the rate of industrial production driven by multitude of factors including opening of new startups, rapid industrialization of emerging economies, increasing demand for energy, environment regulations, improving healthcare sector, and advancements in industrial technology. Tags #Oxygen_and_Nitrogen_Gas_Plant, #Production_of_Oxygen_Gas, How Oxygen is Made, Producing Oxygen Gas, Oxygen Plant, Nitrogen Plants, #Oxygen_Plant, Industrial Oxygen Plant, #Industrial_Gases, Making of Oxygen Gas, Oxygen Production, Manufacturing Process of Oxygen Gas Plant, Oxygen Plant Manufacturing Process, Oxygen Plant in India, Oxygen Gas Production Plant, Oxygen Gas Manufacturing Plant, Manufacturing of Oxygen Gas, Project Report on Oxygen Gas Plant, Oxygen Gas Manufacture in India, Manufacturing of Medical Gases, Oxygen Gas Manufacturing Unit, Nitrogen Gas Plant, Oxygen Gas Plant Project Cost, #Oxygen_&_Nitrogen_Gas_Plant, Oxygen and Nitrogen Gas Plant Manufacturing Plant, Industrial Gas Plants, Uses and Applications of Nitrogen Gas, Nitrogen Gas Production, Nitrogen Gas Manufacturing Process, #Production_of_Nitrogen, Manufacturing Process of Nitrogen Gas, Manufacturing Process of Oxygen Nitrogen Gas Plant, Setting up Oxygen and Nitrogen Gas Plant, #Industrial_&_Medical_Oxygen_and_Nitrogen_Gases, Industrial Oxygen Gas Filling Plant, Medical Gases, #Oxygen_Gas_Plant_Project Cost, Industrial Oxygen Plant Project Report Pdf, Medical Oxygen Plant Setup Cost in India, Oxygen Gas Business, #How_to_Start_Oxygen_Plant, Project Report on Oxygen & Nitrogen Gas Industry, Detailed Project Report on Oxygen & Nitrogen Gas Plant, #Project_Report_on_Oxygen_&_Nitrogen_Gas_Plant, Pre-Investment Feasibility Study on Oxygen & Nitrogen Gas Plant, Techno-Economic feasibility study on Oxygen & Nitrogen Gas Plant, Feasibility report on Oxygen & Nitrogen Gas Plant, Free Project Profile on Oxygen & Nitrogen Gas Plant, Project profile on Oxygen & Nitrogen Gas Plant, Download free project profile on Oxygen & Nitrogen Gas Plant
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Return: 1.00%	Break even: N/A
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Lithium Ion Battery (Battery Assembly)
Lithium-ion batteries are all about the movement of lithium ions: the ions move one way when the battery charges (when it's absorbing power); they move the opposite way when the battery discharges (when it's supplying power): Lithium batteries are now powering a wide range of electrical and electronical devices, including laptop computers, mobile phones, power tools, telecommunication systems and new generations of electric cars and vehicles. The high cost, associated with batteries that are used in the electric vehicles, is considered to be critical for India's ambitious target. To counter this, the Government of India is planning to set up lithium-ion battery manufacturing units in India, aggressively. The Indian automobile sector is one of the most prominent sectors of the country, accounting for nearly 7.1% of the national GDP. The industry produced a total of 25.31 million vehicles, including commercial, passenger, two, and three vehicles and commercial quadricycle in April-March 2017, as against 24.01 million in April-March 2016. However, India has set itself an ambitious target of having only electric vehicles (EV) by 2030, which is expected to increase the demand for lithium-ion batteries in India, significantly.
Plant capacity: 90 Volt, 180 AH Lithium Ion Battery Pack:100,000 Nos per Annum	Plant & machinery: 1017 Lakh
Working capital: -	T.C.I: Cost of Project :4978 Lakh
Return: 34.00%	Break even: 52.00%
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Geotextiles for Road Construction
Geotextiles were used in roadway construction to stabilise roadways and their edges. These early geotextiles were made of natural fibres, fabrics or vegetation mixed with soil to improve road quality, particularly when roads were made on unstable soil. Recently have geotextiles been used and evaluated for modern road construction. Geotextiles today are highly developed products that must comply with numerous standards. Geotextiles should fulfill certain requirements like it must permit material exchange between air and soil without which plant growth is impossible, it must be penetrable by roots etc. and it must allow rain water to penetrate the soil from outside and also excess water to drain out of the earth without erosion of the soil. Geotextiles market in India is forecasted to grow at CAGR 12% during 2016 - 2025. Ongoing and upcoming highway projects under green highway mission by Ministry of Road Transport and Highway (MoRTH), coupled with increasing investments to improve and expand road and railway networks across the country are expected to fuel demand for geotextiles in India through 2026. Railway is one of the fastest emerging application areas for geotextiles in India, as upcoming metro rail, bullet train and high-speed train projects in the country are expected to fuel geotextile demand during 2017-2026. Other application areas for geotextiles include erosion control, drainage, etc. Few Indian major players are as under: • Maccaferri Environmental Solutions Pvt. Ltd. • Parry Enterprises India Ltd. • Skaps Industries India Pvt. Ltd. • Strata Geosystems (India) Pvt. Ltd. • Techfab (India) Inds. Ltd. • Terram Geosynthetics Pvt. Ltd.
