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Waste Management and Recycling, Industrial Waste Management, Agro Waste, Municipal Garbage, Plastic, Paper, Metal, Iron, Glass, Rubber, Electronic, Medical Waste Recycling, Solid Waste Treatment, Agricultural, Wood Waste, Residue Processing Projects

Waste management is the collection, transport, processing, recycling or disposal, and monitoring of waste materials. Concern over environment is being seen a massive increase in recycling globally which has grown to be an important part of modern civilization. The consumption habits of modern consumerist lifestyles are causing a huge global waste problem.  Industrialization and economic growth has produced more amounts of waste, including hazardous and toxic wastes. There is a growing realization of the negative impacts that wastes have had on the local environment (air, water, land, human health etc.)

Waste management is the collection of all thrown away materials in order to recycle them and as a result decrease their effects on our health, our surroundings and the environment and enhance the quality of life. Waste management practices differ for developed and developing nations, for urban and rural areas, and for residential and industrial producers. Waste Management flows in a cycle: monitoring, collection, transportation, processing, disposal or recycle. Through these steps a company can effectively and responsibly manage waste output and their positive effect they have on the environment.

Waste generation per capita has increased and is expected to continue to climb with growing population, wealth, and consumerism throughout the world. Approaches to solving this waste problem in a scalable and sustainable manner would lead us to a model that uses waste as an input in the production of commodities and value monetized, making waste management a true profit center. The conversion of waste as a potential source of energy has a value as a supplemental feedstock for the rapidly developing bio-fuels sector. A variety of new technologies are being used and developed for the production of biofuels which are capable of converting wastes into heat, power, fuels or chemical feedstock.

Thermal Technologies like gasification, pyrolysis, thermal Depolymerization, plasma arc gasification, and non–thermal technologies like anaerobic digestion, fermentation etc. are a number of new and emerging technologies that are able to produce energy from waste and other fuels without direct combustion. Biodegradable wastes are processed by composting, vermi-composting, anaerobic digestion or any other appropriate biological processing for the stabilization of wastes. Recycling of materials like plastics, paper and metals should be done for future use.

There is a clear need for the current approach of waste disposal in India that is focused on municipalities and uses high energy/high technology, to move more towards waste processing and waste recycling (that involves public-private partnerships, aiming for eventual waste minimization - driven at the community level, and using low energy/low technology resources.

 

 

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SILICON FROM RICE HUSK - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Rice husk is a byproduct of agriculture a by product while is almost treated like waste and not serously bothered about. Consider, India's case every year about 60 million tonnes of paddy grown in the country produces upto 12 million tonnes of rice husk in over 900,000 rice mills spread around the country. Though, most of it is used as either a heating medium or as an animal feed . The strange fact is that 12 million tonnes of rice husk can have a heat value equivalent to around 20 million barrels of oil. The silica from rice husk must compete with other cheap sources such as sand, bentonite and diatomaceous earth; however it frequently offers advantages because of minimal amounts of unwanted elements other than silica. USES OF SILICON Various uses and applications of Silicones are given as below: 1. As an alloying agent for steels aluminium, bronze, copper and iron. 2. Used in the production of hologenated silanes, 3. As an organosilicon compounds (silicone resins) 4. Silicon carbide. 5. Spring steels. 6. As a dioxidizer in steel manufacture 7. As a semiconductor in integrated circuits rectifiers transistors, diodes and other elctronic divices. 8. Cermets and other special refractories. The major recent development in the silicon industry is the tripling of demand for solar grade polysilicon, with the expectation that the quantity used in solar photovoltaic (PV) modules will start to rival that in the high volume silicon markets within a few years. Furthermore, high value solar grade silicon allows much higher profit margins than the bulk markets. In 2012, the global consumption of silicon metal amounted to 2,020,000 tons, wherein Europe took the lead, accounting for 27% of the world’s total, China came as the second, taking up 24%.
Plant capacity: 300 Kg/day Plant & machinery: 229 Lakh
Working capital: -T.C.I: 749 lakh
Return: 38.00%Break even: 47.00%
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Fuel Briquettes From Agro Waste - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities,Cost and Revenue

