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Conversion Of Industrial Vitrified Tiles Into Commercial Vitrified Tiles - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study

Industrial vitrified tiles are largely used in the industrial floor or wall construction. In the industrial verification process tiles are not completely vitrified or properly heat soaked in the oven or in the kiln. Industrial vitrified tiles can be further used for good finishing and glassiness with colouring by using special oven treatment. Specific chemicals are used like chromium salt, nickel salt, cobalt salt etc. for getting different colours. These tiles are suitable for places subject to heavy wear and tear like Industrial and chemical plants, hotel lobbies, banks and special pavements. The export is rising at the rate of 8%. In the last five financial years, tiles have registered an average growth of about 12% per year.
Plant capacity: 1,00,000 Sq. Ft./Day Plant & machinery: Rs. 235.00 Lakhs
Working capital: N/AT.C.I: 2666 Lakhs
Return: 48.72%Break even: 68.12%
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Conversion of Industrial Vitrified Tiles into Commercial Vitrified Tiles - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study

Industrial Vitrified tiles are largely used in the industrial floor or wall construction. In the industrial vitrification processed tiles are not completely vitrified or heat soaked in the oven or in the kiln. Industrial vitrified tiles can be further used for good furnishing and glassiness with coloring by using special oven treatment. Demand of commercial vitrified tiles is increasing day-by-day. Now there is good market demand of the product. As a whole this is a good project for experienced entrepreneurs and for few new entrepreneurs as well.
Plant capacity: 300,00,000 Sq. Ft./AnnumPlant & machinery: 3 Crores
Working capital: 22 CroresT.C.I: 27 Crores
Return: 49.00%Break even: 71.00%
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Conversion Of Industrial Vitrified Tiles Into Commercial Vitrified Tiles - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study

Industrial vitrified tiles are largely used in the industrial floor or wall construction. In the industrial verification process tiles are not completely vitrified or properly heat soaked in the oven or in the kiln. Industrial vitrified tiles can be further used for good finishing and glassy ness with colouring by using special oven treatment. Specific chemicals are used like chromium salt, nickel salt, cobalt salt etc. for getting defferent colours. These tiles are suitable for places subject to heavy wear and tear like Industrial and chemical plants, hotel lobbies, banks and special pavements. The export is rising at the rate of 8%. In the last five financial years, tiles have registered an average growth of about 12% per year.
Plant capacity: 1,00,000 Sq. Ft./Day Plant & machinery: Rs. 235.00 Lakhs
Working capital: -T.C.I: Rs. 2666 Lakhs
Return: 49.00%Break even: 68.00%
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Plastic Pyrolysis Waste Plastic to Oil Conversion

Plastics have become an indispensable part in today’s world. Due to their light weight, durability, energy efficiency, coupled with faster rate of production and design flexibility, these plastics are employed in entire gamut of industrial and domestic areas. Plastics are produced from petroleum derivates and are composed primarily of hydrocarbons but also contain additives such as antioxidants, colorants and other stabilizers. Disposal of the waste plastics poses a great hazard to the environment and effective method has not been implemented. Plastics are non-biodegradable polymers mostly containing carbon, hydrogen, and few other elements like nitrogen. Pyrolysis is the chemical decomposition of organic substances by heating the word is originally coined from the Greek-derived elements pyro "fire" and lysys "decomposition". Pyrolysis technology is thermal degradation process in the absence of oxygen. Plastic waste is treated in a cylindrical reactor at temperature of 300ºC – 350ºC. Increasing industrialization and motorization has lead to a significant rise in demand of petroleum products. As these are the nonrenewable resources it is difficult to predict availability of these resources in future, resulting uncertainty in its supply and price and is impacting growing economies like India. Many alternate fuels like Alcohols, Biodiesel, LPG, CNG etc have been already commercialized in the transport sector. In this context, pyrolysis of solid waste is currently receiving renewed interest. Plastic to oil (fuel) conversion technology has gained prominence primarily due to two factors: forming a reliable source of alternative energy from an abundant feedstock having negligible economic value and an eco-friendly disposal of non-recycled plastics. As a whole there is a good scope for new entrepreneur to invest in this business.