Plant capacity: 4000 Kgs per day	Plant & machinery: 339 Lakh
Working capital: -	T.C.I: Cost of Project :771 Lakh
Return: 28.00%	Break even: 58.00%
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Bioplastic Products Manufacturing Industry, Profitable Business Ideas on Biodegradable Products
Bioplastic Products Manufacturing Industry, Profitable Business Ideas on Biodegradable Products. Manufacture of Eco-Friendly Products for Your Daily Life The non-biodegradable plastic products, which are commonly used in households, cannot be recycled for 400 years. Products like plastic carry bags, if disposed unscientifically, are hard to decompose and are a massive threat to soil cultivation Biodegradable substances include food scraps, cotton, wool, wood, human and animal waste, manufactured products based on natural materials (such as paper, and vegetable-oil based soaps). See also degradable and photodegradable. Biodegradable waste includes any organic matter in waste which can be broken down into carbon dioxide, water, methane or simple organic molecules by micro-organisms and other living things by composting, aerobic digestion, anaerobic digestion or similar processes. In waste management, it also includes some inorganic materials which can be decomposed by bacteria. Such materials include gypsum and its products such as plasterboard and other simple organic sulfates which can decompose to yield hydrogen sulphide in anaerobic land-fill conditions. Biodegradable waste can be found in municipal solid waste (sometimes called biodegradable municipal waste, or (BMW) as green waste, food waste, paper waste and biodegradable plastics. Other biodegradable wastes include human waste, manure, sewage, sewage sludge and slaughterhouse waste. In the absence of oxygen, much of this waste will decay to methane by anaerobic digestion. Biodegradable substances are those that degrades or break down naturally. Materials like plants, animals, their waste, paper, fruits, flowers, vegetables fall under biodegradable substances, on the other hand, rubber, plastic, chemicals, paint plastic falls under the category of the non-biodegradable items. Bio-Degradable Plates from Areca Nuts Tree Leaf, Barks and Bamboo Areca nuts tree leaf plate is made of completely organic material, which is a fallen leaf collected from areca palm trees. Palm Leaf plates are made by Mother Nature from the naturally fallen Areca Palm tree leaves found in India. The leaf or Sheath is collected for the tableware. Areca Leaf plates are commonly known as Areca Plate, Areca Palm Leaf Plates, Palm Leaf Plates, Bio Plate, Natural plates, Disposable Plates, Eco friendly Bio-Degradable Dinner Plates, Kitchenware, Dinnerware. Currently no other alternative product in the world can match the unique properties of areca palm leaf plates present in nature. Areca leaf plates are made from the naturally shed leaf sheaths of Areca Nut Tree. The areca leaves are simply collected, pressure washed, scrubbed, sun dried and then with the application of heat and pressure formed into appropriate shaped plates. Plates once used can be used as a good fertilizer which enhances plants growth, a good source of organic manure. The countries that import areca leaf plates from India are shown in the pie chart below given. Areca Leaf Plate exporters in India supply these plates which are in supreme demand owing to their low cost and solid construction on top of it environmental friendly nature. The products are made from high quality leak proof and defect free palm sheath. The global market for foodservice disposables is anticipated to see a steady growth between 2017 and 2021. By the end of 2021, the global foodservice disposables market is estimated to bring in US$ 27,187 Million revenue. Increasing number of restaurants are using disposable plates, cups, trays, bowls, etc. to serve various food items. Majority of the restaurants have started providing catering services, hence the use of foodservice disposables have also increased. Manufacturers are also providing customized foodservice disposables as per the requirement of restaurants. Moreover, increasing number of customers have started using catering services provided by restaurants, especially during celebrations. Meanwhile, in the recent years, retail stores and hospitality industry have also started using foodservice disposables to provide various food products. A rise in the number of restaurants in developing countries and popularity of takeaway meals is fueling the growth of foodservice disposables in Asia Pacific region. Moreover, continuous urbanization, sedentary lifestyles and on-the-go food culture are expected to further propel the growth of the market in the short and medium terms. Easy availability of raw materials used in the manufacturing of biodegradable food service disposables is another factor which will provide the manufacturers with ease of production, thereby increasing the availability of these products in the market. Biodegradable Diapers and Sanitary Napkins Production Sanitary napkins are completely biodegradable and compostable. They are made from a plant-based material such as banana fibre which is extracted from the stems of banana trees. The pads degrade within 6 months of disposal. Women in rural areas use re-usable cloth as sanitary pads and while that is eco-friendly, it is not so hygienic. While plastic-based menstrual hygiene products are available in abundance, it is advisable to switch to a natural, safer product that does not have any harmful chemicals or synthetics fibers. Menstrual hygiene is a subject matter of deep concern in India where women, especially in rural areas face challenges in acquiring hygienic absorbents and develop health risks. Over the years, there has been a significant rise in the awareness levels regarding the benefits offered by biodegradable sanitary napkins. They are environmentally sustainable which can easily be disposed of in natural soil. Moreover, it reduces the chances of infection and skin irritation and they are cost effective as well. On the other hand, non-compostable napkins use chemicals like dioxins, furans, chlorines and fragrances which causes health issues and cannot be recycled and takes hundreds of years to degrade. Consumers are seeking for environmentally