Fuel briquettes are made from agricultural and commercial residues such as weeds, leaves, sawdust, rice husks and scrap paper are an unique yet well proven technology to provide fuel wood. Briquette/ Bio coal or white coal is a solid fuel made from a variety of waste materials such as charcoal from low-density wood, agro forestry waste material, domestic, municipal solid wastes and typically any type of biomass waste. A wide array of feed stocks, some that are not pelletable, can be briquetted, including agricultural residues, paper, etc. Briquetting is the process which converts these low density biomass into high density and energy concentrated fuel briquettes. With a calorific value of about 4000 kcal/kg, the raw materials give superior briquettes particularly because of negligible ash contents while burning. Applications: Briquettes solid fuel known as bio coal can be used by the industrial, commercial and household domestic sectors. It is used in the following areas to generate the energy. Briquettes are widely used for any thermal application where coal can be utilized i.e. steam generation in boilers, heating purpose etc. They are used as a flammable material in brick kilns, paper mills, chemical plants, distilleries, pharmaceutical units, dyeing houses, food processing units, oil mills etc. Bio coal is used as fuel for biogas generation, which have shown very encouraging results and can be used to drive engines, generating sets and may eventually replace coal based producer gas systems and oil firing in furnaces. Bio coal is a forth coming fuel of the world. It’s a high quality asset towards economical, ecological, & advanced environmental company policy. Briquette fuel is an ideal and ready substitute for coal and fire wood and lignite etc. and easily replaces these conventional fuels for heating or steam generation etc. Market Survey: Biomass market in India is growing steadily as new initiatives are being taken and investments start flowing in. Additionally, the government is giving various incentives and subsidies to promote the usage of biomass power. These measures can go a long way if the gap in demand and supply needs to be bridged and India has to attain energy security. India produces about 450 to 500 million tons of biomass per year. Biomass provides over 30% of all the primary energy used in the country at present. It is estimated that the potential in the short term for power from biomass in India varies from about 18,000 MW, when the scope of biomass is as traditionally defined, to a high of about 50,000 MW if one were to expand the scope of definition of biomass. The current share of bio fuels in total fuel consumption is extremely low and is confined to just 5% blending of ethanol in gasoline, which the government has made mandatory in 10 states. Currently, biodiesel is not sold on the Indian fuel market, but the government plans to meet 20% of the countrys diesel requirements by 2020 using biodiesel.
Plant capacity: 3600 MT/AnnumPlant & machinery: 16 Lakhs
Working capital: -T.C.I: 161 Lakhs
Return: 45.64%Break even: 37.83%
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Chipboard Industry - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Chipboard industry is basically agriculture based and a major input for Furniture Industry. Chipboard is made up of wood chips bound together with resin and pressed into a flat, rectangular shape. Pieces of wood which are too small, warped or otherwise defective for use as lumber are splintered into small chips, and mixed with sawdust. A synthetic resin is added, usually urea formaldehyde, to hold the chips together and increase the strength and hardness of the finished product. The mixture is then heat-formed under pressure to create a smooth, rigid board. Mango & Poplar wood is raw material used for its production. Chipboard is made by gluing layers and fragments of recycled paper together to form a larger piece of material. The adhesive is applied using heat and pressure. This insures the material becomes rigid and feels smooth to the touch. The thickness of the chipboard ranges from very thin to very thick. Applications: Chipboard and plywood are the major inputs for the furniture industry, which is the biggest user of chipboard, accounts for approx. 60% of the total demand for the product. The wood used in furniture making generally comprises Shesham, Chirh, Pine, Oak, Burmah, Teak, Plywood, Kikar and Bamboos. Recently, chipboard is also extensively used for this purpose, which is considered a healthy sign for the chipboard industry. Although the quality of chipboard so far produced in the country has not improved up to the world standard, yet with the passage of time for product’s diversified uses, easy to handle, economical and many other factors, the use of chipboard is likely to increase. Market Scenario: Chipboard is inexpensive and relatively easy to produce and use. This industry has reasonable potential to attract new markets abroad by providing high quality board. Banking policies for housing loans are also playing an important role in the boost of the housing sector. The construction style has absolutely changed and demand of chipboard and laminated board has significantly increased. Chip board is not only used in country but also exported to Sri Lanka, Afghanistan, Saudi Arabia & to Gulf States in form of furniture. Due to increase in population and need of constructing new houses it is expected that demand for chipboard will rise ultimately.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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ALUMINIUM INGOTS FROM USED BEVERAGE CANS - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

