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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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E-Waste Recycling for Extraction of Precious Metals (Nickel, Tin & Zinc), Gold, Silver, Palladium, Plastic, Glass and Copper

E-WASTE is a collective name for discarded electronic devices that enter the waste stream from various sources. It includes electronic appliances such as televisions, personal computers, telephones, air conditioners, cell phones, electronic toys, etc. The Electronics Recycling operates to the WEEE directive for efficient electronics disposal. The WEEE Directive aims to reduce the quantity of waste from electrical and electronic equipment and increase it’s re-use, recovery and recycling. India’s ‘production’ of e-waste is likely to increase by nearly three times, from the existing 18 lakh metric tons (MT) to 52 lakh MT) per annum by 2020 at a compound annual growth rate (CAGR) of about 30%. A mere 1.5% of India's total e-waste gets recycled. This facilitates the development of new technologies and ensures a high quality product.
Plant capacity: Plastic Granules: 141000 Kgs./Annum Glass Scrap: 105900 Kgs./Annum Copper Scrap: 88200 Kgs./Annum Precious Metals (Nickel, Tin & Zinc): 18000 Kgs./Annum Gold: 5.760 Kgs./Annum Silver: 11.520 Kgs./Annum Palladium: 0.2Plant & machinery: 106 lakhs
Working capital: -T.C.I: Cost of Project: Rs 190 lakhs
Return: 26.00%Break even: 72.00%
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Refining of used Lubricating Oil

Lubricating oil, sometimes simply called lubricant/lube, is a class of oils used to reduce the friction, heat, and wear between mechanical components that are in contact with each other. Lubricating oil is used in motorized vehicles, where it is known specifically as motor oil and transmission fluid. Lubricating oil is an oily substance that is used to cover or treat machinery so as to lessen friction. They are otherwise called lubricants. Lubricating oils are essential in any use of machinery that leads to friction between mechanical parts. The industrial sector and the automotive sector are the two key consumers of lubricating oils and employ them in a variety of applications such as industrial gearboxes, internal combustion engines, turbines, and others. Lubricating oils perform the important role of curbing the temperature of the machinery during operation, but the long-term importance of lubricating oils goes beyond the maintenance of the machinery itself.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Charcoal from Biomass

Biomass charcoal briquettes are a biofuel substitute. Briquettes are mostly used in the developing world where cooking fuels are not as easily available. Briquettes are used to heat industrial boilers in order to produce electricity from steam. Biomass charcoal briquettes are made from agriculture waste, wood chips, coconut shell waste saw dust, groundnut shell waste etc. are a replacement for fossils fuels such as oil or coal, and can be used to heat boiler in manufacturing plants. Biomass briquettes are a renewable source of energy and avoid adding fossils carbon to the atmosphere. Biomass charcoal briquettes are widely used for any type of Thermal application like steam generation in boilers, heating purpose, drying process & gasification plant to replace existing conventional fuel like coal, wood & costly liquid fuel like FO, Diesel, LDO, Kerosene etc. On the basis of type, the charcoal market, biomass charcoal is estimated to contribute the largest share, of more than 67.0%, to the market in 2017. Biomass charcoal burns quickly and produces a high amount of heat on burning. Owing to these properties, the demand for biomass charcoal is growing for barbecue cooking purposes. The global charcoal market is projected to reach $6,492.8 million by 2023. The global biomass briquettes market is segmented into North America, Latin America, Western Europe, Eastern Europe, the Middle East and Africa, and Asia Pacific. Of these regions, Europe and North America are expected to be key regions for the growth of this market over the forecast tenure. The utilization of the biomass briquettes production technologies is high to convert their biomass into useful energy sources. Entrepreneurs who invest in this project will be successful. Few Indian major players are as under: • Adsorbent Carbons Ltd. • Birla Carbon India Pvt. Ltd. • Carbon & Chemicals India Ltd. • Continental Carbon India Ltd. • Goodluck Carbon Pvt. Ltd. • Murablack India Ltd. • Phillips Carbon Black Ltd. • Sun Petrochemicals Pvt. Ltd. • Surendra Mining Inds. Pvt. Ltd. • Utkal Moulders Ltd.