friendly diapering options such as diapers, developing innovative technologies such as nanotechnologies that can minimize the environmental impact of disposable baby diapers, and increasing birth rate in developing countries are the factors influencing the growth of the biodegradable baby diapers market in the near future. The global biodegradable diapers market is expected to grow at a CAGR of 10.3% during 2019-2024. Rising environment concerns represents a key factor driving the demand of diapers. Unlike biodegradable diapers, traditional diapers do not degrade well in a landfill. Moreover, they can take around hundreds of years to decompose. The huge amount of untreated waste added to the landfills every year through plastic diapers can also pollute the ground water. Additionally, disposable diapers also consist of several chemicals that can have a negative impact on health. These include dioxins, sodium polyacrylate, tributyl-tin, volatile organic compounds, dyes, fragrances, etc. Biodegradable Disposable Plastic Cutlery Biodegradable plastics are plastics that can be decomposed by the action of living organisms, usually microbes, into water, carbon dioxide, and biomass. Biodegradable plastics are commonly produced with renewable raw materials, micro-organisms, petrochemicals, or combinations of all three. Plastic cutlery is made from a type of plastic known as polystyrene1. Polystyrene or expanded polystyrene is more commonly referred to as Styrofoam. India is slowly becoming a country where people are turning health conscious. Thankfully, biodegradable cutlery has emerged as a better alternative to plastics across the globe and Indians have been early adopters of biodegradable products. The biodegradable plastic packaging market was valued at USD 3.97 billion in 2018, and is expected to reach a market value of USD 10.3 billion by 2024, registering a CAGR of 17.04% during the forecast period of 2019 - 2024. Increasing awareness regarding harmful effects associated with non-biodegradable plastic wastes is a key factor likely to drive the market. The increasing environmental concerns regarding plastic usage (as plastics contain toxic pollutants that harm plants, animals, and people) are driving the use of biodegradable plastic alternatives. Floating plastic waste that survives thousands of years in water can serve as a transportation device for invasive species that disrupt habitats. This aforementioned factor is contributing to the growth of the market. Biodegradable Plastic Pellets Biodegradable plastics are made from all-natural plant materials. These can include corn oil, orange peels, starch, and plants. Traditional plastic is made with chemical fillers that can be harmful to the environment when released when the plastic is melted down. The biodegradable plastics market is expected to reach USD 6.12 billion by 2023, at a CAGR of 15.1% Increasing consumer preference for the environmentally sustainable plastic products and growing regulations and prohibitions against the use of plastic bags and other plastic items are propelling the global biodegradable plastics market. Even though the factors such as growing consumer preference toward eco-friendly plastic products as well as increasing government emphasis on the use of biodegradable plastics are driving the global biodegradable plastics market, the higher cost of biodegradable plastics and shortcomings of biodegradable plastics are anticipated to dampen the market growth. The growing use of biodegradable plastics in the food and beverages industry, as well as rapid growth of packaging industry, is expected to develop new market expansion opportunities for the global biodegradable plastics market in the forthcoming years. Biodegradable plastic is plastic that decomposes naturally in the environment by the action of microorganisms in the environment that metabolize and break down the structure of biodegradable plastic. Which is relatively less harmful to the environment than the traditional plastics. Non-decomposable plastics are a global environmental problem. Governments around the world are dealing with this problem by banning single-use plastics and promoting biodegradable plastics. Moreover, consumers are willing to pay more for biodegradable plastics owing to their eco-friendly nature. Moreover increasing use of biodegradable plastics in packaging and agriculture sectors is drive the global biodegradable plastics market. Polyester Fiber from Corn/Starch PLA (Polylactic acid) comes from fermented plant starch (mostly from corn), and is often referred to as corn starch plastic. It is becoming popular very quickly, because corn-based plastic is a more environmentally-friendly alternative to traditional plastics, which are petroleum-based. Polyester fibers are manufactured from recycled or virgin PET. These fibers can be colored by the method of pigmentation or dope dyeing. Polyester fibers can be classified as staple fibers and bulk continuous fibers (BCF) depending on their length. These fibers can also be manufactured in various geometries such as square, rectangular, triangular, hexagonal and circular depending upon the area of application. Polyester is the most used and most preferred fibre in the textiles industry due to its better physical properties, lower price, versatility, and recyclability, which offer a completely unique set of benefits unmatched by any other natural or synthetic fibers. Polyester fibers are extremely strong, resistant to most chemicals and shrinking, stretching, abrasion, wrinkle and mildew resistant. Polyester fibers are hydrophobic in nature and dry quickly. Therefore, they can be used to provide insulation in the form of hollow fibers. Polyester fibers withstand wear and tear longer than cotton and retain their shapes in extreme climatic conditions and are thus preferred for manufacturing outdoor clothing. The soluble corn fibre market can be segmented on the basis of its application as food & beverages, nutraceuticals and clinical nutrition, animal nutrition and others. It can also be classified on the basis of end-user usage pattern of soluble corn fibre into breakfast, lunch, dinner and on-the-go eating. One of the major advantages of soluble corn fibre is, it can be used as low-calorie fillings in a range of food items, specially