Plant capacity: Pyrolysis Oil: 10 MT/Day Carbon (by product) :3 MT/Day Gas (by product) : 2 MT/DayPlant & machinery: Rs 118 lakhs
Working capital: -T.C.I: Cost of Project: Rs 446 lakhs
Return: 26.00%Break even: 63.00%
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Plastic Waste Pyrolysis (Plastic to Oil Conversion)

Pyrolysis is the chemical decomposition of organic substances by heating the word is originally coined from the Greek-derived elements pyro "fire" and lysys "decomposition". Pyrolysis is usually the first chemical reaction that occurs in the burning of many solid organic fuels, cloth, like wood, and paper, and also of some kinds of plastic. Anhydrous Pyrolysis process can also be used to produce liquid fuel similar to diesel from plastic waste. Increasing industrialization and motorization has lead to a significant rise in demand of petroleum products. As these are the nonrenewable resources it is difficult to predict availability of these resources in future, resulting uncertainty in its supply and price and is impacting growing economies like India. Many alternate fuels like Alcohols, Biodiesel, LPG, CNG etc have been already commercialized in the transport sector. Recent developments in recycled plastic and plastic waste to oil market indicate that policymakers and energy industry players in various regions, particularly in North America and Europe, are focusing on the commercialization of the technology. As a whole entrepreneur can venture in this field will be successful.
Plant capacity: Pyrolysis Oil: 10 MT/Day Carbon (by product): 3.33 MT/Day Gas (by product): 2 MT/DayPlant & machinery: Rs 197 lakhs
Working capital: -T.C.I: Cost of Project : Rs 512 lakhs
Return: 26.00%Break even: 58.00%
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Waste Plastic to Oil Conversion

Waste Plastic to Oil Conversion. Production of Oil from Waste Plastics and Polythene using Pyrolysis Process. Waste Plastic Pyrolysis Pyrolysis is the chemical decomposition of organic substances by heating the word is originally coined from the Greek-derived elements pyro "fire" and lysys "decomposition". Pyrolysis is usually the first chemical reaction that occurs in the burning of many solid organic fuels, cloth, like wood, and paper, and also of some kinds of plastic. Anhydrous Pyrolysis process can also be used to produce liquid fuel similar to diesel from plastic waste. Pyrolysis technology is thermal degradation process in the absence of oxygen. Plastic waste is treated in a cylindrical reactor at temperature of 300ºC – 350ºC. Now a day’s plastics waste is very harmful to our nature also for human beings. Plastic is not easily decomposable its affect in fertilization, atmosphere, mainly effect on ozone layer so it is necessary to recycle these waste plastic into useful things. So we recycle this waste plastic into a useful fuel. Pyrolysis of waste plastic is a prospective way of conversion of waste plastic into low-emissive hydrocarbon fuel. Waste plastic materials viz., polyethylene, polypropylene, polystyrene and polyethylene terephthalate were collected from local convenience store packing materials. Waste plastic material pyrolysis was conducted as individual plastics and as mixed feed in a new laboratory scale batch reactor. Hydrocarbon molecules from the basic materials are split under the impact of catalyst inside the reactor in 70–240 °C. The reduction of process takes place from 500–600 °C to 240 °C in the presence of catalyst. The analyses of pyrolysis products suggested that it can be used as a viable alternative to motor fuel. It was observed that the yield was better in the case of individual plastic material as opposed to mixed feed in all cases except polypropylene under non-catalysed vacuum process. Power Generation Using Fast Pyrolysis Liquids Power production from biomass derived pyrolysis liquids has been under development for the past few years. If technically successful, it would make decentralized bio-energy production possible. Several technologies and system components have been developed by academia, R&D organizations, and industrial companies in many countries. Power plant technologies addressed are diesel engines, gas turbines, and natural gas/steam power plants. Main results are reviewed and R&D needs identified for each technology. The analysis shows that even for the most promising solutions long-term demonstration has not yet been achieved. Pyrolysis liquid use in gas turbine plants and in co-firing mode in large power stations are technically most advanced. Recent work with diesel engines also appears quite promising. Bio-oil produced from fast pyrolysis has a wide range of applications. The major applications include heat and power generation, liquid fuels, and raw chemical products. The oils produced can be used directly in energy production by combustion, although the heating value of bio-oil is lower than that of fossil fuels (about 40% less than diesel fuel). Basic modifications on boilers to handle the viscosity of the bio-oil are needed to accommodate the material as a burning fuel. Bio-oil produces lower emissions of nitrogen oxide and sulfur gases when burned, especially