A beverage can is a metal container designed to hold a fixed portion of liquid such as a carbonated soft drink, alcoholic beverage, fruit juice, herbal tea etc. Beverage cans are made of aluminium (75% of worldwide production) or tin plated steel (25% worldwide production). Worldwide production for all beverage cans is approximately 52 billion units. Aluminium recycling is the process by which scrap aluminium can be reused in products after its initial production. The process involves simply re melting the metal, which is far less expensive and energy intensive than creating new aluminium through the electrolysis of aluminium oxide (Al2O3), which must first be mined from bauxite ore and then refined using the Bayer process. Recycling scrap aluminium requires only 5% of the energy used to make new aluminium. For this reason, approximately 31% of all aluminium produced in the United States comes from recycled scrap. Used beverage containers are the largest component of processed aluminium scrap, with most UBC scrap manufactured back into aluminium cans. Ingot and billet play an integral part in the production of many aluminium products. Plate, sheet, foil, wire, rod, and bar products are all produced by pressing or rolling ingot and billet. Ingot and billet are cast from molten aluminium. In the cast house, crucibles of molten aluminium empty their silvery liquid either directly into molds or into a holding furnace where the metal is kept molten at temperatures between 1,200 and 1,500 degrees Fahrenheit. Alloying elements are then added. Most metal is cast by the direct chill (DC) process, which produces huge sheet ingot for rolling mills, round log like billet for extrusion presses, or square billet for production of wire, rod, and bar. Advantages The recycling of aluminium generally produces significant cost savings over the production of new aluminium even when the cost of collection, separation and recycling are taken into account Over the long term, even larger national savings are made when the reduction in the capital costs associated with landfills, mines and international shipping of raw aluminium are considered. Aluminium recycling is economically beneficial to both the aluminium and recycling industry. The capital cost for the production of recycled aluminium is already recognized to be far lower than making new aluminium. The financial benefit has also spurred the development of the recycling program. The price of scrap aluminium has fluctuated in the market but its traditionally high value has generated enough income. Aluminium cans are the poster child of the recycling movement. This is by far the most valuable component in the solid waste stream. The aluminium can is also the most recognized recyclable item among household waste. The aluminium beverage can is 100 percent recyclable into new beverage cans indefinitely demonstrating recycling at its finest. Aluminium can recycling helps fund the entire collection system. The aluminium can is the only packaging material that more than covers the cost of collection and re processing for itself. It also helps subsidize the collection of other recyclable materials. Market Survey The worldwide capacity to produce alumina was placed at around 80 mn tonnes in 2007 and was slated to touch 100 mn tonnes in 2010. Alumina accounts for about 22% of the cost in the production of aluminium. India's share in world aluminium market is estimated at around 3%. India ranks fifth in bauxite production after Australia (62 mn tonnes), Guinea (17.50 mn tonnes), Brazil (16.20 mn tonnes) and China (10.75 mn tonnes). With a total output of 9.25 mn tonnes, the country contributes about 6% of the world's total production of 159 mn tonnes, India holds the fifth position in reserves base and is ahead of China with 2300 mn tonnes. India ranked seventh in alumina production with a total output of 3 mn tonnes, a share of nearly 5% of the global production of 61 mn tonnes. However, internationally, the pattern of consumption is in favour of transportation, primarily due to large scale aluminium consumption by the aviation industry. White goods account for nearly 5% of aluminium consumption in the country. The products include electric fans, air conditioners, refrigerators and coolers. The white goods industry uses both extruded products and flats. In the transportation sector, aluminium is used for panelling, floors and windows. So far, it is not used for structural parts and bodies of automobiles. An Indian car uses only about 54 kg of aluminium against a global average of 100 to 110 kg. This sets the high potential for growth with the increase in the automobile sector. Demand for aluminium is estimated to grow at 4 to 6% per annum. The demand for the metal is expected to pick up as the scenario improves for user industries like power, infrastructure and transportation, which are all on the move.
Plant capacity: 1000 Kg /dayPlant & machinery: 109 Lakhs
Working capital: -T.C.I: Cost of Project : 298 Lakhs
Return: 24.00%Break even: 51.00%
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MUNICIPAL SOLID WASTE (MSW) MANAGEMENT - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Waste is an unavoidable by product of human activities. Economic development, urbanization and improved living standards in cities increase the quantity and complexity of generated solid waste. If accumulated, it leads to degradation of urban environment, stresses natural resources and leads to health problems Cities in are facing a high level of pollution; the situation in developing countries is more acute, this is partly caused by inadequate provision of basic services like water supply, sanitation facilities, transport infrastructure and waste collection Municipal corporations of the developing countries are not able to handle the increasing quantity of waste, which leads to uncollected waste on roads and other public places. There has been a significant increase in MSW (Municipal Solid Waste) generation in India in the last few decades. This is largely because of rapid population growth and economic development in the country. Solid waste management has become a major environmental issue in India. The per capita of MSW generated daily, in India ranges from about 100 gm in small towns to 500 gm in large towns. MSW in cities is collected by respective municipalities and transported to designated disposal sites, which are normally low lying areas on the outskirts of the city. The limited revenues earmarked for the municipalities make them ill equipped to provide for high costs involved in the collection, storage, treatment, and proper disposal of MSW. As a result, a substantial part of the MSW generated remains unattended and grows in the heaps at poorly maintained collection centres. The choice of a disposal site also is more a matter of what is available than what is suitable. Market Survey Modernization and progress has had its share of disadvantages and one of the main aspects of concern is the pollution it is causing to the earth be it land, air, and water. With increase in the global population and the rising demand for food and other essentials, there has been a rise in the amount of waste being generated daily by each household. This waste is ultimately thrown into municipal waste collection centres from where it is collected by the area municipalities to be further thrown into the landfills and dumps. Municipal solid waste (MSW) in India has been increasing by about 60 percent per day per person compared to 20 years ago due to the population and robust economic growth the country is enjoying. Thus, managing solid waste management and disposal (SWMD) has become a critical problem for the government due to unstructured management plans and higher awareness of public health and better education. Currently most wastes are disposed into poorly managed control tipping with little or no pollution protection measures. This conventional disposal method is land dominance with poor maintenance and the payment for the use of it is currently made indirectly through the annual housing assessment fee and unknown to the households. There are uncertainties in public awareness and attitudes towards the solid waste disposal (SWD) issues and these concerns relate to the public demand or WTP for the service characteristics of various better disposal technologies that are offered. Waste Minimization is a process of reducing waste produce by individuals, communities and companies, which reduces the impact of chemical wastes on the environment to the greatest extent. Household level of proper segregation of waste, recycling and reuse. Cost Estimation Capacity : 390 MT/Day Refused Derived Fuel : 90 MT/Day Compost Derived Fuel: 240/MT/Day Recyclable Waste : 60/MT/Day
Plant capacity: -Plant & machinery: 2522 Lakhs
Working capital: -T.C.I: Cost of Project : 2962 Lakhs
Return: 38.00%Break even: 33.00%
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Lead Acid Battery Recycling