Plant capacity: 4,500 MT per annumPlant & machinery: 144 Lakhs
Working capital: -T.C.I: Cost of Project:271 Lakhs
Return: 29.00%Break even: 74.00%
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Recycling of Polythene and Other Plastic Products

Polythene is a type of plastic made into thin sheets or bags and used especially to keep food fresh or to keep things dry. Polyethylene or polythene (abbreviated PE) is the most common plastic. The annual global production is around 80 million tonnes. Its primary use is in packaging (plastic bags, plastic films, geo membranes, containers including bottles, etc.). Plastic recycling is the process of recovering scrap or waste plastic and reprocessing the material into useful products. Global Plastic Recycling Market is projected to cross USD 50.0 Billion by 2023, growing at a CAGR of over 5.0% during the forecast period. Rising awareness about the pollution caused by plastics and the energy saving benefits in the manufacturing of recycled plastics over virgin plastics are the major growth drivers of the global market for plastic recycling. In terms of type, the plastic recycling market is categorized into Polyethylene Terephthalate (PET), Polyethylene (PE), Polypropylene (PP), Polyvinyl Chloride (PVC), Polystyrene (PS) and others. Plastic recycling market is prognosticated to scale new heights in the upcoming years owing to the rising cost of production as a result of increasing petroleum price. The growth trajectory of the market is likely to be dictated by government regulations favoring the recycling of plastic waste. In addition, the need for a standard recycling technology for plastic in order to manage waste efficiently is also anticipated to catalyze the expansion of the market over the next couple of years. However, a lack of awareness about recycling still prevails in the market which is forecasted to check the proliferation of the plastic recycling market over the assessment period. Based on application, the market has been expanded into packaging, construction, automotive, textile, consumer goods, and industrial. Of these, the segment of packaging is expected to serve the most demand for recycled plastic owing to the thriving expansion of the packaging industry and the several mandates compelling the industry to adopt more environment-friendly processes and ways to cut-down on its carbon footprint. The construction segment is also increasingly becoming a notable consumer of recycled plastic and is likely to account for a notable share in the overall market by the end of the report’s forecast period.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Manufacturing of Biomass Briquettes from Biowaste.

Manufacturing of Biomass Briquettes from Biowaste. Profitable Investment in Agro Waste Briquette Industry. Turning Waste into Energy Biomass briquettes are a biofuel substitute to coal and charcoal. Briquettes are mostly used in the developing world, where cooking fuels are not as easily available. There has been a move to the use of briquettes in the developed world, where they are used to heat industrial boilers in order to produce electricity from steam. The briquettes are cofired with coal in order to create the heat supplied to the boiler. Biomass feed, especially agro-residues, is available in different forms, such as husks, straw, and stalks of various and numerous crops. Due to this heterogeneous nature, the utility of these materials for energy becomes limited, and energy conversion processes tend to become biomass specific. Biomass briquettes are a proven way of generating energy from bio-waste. Type of Biomass Briquette:- Sawdust Briquettes Agro waste Briquettes Wood Briquettes Different types of waste have been utilized in order to develop biomass briquettes. Biomass briquettes derived from Mustard, Cotton, Guar, Saw Dust and Peanut shell Agro waste could result in feasible on-site fuel production. Biomass briquettes can typically provide between 3-15 per cent of the input energy into the power plant. The objective behind the move, is to reduce air pollution caused due to burning of surplus biomass residue in fields by creating an alternate market for its large-scale utilization in power plants as well as reduce carbon emission from coal fired power plants. Developing economies is the key sources for generating air pollution, as most of its population is reliant on wood and other fossil fuel such as kerosene and charcoal to meet their domestic energy needs. In addition, the growing percentage of carbon monoxide, carbon dioxide, and other harmful gases in the environment is the chief reason for global warming. Growing air pollution and environmental protection has grown concerns across the globe. Thus, growing environmental concerns have pushed the need for biomass briquettes. Biomass briquette production is developed recently. It is a kind of technology to obtain clean coal, as per the use of bio waste to create usable and effective briquettes to replace traditional firewood and charcoal in various domestic