when compared to fossil fuel emissions The waste to energy technology is investigated to process the potential materials in waste which are plastic, biomass and rubber tire to be oil. Pyrolysis process becomes an option of waste-to-energy technology to deliver bio-fuel to replace fossil fuel. Waste plastic and waste tire are investigated in this research as they are the available technology. The advantage of the pyrolysis process is its ability to handle un-sort and dirty plastic. The pre-treatment of the material is easy. Tire is needed to be shredded while plastic is needed to be sorted and dried. Pyrolysis is also no toxic or environmental harmful emission unlike incineration. Economic growth and changing consumption and production patterns are resulting into rapid increase in generation of waste plastics in the world. For more than 50 years the global production of plastic has continued to rise. The plastics have become one of the most important and indispensable materials in our contemporary world. These plastics are not presently biodegradable and are extremely troublesome components for land filling. The waste plastics are known for creating a very serious environmental challenge because of their huge quantities and the disposal problems caused by them. The pyrolysis has a wide temperature range and it can be performed with or without a catalyst. Generally used catalysts for this process are mordenite, FCC, USY, ZSM-5, etc. In pyrolysis (plastic to oil) process, the plastic waste is not burned. But instead plastic is chemically broken down into Pyrolysis Oil, Hydrocarbon Gas and Carbon Black. Plastic to oil is environment friendly technology for disposal of plastic waste. apc has 10+ years of expertise in installing and operating state-of-art plastic to oil plants. Plastic to oil is chemical technology for converting waste plastic into Pyrolysis Oil, Carbon Black and Hydrocarbon Gas. This reaction takes place inside pyrolysis reactor. Following reaction conditions are essential for conversation of plastic to oil. The global plastic production increased over years due to the vast applications of plastics in many sectors. The continuous demand of plastics caused the plastic wastes accumulation in the landfill consumed a lot of spaces that contributed to the environmental problem. The rising in plastics demand led to the depletion of petroleum as part of non-renewable fossil fuel since plastics were the petroleum-based material. Some alternatives that have been developed to manage plastic wastes were recycling and energy recovery method. However, there were some drawbacks of the recycling method as it required high labor cost for the separation process and caused water contamination that reduced the process sustainability. Due to these drawbacks, the researchers have diverted their attentions to the energy recovery method to compensate the high energy demand. Through extensive research and technology development, the plastic waste conversion to energy was developed. As petroleum was the main source of plastic manufacturing, the recovery of plastic to liquid oil through pyrolysis process had a great potential since the oil produced had high calorific value comparable with the commercial fuel. Plastic to oil (fuel) conversion technology has gained prominence primarily due to two factors: forming a reliable source of alternative energy from an abundant feedstock having negligible economic value and an eco-friendly disposal of non-recycled plastics. The rapidly rising volumes of plastic waste has led to the overriding concern of environmental hazards to various habitats, particularly humans and aquatic life. Coupled with this, stringent government regulations against the disposal of plastics and revised risk assessment approaches in developing and developed nations have boosted the market. The Asia Pacific market is expected to showcase promising growth avenues over the forecast period, mainly driven by the modernizing of different plastic-to-fuel technologies. Countries such as Saudi Arabia, Brazil, and the UAE, also contribute to the substantial demand for plastic waste to oil processes. Tags Plastic Pyrolysis Plant, Plastic to Oil, Pyrolysis (Plastic to Oil) Process, What is Pyrolysis? Pyrolysis Plant, Waste Plastic Pyrolysis Oil Process, Pyrolysis of Plastic Wastes, Waste Plastic Pyrolysis, Pyrolysis of Plastic to Oil, Pyrolysis of Plastic Pdf, Pyrolysis of Plastic Waste to Liquid Fuel, Plastic Pyrolysis Plant in India, Waste Plastic Pyrolysis Plant, Plastic Pyrolysis Plant Cost, Waste Plastic Pyrolysis Process, Plastic to Fuel, Pyrolysis of Waste Plastics into Fuels, Waste Plastic Pyrolysis Plant Project Report Pdf, Converting Plastic to Oil, How to Convert Plastic to Oil? Converting Plastic Waste to Fuel, Waste Plastic to Oil, Conversion of Waste Plastic to Lubricating Base Oil, Waste Plastic to Fuel Oil Conversion Plant, Converting Plastic to Oil Plant, Plastic 2 Oil Conversion Plant, Production of Oil from Waste Plastics Using Pyrolysis, Waste Plastic to Oil Conversion Technology, Waste Plastic to Fuel Conversion Plant, Pyrolysis of Plastic Waste, Recycling Plastic in India, Recycling Process turns Waste