Lead acid batteries are rechargeable batteries made of lead plates situated in a ‘bath’ of sulfuric acid within a plastic casing. They are used in every country in world, and can commonly be recognized as car batteries. The batteries can be charged many times, but after numerous cycles of recharging, lead plates eventually deteriorate causing the battery to lose its ability to hold stored energy for any period of time. The world is getting increasingly aware of the need to limit the consumption of nonrenewable resources and the production of waste. This requirement is accomplished by taking advantage of recycling technologies and re using the materials at the end of their useful life. The manifold increase in the automotive vehicles on roads as well as in various other applications has increased the demand for lead acid batteries. With so many batteries in use, their disposal and recycling is of paramount importance. The spent battery is 99% recyclable, if processed in proper facility and under environmental friendly conditions. The lead is the most recycled metal and more than 50% world demand is met by the secondary lead itself. Uses and Application The major uses of lead are: Storage batteries, Building Construction, Cable sheathing, Radiation screening, Ammunition and Lead Alloys. Lead is a very useful material found in many different products, with approximately six million tons used annually across the world, though much of this lead is recycled and reused. Market Survey India has very limited domestic lead production capacity. Most of the lead scrap that is generated locally from melting down lead batteries must be refined at a second smelter to improve its purity before it can be used in making new lead batteries.As the automotive industry continues to expand in China, increasing in both production and domestic consumption, the battery market will grow to meet this demand. China is currently the largest car manufacturing and consuming country in the world, producing 18.3 million cars in 2010. Approximately 60% to 70% of current lead battery production is used in newly manufactured vehicles, while the remaining 30% to 40% are sold as replacement batteries. ? Few Indian Major Players are as Under: to Chloride Alloys India Ltd. Chloride Metals Ltd. D D Agro Inds. Ltd. Hindustan Zinc Ltd. Leadstone Energy Ltd. Nile Ltd. Shiva Metalloys International Ltd.
Plant capacity: 40 MT/DayPlant & machinery: 316 Lakhs
Working capital: -T.C.I: Cost of Project : 696 Lakhs
Return: 32.00%Break even: 50.00%
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E-Waste Recycling Plant - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