baked goods and confectionery. In addition, there is a growing demand for soluble corn fibers in frozen entrees such as pasta and tortillas in packaged food industry. Regionally, the market can be divided into Asia-Pacific, North America (the U.S., Canada and Mexico), Western Europe, Eastern Europe, Middle East and North Africa, and Rest of the World (Latin America and South Africa). With the rise in disposable income and a shift towards leading a healthy life, the industry has felt an augmented demand for soluble corn fibers. In addition, advancement in food technologies to produce label-friendly products happens to be a major supply side driver of this market. One of the restraints of the market could be the process stability of corn-soluble ingredients as these products are highly application specific. Production of Bio-Plastic Film Using Biodegradable Resin, PLA (Polylactic Acid) PLA Polylactic Acid, is a biodegradable thermoplastic and aliphatic polyester, derived from renewable and organic resources such as corn starch and sugarcane. Our manufacturing facilities can provide simple cut-to-size or complex CNC manufacturing, and crating for multiwall and twin wall sheet. Polylactic acid or polylactide (PLA) is a thermoplastic aliphatic polyester derived from renewable resources. PLA had the second highest consumption volume of any bioplastic of the world, Although Bio plastic is a biodegradable material that come from renewable sources and can be used to reduce the problem of plastic waste that is suffocating the planet and polluting the environment. These are 100% degradable, equally resistant and versatile, already used in agriculture, textile industry, medicine and, over all, in the container and packaging market, and biopolymers are already becoming popular in cities throughout Europe and the United States. With increasing concerns over the use of plastics, sustainable alternatives to plastics are increasingly in demand. Biopolymers in general and bio plastics in particular, present one such sustainable alternative. The global biodegradable plastics market is expected to reach 16.8 billion by 2022 with CAGR 8.4% between 2016-2022. Rising consumer awareness about global warming and government legislation such as banned on plastic bags will increase the demand for biodegradable plastics across the globe. Plastics that decompose to carbon dioxide and water under the actions of microorganisms is known as biodegradable plastics. Biodegradable plastics are produced by fermentation of sugar or canola oil to produce polylactic acid (PLA) or polyhydroxyalkanoates (PHA) which in turn converted into biodegradable plastics. A sustainable alternative to traditional plastics, bio plastics are plastics that are fully or partially bio based, and biodegradable or compostable. In other words, they are plastics that are made from renewable resources such as corn, tapioca, potatoes, sugar and algae and breaks down faster than traditional plastics, which are typically made from petroleum, and other fossil resources such as natural gas. Bio plastics have numerous applications like packaging, bottles, utensils, furniture etc. Bioplastic Carry Bags and Garbage Bags The process of extrusion then transformed these plastic beads into plastic bags. Trash bags are made from low-density polyethylene (LDPE), which is purported to be flexible, soft, airtight and waterproof. At times, to provide strength to the bags, high-density polyethylene (HDPE) is also used. The biodegradable plastic packaging market was valued at USD 3.97 billion in 2018, and is expected to reach a market value of USD 10.3 billion by 2024, registering a CAGR of 17.04%. The stringent regulations by various governments and federal agencies with an objective to reduce plastic waste and promote biodegradable plastics usage in packaging are boosting the demand of this market. The regulations related to green packaging is increasing. Various companies are required to adopt biodegradable packaging to comply with the standards, which in turn, is propelling the growth of this market. High costs (compared to normal plastic) are restraining the growth of the market, as biodegradable plastic is made from plants' starch and its decomposition needs specific conditions, like temperature, bacteria, humidity, etc. The increasing environmental concerns regarding plastic usage (as plastics contain toxic pollutants that harm plants, animals, and people) are driving the use of biodegradable plastic alternatives. Floating plastic waste that survives thousands of years in water can serve as a transportation device for invasive species that disrupt habitats. This aforementioned factor is contributing to the growth of the market. Eco-friendly initiatives by corporates and abundant availability of raw materials for manufacturing bio plastics are prominent factors driving growth in Asia Pacific bio plastics market. Europe and North America are expected to dominate the overall market of biodegradable packaging. North America is expected to be the largest consumer of the biodegradable packaging market. The developed regions are expected to dominate the overall biodegradable packaging market owing to the presence of mature markets that consist of highly environmental conscious consumers. In addition, the presence of high-spending population is also expected to increase the overall demand for biodegradable packaging in the developed regions. The presence of large populations in Asia Pacific is expected to boost the biodegradable packaging market. Tags #Biodegradable_Plates_Production, #Disposable_Leaf_Plates, #Areca_Leaf_Plate_Presentations, #Arecanut_Leaf_Plate_Manufacturing, #Biodegradable_Plates_Production_from_Areca_Nuts_Tree_Leaf, #Areca_leaf_plates_project_report, #Biodegradable_Diapers_and_Sanitary_Napkins_Production, #Project_Report_on_Sanitary_Napkin_Amp_Baby_Diaper, #Project_Report_on_Sanitary_Napkins, #Sanitary_Napkin_Manufacturing_Project, #Biodegradable_Diapers_and_Sanitary_Napkins_Production, #Indian_Sanitary_Napkin_Market, #Eco_friendly_Sanitary_Napkins_in_India, #Project_Report_on_Biodegradable_Cups_Plates_Plant, #How_to_start_a_biodegradable_plastic_manufacturing_company? 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Geotextiles (for Road Construction) Manufacturing Plant.