Plastic into Oil, Making Oil from Plastic, Projects on Small Scale Industries, Small scale industries projects ideas, Plastic Pyrolysis Plant Based Small Scale Industries Projects, Project profile on small scale industries, New project profile on Plastic Pyrolysis Plant, Project Report on Plastic Pyrolysis Plant, Detailed Project Report on Plastic Pyrolysis Plant, Project Report on Plastic Pyrolysis Plant, Pre-Investment Feasibility Study on Plastic Pyrolysis Plant, Techno-Economic feasibility study on Plastic Pyrolysis Plant, Feasibility report on Plastic Pyrolysis Plant, Free Project Profile on Plastic Pyrolysis Plant, Project profile on Plastic Pyrolysis Plant, Download free project profile on Plastic Pyrolysis Plant, Project report for bank loan, Project report for bank finance, Project report format for bank loan in excel, Excel Format of Project Report and CMA Data, Project Report Bank Loan Excel, Production of Oil from Waste Plastic by Pyrolysis Process, Converting Waste Plastics into a Resource, Waste Plastic Pyrolysis Oil Production, Converting Plastic Back to Oil
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Plastic Pyrolysis (Waste Plastic to Oil Conversion)

During pyrolysis, plastic polymers are thermally degraded by heating them in the absence of oxygen. The main products of the pyrolysis process are liquid and gaseous, producing only a small amount of solid. The pyrolysis process is one of the most promising technologies in the conversion of waste plastics into high quality oil. The quantity and quality of the pyrolysis products depend on the waste plastics composition and the process parameters (temperature, residence time, catalyst, etc.) Waste plastic pyrolysis in liquid fuel (gasoline, diesel oil, etc.) or chemical raw materials not only can effectively solve the problem of white pollution, but also can alleviate the energy shortage to a certain extent. Recycling of waste plastics is expected to become the most effective way. Waste plastics’ recycling, regenerating, and utilizing have become a hot spot of research and gradually formed a new industry. Plastic has created a worldwide epidemic of increased waste disposal issues in key economies and developing countries. Thus, the implementation of stringent regulations has compelled market players in the recycled plastic and plastic waste to oil market to devise environmental-friendly strategies to convert plastic waste into useful fuel. The global plastic waste to oil market is expected to increase from ~US$ 45 Mn in 2019 to ~US$ 100 Mn by 2027. Plastic waste to oil can be defined as a technology that is used to convert non-recycled plastic into synthetic crude oil and other value-added petroleum products such as diesel, gasoline, naphtha, and fuel oil. This is an advanced waste conversion technology that is considered complementary to the existing plastic recycling technology. Plastic waste to oil technology has high potential, as landfill-bound plastics can be used as a resource to develop a valuable alternative fuel source. Entrepreneurs who invest in this project will be successful. Few Indian major players are as under Chevron Phillips Chemicals India Pvt. Ltd. Dream Green Petro-Chem Pvt. Ltd. M K Aromatics Ltd.
Plant capacity: Pyrolysis Oil: 5 MT / Day Carbon (by product): 1.67 MT / Day Gas (by product): 1 MT / DayPlant & machinery: Rs 92 lakhs
Working capital: -T.C.I: Cost of Project : Rs 312 lakhs
Return: 27.00%Break even: 58.00%
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Fiberglass Transparent LPG Cylinders: How its start and convert into successful business | How to Setup Fiberglass Transparent LPG Cylinder Manufacturing Business

Product: Liquefied petroleum gas (LPG) is a type of gas that may be securely stored and transported for both industrial and domestic uses in fiberglass clear LPG cylinders. Glass-reinforced plastic (GRP), a composite material formed of layers of glass fibers interwoven in a plastic matrix, is the material used to make these cylinders. The cylinder's transparency makes inspection simple, while the glass fibers provide it strength and longevity. Fiberglass Transparent LPG Cylinders are produced using specific methods and materials to produce a safe, superior product. The first step in the process is choosing the right mould, which will define the finished cylinder's size, shape, and capacity. Visit this Page for More Information: Start a Business in Petroleum Industry Uses and Applications: A type of pressurized gas storage container that can be utilized for both commercial and industrial applications are translucent LPG cylinders made of fiberglass. They are most frequently utilized for the transportation and storage of compressed natural gas and liquefied petroleum gas (LPG) (CNG). These cylinders are made of glass-reinforced plastic, which helps to guarantee the integrity of the container in the case of a collision or other external force, making them significantly more resilient and safe than standard metal containers. Related Business Plan: Production of Fiberglass Transparent LPG Cylinders Manufacturing Process: Transparent LPG cylinders constructed of fiberglass require a complex manufacturing