E waste is a popular, informal name for electronic products nearing the end of their useful life. Computers, televisions, VCRs, stereos, copiers, and fax machines are common electronic products. Many of these products can be reused, refurbished, or recycled. Unfortunately, electronic discards are one of the fastest growing segments of our nation's waste stream. WEEE has been identified as one of the fastest growing sources of waste in the EU, and is estimated to be increasing by 16 to 28 per cent every five years. Within each sector a complex set of heterogeneous secondary wastes is created. Electronic wastes, e waste, e scrap, or Waste Electrical and Electronic Equipment (WEEE) is a description of surplus, obsolete, broken or discarded electrical or electronic devices. Technically, electronic waste is the component which is dumped or disposed or discarded rather than recycled, including residue from reuse and recycling operations. Because loads of surplus electronics are frequently commingled (good, recyclable, and non recyclable), several public policy advocates apply the term e waste broadly to all surplus electronics. Uses & Application Electronic Waste – or e waste – is the term used to describe old, end of life electronic appliances such as computers, laptops, TVs, DVD players, mobile phones, mp3 players etc. which have been disposed of by their original users. While there is no generally accepted definition of e waste, in most cases, e waste comprises of relatively expensive and essentially durable products used for data processing, telecommunications or entertainment in private households and businesses. Market Survey WEEE has been identified as one of the fastest growing sources of waste in the India, and is estimated to be increasing by 16 28 per cent every five years. Within each sector a complex set of heterogeneous secondary wastes is created. Although treatment requirements are complicated, the sources from any one sector possess many common characteristics. However, there exist huge variations in the nature of electronic wastes between sectors, and treatment regimes appropriate for one cannot be readily transferred to another.
Plant capacity: 5 MT/DayPlant & machinery: 60 Lakhs
Working capital: -T.C.I: Cost of Project : 241 Lakhs
Return: 15.00%Break even: 43.00%
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PET Bottle Recycling - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Polyethylene terephthalate or PET (also known as PETE) is one of the most common types of plastic. Most single serve plastic bottles, including those for water, soft drinks and juices, are made with PET. Designated by the recycling code 1,. This symbol is nothing to do with the single use or repeated use of PET bottle. Being extremely light, PET bottles help to reduce the emission of contaminants during their transport. Since they require less fuel during transport, they also help saving energy. PET is globally recognized as a safe, recyclable packaging material. PET is the main constituent in a variety of consumer and industrial products including plastic fibers, videotape, audiotape, film, engineered resin, food containers. Although the percentage of refillable PET beverage containers increases all over the world, the majority of PET bottles worldwide are one way bottles which are discarded after use. PET bottles contribute increasingly to the generation of waste and litter especially in developing countries. So, it is very necessary to recycle of PET bottles to saves 65% of the energy for primary PET production and also it offers jobs and income for low income groups. Uses & Applications Recycled PET is converted into numerous products. The five major generic end use categories for recycled PET plastic are: Packaging applications (such as new bottles), Sheet and film applications (including some thermoforming applications, such as laundry scoops), Strapping, Engineered resins applications (such as reinforced components for automobiles), Fiber applications (such as carpets, fabrics and fiberfill). There are a number of emerging technologies that are generically referred to as depolymerization processes. Market Survey The production of PET bottles has been on the rise mainly for beverage bottle use these past several years and is expected to increase further because of their convenience. Recycling of post consumer PET bottles has been gaining great interests and several recycling methods have been proposed. The worldwide strong PET market (and recycling) growth is important. PET recycling seems feasible in two aspects: one is that is the market need and second this market need is just at the same direction with the environmental request to reduce the waste materials in the land fields or the waste in general. Fibre industry is one of the fast growing end use sectors and a major user of recycled PET in India. During the last decade a steadily increasing number of products are made of bottle PET flakes. The very early started conversion of PET scrap to staple fiber was later followed by increasingly higher performance products.
Plant capacity: 4 MT/DayPlant & machinery: 53 Lakhs
Working capital: -T.C.I: 376 Lakhs
Return: 47.00%Break even: 41.00%
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Coir Mattresses - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Layout