activities Uses:- Biomass briquettes are mostly used in the developing world, where cooking fuels are not as easily available. There has been a move to the use of briquettes in the developed world, where they are used to heat industrial boilers in order to produce electricity from steam. The briquettes are cofired with coal in order to create the heat supplied to the boiler. Biomass briquettes, mostly made of green waste and other organic materials, are commonly used for electricity generation, heat, and cooking fuel. These compressed compounds contain various organic materials, including rice husk, bagasse, ground nut shells, agricultural waste. The composition of the briquettes varies by area due to the availability of raw materials. The raw materials are gathered and compressed into briquette in order to burn longer and make transportation of the goods easier. The Benefits of Biomass Briquettes:- Nowadays, everyone is thinking about how to make their homes greener and how to save energy. Everyone is now aware of the problems presented by global warming and we are all thinking of ways to change our lifestyles in order to help stop this phenomenon and keep our world safe. This is why biomass briquettes are important. The main source of energy for most areas of the world is fossil fuel, which usually is makes use of coal in order to power boilers to make steam for energy. Briquettes made from biomass are a great substitute for coal, since they are made of natural materials and do not add to the pollution in the world. Because of the production of briquettes, many companies use biomass briquettes since they found out about its benefits and how it can lower their carbon footprint while being affordable. These briquettes are cheaper than coal in the long run, and can be used for a long time. Coal is one of the most dangerous ways to produce energy nowadays because of its pollution to our environment. This is why it is necessary for us to limit our use of charcoal and find another way to get energy. Biomass is a great way to do this since it is easy to get and use. Usually, the briquettes are made from plants and natural waste from animals. It recycles them and turns them into an energy source, so they are an ideal material. They do not have any of the disadvantages of fossil fuel energy, and it is easily renewable. It does not emit greenhouse gases or any toxic chemicals. The biomass materials are compressed into briquettes so that they can be used by energy producing companies to replace charcoal. These burn just like charcoal but they do not produce any harmful effects to the environment. They can be used to boil water and power turbines to generate electricity. In the modern world, everyone needs electricity. It is a very much sought-after utility, since we rely on technology that runs on electricity to live our lives. Because of this need, people resorted to using fossil fuels to power cities. But briquettes from biomass can change all of this. Biomass also gets rid of the need to have fossil fuels exported and imported around the world, since it can be made domestically from plants and animal waste. This will lower the price of electricity for many countries that do not have oil or coal reserves. It will mean affordable and safe energy for everyone. Briquettes are better than loose biomass since they are compressed. This compression allows them to burn for a lot longer than if it was loose. Also, it does not take too much money to compress these so it will be inexpensive for people to attain. Related Projects: - Waste Management and Recycling, Industrial Waste Management, Agro Waste Market Outlook Biomass briquette is commonly made of green waste and other natural materials. These are generally used to create power, heat, cooking fuel, and work industrial boilers with a specific end goal to make power from steam. The most recognized usage of briquettes is in emerging economies, where energy sources are not as generally accessible. These compacted or strong compounds contain different organic materials, including rice husk, bagasse, ground nutshells, city strong waste, rural waste, or other wastes with high nitrogen content. The demand for fuel in emerging economies and improved renewable energy source appeal drive the biomass briquette market. However, low energy output when compared to others industrial fuels and limited awareness hamper the market growth. Currently, various trends seen in the global market that has risen the demand for biomass briquettes are its advantages over other fuels, low ash content as compared to charcoal and coal, cost-effective, and is sulfur free. Moreover, low environmental effect, uniformity in combustion, higher boiler efficiency due to low moisture content and high density has increased its demand across the globe. The popularity of piston or ram press and screw extrusion machines are the most preferred technologies used for producing high-pressure biomass briquettes. Biomass briquettes have a high potential to substitute coal in most boiler