Geotextiles (for Road Construction) Manufacturing Plant. Production of Geotextiles. Opportunities in Technical Textiles Sector A geotextile is any permeable textile material used with foundation, soil, rock, earth, etc. that is an integral part of a constructed, structure or system. Geotextiles were used in roadway construction in the days of the Pharaohs to stabilize roadways and their edges. These early geotextiles were made of natural fibers, fabrics or vegetation mixed with soil to improve road quality, particularly when roads were made on unstable soil. Geotextiles are large sheets that save our earth soil in rainy days & binds strongly. It is mostly used for filtration and separation in the road constructions. It protects from migration of small gravels & sand aggregates. Geotextiles are thin & strong membrane fabric which is used to reinforce soil & prevent from damage. It improve & stability and decreases the process of wind & water erosion. It helps to prevent the erosion of soil but allows the water to drain off. A geotextiles made from synthetic or natural fibers associated with soil thin pieces. It improves soil characteristics such as Friction or movement restraint, Support of loads and Changes in bearing failure plane. When a geotextile is between two different soil materials, the function of separation plays an important role. The geotextile will separate dissimilar materials so the required soil characteristics can be obtained. The main purpose of this type of geotextile is that when water gets into the soil strata, the geotextile will prevent soils from mixing. For example, in road construction, you might want to keep fine sub-grade aggregate separate from the coarse aggregates of the bottom layer. The drainage characteristics will be kept intact, preventing the fine aggregate from filling the voids between the larger aggregate. These types of geotextiles have a special thickness and permeability characteristics to prevent soil contamination and allow water to flow through without damaging the strength and structural capacity of the road. Uses ? Unpaved and paved roads in airport runways ? Landfills and stone base courses ? Sidewalks and sand drainage layers ? Parking lots and curb areas ? Green areas and recreational facilities ? Retaining wall structures ? Duct banks and pipe trenches Geotextiles are commonly used to improve soils over which roads, embankments, pipelines, and earth retaining structures are built. There are several types of geotextile material, including open-mesh, warp-knitted, and closed fabric or non-woven textiles. Different geotextile materials are specified for various characteristics, such as separation, filtration, drainage, reinforcement, sealing, and protection. Market Outlook Driving the demand for geotextiles in the country. Increasing level of awareness among the people in India coupled with growing government support for the development of the country's geotextiles industry is driving the India geotextiles market. Additionally stringent government policies & regulations on the use of geotextiles and increasing investments in road construction projects are some of the other major factors driving the geotextiles market in the country. High penetration of unorganized manufacturing units or companies in India as well as lack of significant technical expertise in the country pose a threat to the growth of geotextiles market in India. Market in India is expected to witness strong growth over the next nine years owing to increasing awareness among the people regarding the benefits for geotextiles, which is has resulted in increased application in construction and transport projects in place of concrete and asphalt. Significant government support on development of geotextiles market in India and strong growth opportunities is also propelling the demand for geotextiles in the country. Additionally increasing infrastructure projects, increasing urbanization along with growing population are some the factors fueling the geotextiles market in the country. Global demand for geosynthetics is expected to increase dramatically over the next few years with geotextiles seeing the greatest improvement. India as one of the emerging markets with China and Russia, and with large-scale infrastructures in the pipeline, is expected to see one of the greatest developments in this field. The international symposium on geotextiles in India predicted the increased use of geotextiles could be in the region of 15% a year. Yet, within India, there are still specifications to be approved and awareness to be raised before geotextile products can meet their full predicted potential. In India 100% Foreign Direct Investment (FDI) in the construction sector has helped the construction industry to grow, and it is expected to grow at a high rate in tandem with the increasing population during the forecast period. Other projects like "Housing for All by 2022" and smart cities taken up by the government, further fuel the infrastructure activities in India. In Indonesia, the government had planned to invest USD 22 billion in 2016 and about USD 450 billion till 2020 Geotextiles have gained immense popularity in the industry on account of their functional and performance advantage over other materials. Increasing demand for these products owing to growing population, rising industrialization, and rapid urbanization have amplified the growth in the emerging markets, resulting in a marked increase in the adoption of geotextile. Geotextiles Market size was over USD 4,195 million in 2016 and industry expects consumption at over 9,045 million square meters by 2024. These products provide superior tensile strength and hydro-filtration properties which enables filtration of particles and draining water coupled with soil enforcement, favoring the industry growth. Woven products reduce the need for expensive soil remediation steps owing to their ability to provide stabilization during construction of embankments over soft soils and steepened slopes. These products improve longevity, performance of the structure and effectively reduce environmental impact which is likely to fuel the product demand. The growing usage of geotextiles in the construction industry, increasing usage of geotextiles in mining activities, and stringent regulatory framework for environmental protection. Susceptibility of geotextiles to blockage is expected to hinder the growth of the market. Rising awareness about water conservation in the manufacturing sector is likely to act as an opportunity in the future. Concrete geotextiles are flexible, textile-like polymer fabrics of controlled permeability which are widely used in the construction of roads, drains, and harbor works breakwaters and for land reclamation and numerous other civil engineering purposes. Nonwoven geotextiles are widely used in ditches, around pipes, underneath drains, or in other areas dealing with high levels of subsurface drainage or site runoff. The global infrastructure investment has largely dominated by two sectors electricity and roads. The government of the following the real