Coir fibres are extracted from the husks surrounding the coconut. It is a common experience that fibres detached from the coconut skin are quite hard to break by simple tension, hence by pulling from both sides. Excellent properties of resistance to wear and easy availability in countries, where coconut palms are widespread, have allowed coir to be employed for a variety of uses, e.g., for manufacturing toys, bags and carpets. Coir is popularly known as the golden FIBRE. It is extracted from the fibrous husk of the coconut shell. Coconut husk is a residue from coconut production, comprising approximately 30 wt. % coir fibres and 70 wt. % coir pith. It is used to manufacture a wide range of products such as ropes, mats, mattresses, baskets, brushes and brooms. Around 50 per cent of the coconut husk is used for making coir. Mixture of coir fibre and latex is steam heated, pressed and vulcanized to produce mattresses. Types & Structure of Coir Fibre There are two main types of coir fibre first is Brown Coir, from fully ripened coconut husks; strong and resistant to abrasion, it is used in brushes, floor mats, and upholstery padding and White Coir, from husks of coconuts harvested just before they ripen; softer and less strong, it is spun into yarn, used for ropes and mats. Uses and Applications A small amount is also made into twine. Pads of curled brown coir fibre, made by needle felting (a machine technique that mats the fibres together) are shaped and cut to fill mattresses and for use in erosion control on river banks and hillsides. A major proportion of brown coir pads are sprayed with rubber latex which bonds the fibres together (rubberized coir) to be used as upholstery padding for the automobile industry in Europe. The material is also used for insulation and packaging. The major use of white coir is in rope manufacture. Mats of woven coir fibre are made from the finer grades of bristle and white fibre using hand or mechanical looms. Coir is recommended as substitute for milled peat moss because it is free of bacterial and fungal spores. White coir also used to make fishing nets due to its strong resilience to salt water. In horticulture, coir is a strongly recommended substitute for sphagnum moss because it is free of bacterial and fungal spores, and produces good results without the environmental damage caused by peat mining. Coir is also useful to deter snails from delicate plantings. Coir is also used as a growing media in intensive glasshouse horticulture. Advantages of Rubberized Coir Mattresses A coir mattress is typically made similarly to other synthetic core mattresses. Coir mattresses will usually have layers of coir fibers finished with quilting or cloth cover on both sides. Advantages of rubberized coir mattresses are: Coir's moisture reducing and ventilation abilities give coir mattress the feel of a cool sensation and relaxation, Coir has natural springy quality coir which makes it very supportive, Coir is a hygroscopic material and hence is absorbs moisture from the air. It generally retains 8 to 10% moisture. This gives the cool sensation in the coir mattress, Coir is naturally anti dust mite which means it is perfect for all allergy sufferers, there are no adverse impacts on the environment and no harmful chemicals are used in making of a rubberized coir mattress. The factory does not emit any pollutants and rubberized coir mattresses are eco friendly, Coir being a natural product is Flame Retardant, etc.
Plant capacity: 390 Nos./DayPlant & machinery: Rs. 151 Lakhs
Working capital: -T.C.I: Cost of Project : Rs. 659 Lakhs
Return: 28.00%Break even: 61.00%
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Power Generation from Garbage - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Managing waste is the collection and ultimate disposal of the waste without causing environmental damage. Power generation from waste is one of unique thinking of country growth. It is prime need in all over our countries as well as mostly under developed country and developing countries. Since there is a lot of dry garbages available throughout all the countries in the world; waste is unavoidable by product of any activity. Composting is a spontaneous biological decomposition process of organic materials in a predominantly aerobic environment. Collection is the component of waste management which comprises lifting and removal / passage of a waste material from the source of production to either the point of treatment or final disposal. ? Market Survey Renewable power generation includes biomass gasifiers, biomass power, urban and industrial waste power, wind energy etc. India has a potential for developing these renewable sources to bridge the gap between available and required electricity. Agricultural waste generated by several agricultural activities has many alternative uses. Waste to energy plants burn municipal solid waste (MSW) to generate electricity or heat. The power generation industry in India has been taking rapid strides with greater private participation and diversification of the fuel mix. The government is actively supporting the sectors development by creating a conductive policy environment, with a focus being on promoting investments in domestic manufacturing capacity, clean and efficient supercritical technology, and renewable power, among other things.
Plant capacity: 5 MWPlant & machinery: Rs.1940 Lakhs
Working capital: -T.C.I: Rs.3231 Lakhs
Return: 36.00%Break even: 40.00%
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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.
  • We can also prepare project report on any subject as per your requirement.
  • Caution: The project's cost, capacity and return are subject to change without any notice. Future projects may have different values of project cost, capacity or return.