and power applications and have a high combustion rate that has increased its demand on a large scale. At present, in developed countries the Biomass Fuel industry is generally at a more advanced level. The world's large enterprises are mainly concentrated in EU. Meanwhile, foreign companies have more advanced equipment, strong R & D capability, and leading technical level. With the development of Chinese Biomass Fuel industry production technology, their share in the international market is increasing, and competitiveness in the international market gradually increases. The global Biomass Briquette market is valued at 320 million US$ in 2017 and will reach 570 million US$ by the end of 2025, growing at a CAGR of 7.3% during 2018-2025. The global biomass briquettes market is segmented into North America, Latin America, Western Europe, Eastern Europe, the Middle East and Africa, and Asia Pacific. Of these regions, Europe and North America are expected to be key regions for the growth of this market. The utilization of the biomass briquettes production technologies is high to convert their biomass into useful energy sources. Biomass molding fuel is made of agricultural and forestry residues such as rice stalk, straw, cotton stalk, bamboo sawdust, wood flour, ramie stalk, peanut husk, etc. It is produced by pellet machines or briquetting machines, after going through several processing procedures, such as crushing, drying, mixing, molding or compressing, etc. And the final products are pellets and briquettes, which are used as a replacement for coal, gasoline gas and other traditional fossil fuels. Compared to fossil fuels, biomass molding fuel produce low net total greenhouse gas emissions because the materials used are already a part of the carbon cycle. Biomass pellet fuel are biofuels made from compressed organic matter or biomass. Wood pellets are the most common type of pellet fuel and are generally made from compacted sawdust and related industrial wastes from the milling of lumber, manufacture of wood products and furniture, and construction. Other industrial waste sources include empty fruit bunches, palm kernel shells, coconut shells, and tree tops and branches discarded during logging operations. Biomass pellets are usually utilized in home pellet stove, central heating boiler, industrial boiler, or in power plants to replace coal. They can also be used as horse bedding and cat litter. However, biomass briquettes are sticks or blocks with large diameter and different shapes (hexagon, cylinder, cuboid, etc.) made by biomass briquette machines. They are primarily for industrial use for heating. Related Books: - Waste Management, Waste Disposal and Recycling Industry Key Players:- ? Enviva ? Pacific BioEnergy ? German Pellets ? RWE Innogy ? Drax Biomass ? General Biofuels ? Pfeifer Group ? Biomass Secure Power ? Energex ? Westervelt Tags:- #projectreport #DetailedProjectReport #businessconsultant #businessfeasibilityreport #BusinessPlan #BiomassBriquettes #biofuel #waste #recycling #biowaste #agriculturewaste #WasteManagement #ewaste #SolidWaste #WasteWater #IndustrialWaste #foodwaste #bioproducts #NPCS
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Biomass Pellets from Bio Waste

Energy is the key factor in economic development of country. As we approach the turn of century, our requirements of energy will increase rapidly and vastly. Though there are several alternative conventional as well as non-conventional energy sources have been developed, still world is facing energy crisis day by day and it will rise in the coming future with rapid increase in population as well as industrialization. Biomass should be termed not only as a potential renewable source of energy, but also as a renewable feedstock for chemicals, technologically, biomass can provide all the forms of energy and the products normally derived from fossil fuels. Biomass is a resource that is present in a variety of different materials: wood, sawdust, cotton waste, paddy straw, seed waste, manure, paper waste, household waste, wastewater, etc. Biomass pellets are the most elaborate biofuel, and consist of small cylinders 6 to 10 mm in diameter and 10 to 30 mm in length that are obtained by pressing biofuels with binders, particles density obviously larger than what prior to compression that it may be up to 1.2~1.4g/cm3 with volume shrink 75% to 90%. Modern bioenergy is being recognized as an increasingly important low-carbon resource by policy-makers around the world to meet climate policy targets. In India also, there is a clear recognition of the significant role of bioenergy in electricity generation as well as in other applications. Bioenergy (including traditional biomass) is the largest renewable energy source with 14% out of 18% renewable in the energy mix and supplies 10% of global energy supply. Most of this is consumed in developing countries for cooking and heating, using traditional cook stoves, with considerable impact on human health (indoor air pollution) and on the environment.