benefits of using geotextiles in terms of road lifespan, which could be increased to over 20 years. Key Players Garware Wall Ropes Ltd, TechFab India Industries Ltd, Maccaferri Environmental Solutions Pvt. Ltd, Terram Geosynthetics Pvt. Ltd, Hrishikesh Industrial Fabrics Pvt. Ltd, Jeevan Group, Hi-Tech Geosynthetics Pvt. Ltd. SKAPS Industries, TYPAR (Polymer Group, Inc.), Fibertex Nonwovens A/S, Low & Bona, Koninklijke Ten Cate bv, Maccaferri, GSE Environmental, NAUE GmbH & Co. KG, Propex Operating Company LLC, Tags #Geotextiles_For_Road_Construction_niir_project, #Geotextiles_in_Road_Construction_Maintenance, #geotextile_used_in_road_construction_in_India, #use_of_geotextiles_in_road_construction_pdf, #geotextile_project_report, #geotextiles_in_road_construction_ppt, #geotextile_in_road_construction, #geotextiles_report_geotextile_in_road_pavement, #Presentation_on_Usage_of_Geosynthetics_for_Road_construction, #Geotextiles_For_Road_And_Construction_Manufacturing_Plant,_(PDF) Application of Coir Geotextile for Road Construction, jute and jute geotextiles, Application of Jute Geotextile in Civil Engineering, Geotextile Market Size & Share, Geotextile For Rail And Road Construction, Usage of Woven Geo-Textiles in the Construction, Road Stabilization Fabrics, The concept of geotextiles, Geotextiles Market Report, China Road Construction Geotextile Fabric, Functions & applications of geotextiles, India Geotextiles Market Size, the benefits of using geotextiles in road construction, Geotextiles Market and product information, Using Geotextiles on Unpaved Low Volume Roads, Jute Geotextiles, Synthetic Geotextiles, Importance of Geotextiles in Road Constructions & types, Geotextiles – Products, Types of Geotextiles - Functions and Uses in Construction, Geotextiles Market Global Industry Analysis, introduction to geosynthetics, Optimal engineered woven geotextiles, Use geotextiles and enhance road, Use jute geo-textile in road construction, Geosynthetics and Geotextiles, Geosynthetics in road construction, Geo-synthetics and their use in Road Construction, Geosynthetics Manufacturers, Woven & Non-woven Geotextile Fabric, Application of Geo-Textiles in Road Construction, Startup ideas, Project for startups, Startup project plan, Business start-up, Business Plan for a Startup Business, Great Opportunity for Startup, Road Construction/Reconstruction (PDF), How to Start Geotextiles for Road Construction Processing Industry in India, Geotextiles for Road Construction Processing Industry in India, Most Profitable Geotextiles for Road Construction Processing Business Ideas, Geotextiles for Road Construction Processing & Geotextiles for Road Construction Based Profitable Projects, Geotextiles for Road Construction Processing Projects, Small Scale Geotextiles for Road Construction Processing Projects, Starting a Geotextiles for Road Construction Processing Business, How to Start a Geotextiles for Road Construction Production Business, Geotextiles for Road Construction Based Small Scale Industries Projects, new small scale ideas in Geotextiles for Road Construction processing industry, Process technology books, Business consultancy, Business consultant, Project identification and selection, Preparation of Project Profiles, Startup, Business guidance, Business guidance to clients,
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Eco-Friendly Profitable Business Ideas of Compostable & Disposable Tableware from Rice Straw and Wheat Straw
Eco-Friendly Profitable Business Ideas of Compostable & Disposable Tableware from Rice Straw and Wheat Straw. Investment Opportunities in Production of Rice Straw and Wheat Straw Tableware Products. Straw is an agricultural byproduct consisting of the dry stalks of cereal plants after the grain and chaff have been removed. It makes up about half of the yield of cereal crops such as barley, oats, rice, rye and wheat. Wheat straw is the stalk left over after wheat grains are harvested. Traditionally, it has been treated as a waste. In some countries, farmers burn it, contributing to air pollution and creating a public health hazard. However, these stalks still have value. We reclaim this material and use it to make our wheat straw products. These products are prevalent in fast food restaurants, takeaways, but also for airline meals. In private settings, this kind of disposable products has proven very popular with consumers who prefer easy and quick cleanup after parties, etc. Wheat straw contains cellulose which can be broken down and reprocessed into a number of different polymers that are often called bio plastics. Note that bio plastics are not necessarily compostable and the term bioplastic is sometimes loosely applied. Hundreds of different fibrous plants can be manufactured into alternatives to tree-based paper products, most notably wheat, rice, hemp, flax, and sugar cane. In many agricultural processes, straw is treated merely as the agricultural waste that remains after grain or juice is extracted from crops. For World Centric, straw is a valuable resource that can be fashioned into disposable products like plates, take out containers, bowls etc. Biodegradable Tableware is the cutlery and crockery or tableware which are compostable and easily degradable by the action of microbes. These are made up of sugarcane bagasse, bamboo, paper pulp, bagels, rice husk, coconut coir, and other disposable material viz. biodegradable plastic. Market Outlook Biodegradable tableware, as the name suggests, are fully compostable and biodegradable; hence, they are widely used globally in order to reduce plastic waste and greenhouse emissions, such as methane emissions. This type of tableware can be made from sugarcane bagasse, bamboo, paper pulp, and other disposable material. These tableware are superior in strength and are environment friendly. Biodegradable tableware include food containers and tableware such as bowls, plates, cups and meal trays, which decompose within 30 to 60 days after being discarded. Increasing preference for environment-friendly tableware and rising concerns regarding the ill-effects of plastic tableware are boosting the biodegradable tableware market. Rising emphasis on non-toxic & petroleum-free is expected to drive the demand for Biodegradable Tableware in the residential and commercial segments. Rising disposable income along with increasing consumer awareness about the benefits associated with the use of biodegradable tableware is expected to drive the market. Additionally, increasing economic awareness about the use of plastic and other toxic material tableware, in terms of their price, among consumers provides them the benefit of choice and also simultaneously creates competition in the market in order to produce best quality products. In India, biodegradable products made from bamboo were traditionally used in rural areas; over the years, this trend has spread to the urban areas as well. However, in certain parts of the globe, these tableware, especially those made from bamboo, are expensive. Consumer product packaging and disposable eating products made of biodegradable material such as