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NIIR PROJECT CONSULTANCY SERVICES (NPCS) is a reliable name in the industrial world for offering integrated technical consultancy services. NPCS is manned by engineers, planners, specialists, financial experts, economic analysts and design specialists with extensive experience in the related industries.

Our various services are: Detailed Project Report, Business Plan for Manufacturing Plant, Start-up Ideas, Business Ideas for Entrepreneurs, Start up Business Opportunities, entrepreneurship projects, Successful Business Plan, Industry Trends, Market Research, Manufacturing Process, Machinery, Raw Materials, project report, Cost and Revenue, Pre-feasibility study for Profitable Manufacturing Business, Project Identification, Project Feasibility and Market Study, Identification of Profitable Industrial Project Opportunities, Business Opportunities, Investment Opportunities for Most Profitable Business in India, Manufacturing Business Ideas, Preparation of Project Profile, Pre-Investment and Pre-Feasibility Study, Market Research Study, Preparation of Techno-Economic Feasibility Report, Identification and Selection of Plant, Process, Equipment, General Guidance, Startup Help, Technical and Commercial Counseling for setting up new industrial project and Most Profitable Small Scale Business.

NPCS also publishes varies process technology, technical, reference, self employment and startup books, directory, business and industry database, bankable detailed project report, market research report on various industries, small scale industry and profit making business. Besides being used by manufacturers, industrialists and entrepreneurs, our publications are also used by professionals including project engineers, information services bureau, consultants and project consultancy firms as one of the input in their research.

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