process and meticulous attention to detail. These the holder in the gauss. After the cylinder is created, epoxy glue is used to seal it and strengthen it. After that, the coating must go through autoclave pressure curing. Watch Video: Start Your Own Business of Fiberglass Transparent LPG Cylinder with Our Step-By-Step Guide The coating must harden before the cylinder may be assembled. The cylinder sides are then used to hold the metal frame in position. After assembly, the cylinder is put under pressure and checked for leaks and other flaws. The cylinder is ready for use once certified. Each cylinder must pass a stringent quality control inspection during the lengthy production process, which takes many days to complete. Read Similar Articles: PETROLEUM BASED PRODUCTS Benefits of Starting the Business: For those who utilize them, the manufacture of fiberglass transparent LPG cylinders offers a host of benefits. These cylinders are renowned for being transparent, strong, and light. Moreover, these cylinders are less likely to corrode than other cylinder designs, which might be a problem. Due to their small weight and transparency, they are also simple to transport and store and less prone to break or sustain any other harm. Furthermore, fiberglass translucent LPG cylinders are far safer than steel cylinders due to their added layer of heat and fire resistance. This adds an additional degree of security and guarantees the safety of using your LPG cylinder. Read Our Book Here: Petroleum & Petroleum Products Technology Handbook (Thermal Cracking of Pure Saturated Hydrocarbons, Petroleum Asphalts, Refinery Products, Blending and Compounding, Oil Refining and Residual Fuel Oils) The Future of Fiberglass Transparent LPG Cylinders: Due to its many advantages, fiberglass is being used to create an increasing number of transparent LPG cylinders. Fiberglass is more reasonably priced, lighter, and more durable than traditional metal materials. Moreover, it has a high resistance to damage from rust and other sorts of exposure to chemicals or the elements. It is ideal for retaining pressurized gas because it is also a superb insulator. Download Pdf: Startup Most Growing and Demanding Industry Business Plant Of Fiberglass Transparent LPG Cylinders These advantages make producing fiberglass clear LPG cylinders more and more enticing to companies looking to maximize safety and efficiency. This method of production also offers flexibility in terms of design, allowing manufacturers to create distinctive cylinders that are tailored to their specific needs. As a result, the production of fiberglass transparent LPG cylinders will grow over time. Related Feasibility Study Reports: Transparent Lpg Cylinder From Fiber Glass Global Market Outlook: A dependable energy source is LPG. The predicted 2019 market size for LPG was $116.41 billion. Governments from all over the world are attempting to replace fossil fuels with more efficient, greener energy options. As a result, LPG use has increased, particularly in poorer nations. The government's initiatives to support greener energy sources, the growing population, and their correspondingly increased energy demand are the main drivers of the worldwide LPG industry. LPG is used for heating and cooking 60 to 70 percent of the time in India. Governments around the world are promoting LPG for industrial uses in addition to promoting it as a fuel for cooking. Watch other Informative Videos: MSME Business Ideas | Most Profitable Business Ideas for Startup Click here to send your queries/Contact Us This lowers the harmful carbon emissions that hurt the environment. Compared to conventional fuels, LPG is substantially less expensive to run as an engine fuel. Demand for LPG has grown as a result of government campaigns to promote it as a fossil fuel substitute and alluring government subsidies. LPG is utilized in commercial and residential facilities for heating and ventilation in addition to conventional cooking. By 2027, it is anticipated that this sector's worth would surpass $6.81 million. In 2020, there would be 331.29 million tonnes of LPG demand on the market. By 2027, it is anticipated to reach 417.11 million tonnes. With a share of 28.5%, Europe dominated the LPG market in 2019. Nowadays, India imports a considerable quantity of LPG. To suit its own needs, it imports fuel from the US and the Middle East. Numerous nations throughout the world organize meetings similar to COP21 to reduce carbon emissions. As a result, LPG has become more popular around the world as a cleaner and more effective fuel source. See More Links: • Start a Business in Asia • Start a Business in Potential Countries for Doing Business • Best Industry for Doing Business • Business Ideas with Low, Medium & High Investment • Looking for Most Demandable Business Ideas for Startups • Startup Consulting Services • Start a Business in Africa • Start a Business in India • Start a Business in Middle East • Related Videos • Related Books • Related Projects • Related Market Research Reports
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Return: 1.00%Break even: N/A
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