corn, sugarcane, husk, and other plant bases possess numerous environmental advantages over non-biodegradable products. These factors coupled with rising investment and development is anticipated to boost to the market. The global biodegradable tableware market can be segmented based on material, product type, distribution channel, and region. Based on material, the biodegradable tableware market can be classified into paper, bagasse, bamboo, palm leaf, wheat bran, and others (wheat, straw, paper pulp, etc.). In terms of product type, the global biodegradable tableware market can be divided into cups, plates, bowls, silverware, and others (straws and stirrers, flatware, etc.). Based on distribution channel, the market can be bifurcated into online and offline [large format stores, (hypermarkets, supermarkets, departmental stores), specialty stores, small retail stores]. Compostable tableware’s products are used for serving food. These products are biodegradable and release valuable nutrients into the soil, aiding the growth of trees and plants when they breakdown. Compostable plates can be placed into the compost bin after use. These products degrade within several months in an industrial composting facility and produce no toxic residues. These plates are reusable and are made up of renewable resources. These renewable sources are made from all-natural materials such as agricultural residues, palm leaves, bagasse, bamboo, and cornstarch-based PLA plastic. These eco-friendly tableware’s are sturdy enough to hold hot or cold food and easily gets biodegraded after use. Compostable plates and bowls are the perfect solutions for emerging green businesses. The growing awareness about the adverse effects of plastic such as massive plastic pollution and its grave consequences on aquatic and aerial creatures after dumping this product into the sea are the major driving factors for the growth of compostable tableware market. The increasing demand for safe, sustainable and environmental friendly cutlery owing to the rising number of fast food restaurants and cafeterias is boosting the compostable tableware market. Compostable disposables are a viable alternative that provides the convenience of disposable plates when used in catering for parties, picnics or other occasions along with an added advantage of no negative impact to the eco-system. However, the lack of awareness about the benefits of compostable tableware’s and the poor management of organic waste hampers the growth of compostable tableware market. The cost of compostable tableware is also higher as compared to the traditional disposables. Moreover, the rising enforcement of environmental laws and the growing need for better waste management is anticipated to create an opportunity for the growth of compostable tableware market. The geographies, Asia Pacific dominates the compostable tableware market owing to the growth of the compostable tableware producing companies in this region. In addition, the governmental initiatives to promote the usage of environment-friendly products are also anticipated to boost the growth of the compostable tableware market in the Asia-Pacific region. Europe is also one of the fastest growing regions, owing to the huge investments and development by private as well as government sectors in the development of compostable tableware market. The global compostable tableware market covers segments such as type and end-user. On the basis of type, the global compostable tableware market is categorized into bowl and lids, cups and lids, portion cups and lids, containers and lids, plates, reusable dishware, straw and cup sleeves, compostable spoons, and others. On the basis of end-user, the global compostable tableware market is categorized into household, food joints & takeaways, hotels, and others. The biodegradable tableware is the eco-friendly tableware which is made from waste materials like sugarcane bagasse, rice husk, coconut coir. The rise in awareness of the environment pollution drives the biodegradable tableware market globally. However, consumer behavior towards the use of the biodegradable cutlery could be the challenge for the market. Increasing demand for the foodservice industry might create an opportunity for the market in the coming future. However, the cost of biodegradable tableware is very high as compared to conventional cutlery and crockery. Thus, the high cost of biodegradable tableware might hamper the market. Currently there are enormous waste of disposable tableware around the world, especially in the developing countries; with more and more consumers having strong environmental protection consciousness and the government continuously promulgate legislation to protect the environment to reduce waste. In future more and more disposable tableware will be made of the bioplastic like PLA resin, CPLA (modified PLA), and Starch Blends etc. and the bioplastic tableware will play more and more important roles. Plastic straw consumption in the world was increasing by leaps and bounds before the last 2-3 years. However, rising intolerance towards plastic straws, growing consumer demand for eco-friendly straws and globally increasing government reforms and campaigns to ban plastic straws are likely to offer a positive outlook for the paper straws market. On-the-go consumers demand more than convenience from their products. They are increasingly aware of their choices and are picking more sustainable options. More than ever, consumers are demanding flexibility in their meal options. Generally, they are looking for speed and convenience. The availability of online ordering and delivery services allows the enjoyment of eating out while still tending to their busy lives. As this trend continues to rise, the establishments that serve them must be prepared to package a meal for takeout or delivery while ensuring the best eating experience for their guests. This includes containers, wraps and bags, among others. The single-use items utilized must prevent spills, provide convenience, and best represent the image that the foodservice establishment is trying to achieve. World Centric plant-fiber food service products are currently made from wheat straw. In the past, we relied more heavily on bagasse (sugar cane fiber that remains after juice is extracted) and we may shift to other plant inputs in the future, as the market for agricultural waste grows and changes. The wheat straw that we use comes from the stalks of wheat plants. The stalks of wheat plants do not store protein, gluten, or allergens. Those are stored in the grains, and our products do not contain gluten or allergens. Our products meet FDA standards for food contact, and they meet FDA standards for gluten-free, non-allergenic products. Disposable cups made from bio plastics or other such materials is predicted to garner surplus demand in the years to come. Such favorable consumer preferences, coupled with rising consumption of fast in the world, will also continue consolidating the growth of global disposable cups market. Global market for disposable cups projects that by the end of 2026, more than US$ 21.2 Bn worth of disposable cups will be sold globally. Key Players ? Huhtamäki Oyj, ? Hoffmaster Group Inc. (Aardvark), ? Biopac UK Ltd, ? Vegware Ltd, ? U.S. Paper Straw, T ? he Paper Straw Co, ? Austraw Pty Ltd T/as Bygreen, ? Footprint LLC, Okstraw, ? Transcend Packaging Ltd, ? PT. Strawland, ? TIPI Straws, ? MPM Marketing Services Pty Ltd, ? Canada Brown Eco Products Ltd, ? Aleco Straws Co. Ltd, ? Zhengzhou Gstar Plastics Co., Ltd, ? YIWU JinDong Paper Co., Ltd, ? Sharp Serviettes, ? GP Paper Straw Sdn Bhd, ? The Blue Straw. Production Capacity : 5 Ton / Day Plant and Machinery Cost : 21 Crore See More https://bit.ly/2tFwqIs https://bit.ly/2T6LUQq https://bit.ly/2tDwWqs https://bit.ly/2sXw6oH Tags #compostable #compostabletableware #disposabletableware #Disposable #compostable #ecofriendly #wheatstraw #disposabletableware #disposabletablewaremarket #bagasse #DetailedProjectReport #businessconsultant #Manufacturing #BusinessPlan #marketresearchreport #ProjectReportForBankLoan #entrepreneurship #businessbook #futurebusiness #smallbusiness #PreFeasibilityandFeasibilityStudy #feasibilityreport #businessfeasibilityreport #businessconsulting #MarketReseach #businessplans #projectconsultancy #BusinessFeasibilityStudies #technologyindustry #businessplanning #projectplans How to Start Compostable & Disposable Tableware from Rice/Wheat Straw Processing Industry in India, Compostable & Disposable Tableware from Rice/Wheat Straw Processing Industry in India, Most Profitable Compostable & Disposable Tableware from Rice/Wheat Straw Processing Business Ideas, Compostable & Disposable Tableware from Rice/Wheat Straw Processing & Rice/Wheat Straw Based Profitable Projects, Compostable & Disposable Tableware from Rice/Wheat Straw Processing Projects, Small Scale Compostable & Disposable Tableware from Rice/Wheat Straw Processing Projects, Starting a Compostable & Disposable Tableware from Rice/Wheat Straw Processing Business, How to Start a Compostable & Disposable Tableware from Rice/Wheat Straw Production Business, Compostable & Disposable Tableware from Rice/Wheat Straw Based Small Scale Industries Projects, new small scale ideas in Compostable & Disposable Tableware from Rice/Wheat Straw processing industry, Compostable & Disposable Tableware from Rice/Wheat Straw Making Small Business Manufacturing, Small scale Compostable & Disposable Tableware from Rice/Wheat Straw making machine Compostable & Disposable Tableware from Rice/Wheat Straw production line, Compostable & Disposable Tableware from Rice/Wheat Straw making machine factory, Modern small and cottage scale industries, Profitable small and cottage scale industries, Setting up and opening your Compostable & Disposable Tableware from Rice/Wheat Straw Business, How to Start a Compostable & Disposable Tableware from Rice/Wheat Straw business?, How to start a successful Compostable & Disposable Tableware from Rice/Wheat Straw business, Small scale Commercial Compostable & Disposable Tableware from Rice/Wheat Straw making, Best small and cottage scale industries, Compostable & Disposable Tableware from Rice/Wheat Straw Business, Profitable Small Scale Manufacturing, Feasibility Reports List, Detailed Project Reports List, Project Reports, Niir Project Consultancy Services, NPCS, Niir.Org, Business Ideas, Entrepreneur, Business Plan, Technology Book, Manufacturing Business, Detailed Project Report, Market Research Report, Techno-Economic Feasibility Study, Feasibility Report, Project Report & Profile, Project Consultancy, Startup, Small Business, Database, Technologies, Project Opportunities, Manufacturing Process, Technology Books, Business Listing, Business Books, Entrepreneur India Magazine, Small Scale Industries Consultancy for Compostable & Disposable Tableware from Rice/Wheat Straw,
Plant capacity: 5 Ton / Day	Plant & machinery: 21 Crore
Working capital: -	T.C.I: -
Return: 1.00%	Break even: N/A
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Ready to Eat Food (RTE)
Ready to Eat Foods (RTE) are convenience foods, enclosed in aluminium container or pouches that only need to be cut and heated before being served. Instant vegetables in retort pouches fall under this category and find application not only as home meal replacement in working class households but also in fast-food restaurants and multi cuisine food joints. These are handy meals for armed forces and paramilitary forces deployed in remote places. RTE food includes wide range of products viz. vegetarian/non- vegetarian, basic food/delectable desserts, south and north Indian items available from a specialty or multi cuisine restaurant & food joint only. Ready To Eat, Shelf Stable, Retort Sterilized Foods are completely cooked foods packed in airtight containers, which could be preserved at room temperature for a long period of time without the necessity of freezing, cooling and drying. The thermally-processed retort pouch foods are waterproof, weatherproof and bug proof. The Shelf Life of Ready To Eat Foods is from 1 year to 5 years, depending on the type of packing materials and processing procedures. India‘s Food Processing industry is one of the largest industries in the country - it is ranked fifth in terms of production, consumption, export and expected growth. The industry employs 1.6 million workers directly. Now the time is to provide better food processing & marketing infrastructure for Indian industries to serve good quality & safest processed food like READY TO EAT (RTE) food, keeping in mind the changing tastes and lifestyle of the Indian demography. The Indian food processing market was worth INR 24,665 Billion in 2018. Looking forward, the market is projected to reach INR 50,571 Billion by 2024, exhibiting a CAGR of 12.4% during 2019-2024. Rising household incomes, urbanization and the growth of organized retail are currently some of the major drivers of this market. Food processing is a large sector that covers activities such as agriculture, horticulture, plantation, animal husbandry and fisheries. Few Indian major players are as under: • A D F Foods Ltd. • Dabur Foods Ltd. • Gits Food Products Pvt. Ltd. • Godrej Tyson Foods Ltd. • Haldiram Products Pvt. Ltd. • Hatsun Agro Products Ltd. • Hindustan Unilever Ltd. • I T C Ltd.
Plant capacity: Vegetable Pulao : 3000 Kgs. per day Dal Makhani : 2000: Kgs. per day Palak: 600: Kgs. per day Rajmah: 700 Kgs. per day Potato Peas: 600 Kgs. per day Mutter Mushroom: 250 Kgs. per day	Plant & machinery: 580 Lakh
Working capital: -	T.C.I: Cost of Project:954 Lakh
Return: 30.00%	Break even: 58.00%
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One Lac / Lakh / Lakhs is equivalent to one hundred thousand (100,000)
One Crore is equivalent to ten million (10,000,000)
T.C.I is Total Capital Investment
We can modify the project capacity and project cost as per your requirement.
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Caution: The project's cost, capacity and return are subject to change without any notice. Future projects may have different values of project cost, capacity or return.

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