Plant capacity: Biomass Pellets (6 mm to 10 mm): 720 MT per dayPlant & machinery: 3639 Lakh
Working capital: -T.C.I: Cost of Project:5948 Lakh
Return: 28.00%Break even: 48.00%
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E-Waste Recycling Plant

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 coming led (good, recyclable, and non-recyclable), several public policy advocates apply the term "e-waste" broadly to all surplus electronics. 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. The rising levels of e-waste generation in India have been a matter of concern in recent years. With more than 100 crore mobile phones in circulation, nearly 25 per cent end up in e-waste annually.“India has surely emerged as the second largest mobile market with 1.03 billion subscribers, but also the fifth largest producer of e-waste in the world, discarding roughly 18.5 lakh metric tonnes of electronic waste each year, with telecom equipment alone accounting for 12 per cent of the e-waste’’. The fastest growing sources of waste 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. E-Waste or Electronic Waste broadly describes loosely discarded, surplus, broken, obsolete, electrical and electronic devices. E-Waste is an area of immediate and long-term concern as its unregulated accumulation and recycling can lead to major environmental degradation which will pose a major threat to human health. Revolution of IT, new and innovative technologies and globalization of economy have made new electronic products available and affordable. But on the other hand, it has also led to unrestrained resource consumption and E-Waste generation. Electronic waste (e-waste) typically includes discarded computer monitors, motherboards, mobile phones and chargers, compact discs, headphones, television sets, air conditioners and refrigerators. According to the Global E-Waste Monitor 2017, India generates about 2 million tonnes (MT) of e-waste annually and ranks fifth among e-waste producing countries, after the US, China, Japan and Germany. In 2016-17, India treated only 0.036 MT of its e-waste. About 95 per cent of India’s e-waste is recycled in the informal sector and in a crude manner. Only 20 per cent of global e-waste is recycled. The market in Asia-Pacific has been categorized as China, Japan, India, and the rest of Asia-Pacific. The market in Asia-Pacific is expected to register the highest CAGR of 15.25% during the forecast period. Japan is expected to be a leading country-level market and is expected to register a 12.75% CAGR. India is expected to be the fastest-growing country-level market, expected to register the highest CAGR over the next few years. This is due to the growing population in the region. Also, growing awareness of e-waste recycling and government initiatives are the major factors for the growth of the market. India is emerging as one of the world's major electronic waste generators, posing grave concerns to public health and environment alike.Industry body Assocham, said India’s ‘production’ of e-waste is likely to increase by nearly three times, from the existing 18 lakh metric tons (MT) to 52 lakh MT) per annum by 2020 at a compound annual growth rate (CAGR) of about 30%.The Global Electronic Waste Recycling Market is expected to expand at 13.03% CAGR to reach a market value of 39,498.81 Million in 2024. A mere 1.5% of India's total e-waste gets recycled due to poor infrastructure, legislation and framework which leads to a waste of diminishing natural resources, irreparable damage of environment and health of the people working in industry. Over 95% of e-waste generated is managed by the unorganized sector and scrap dealers in this market, dismantle the disposed products instead of recycling it. Few Indian major players are as under E-ParisaraaPvt Ltd Attero India Pvt Ltd, E-waste Recyclers India, Eco Recycling Limited (ECORECO), Hi-Tech Recycling India Pvt. Ltd., Ultrust Solutions Pvt. Ltd.,
Plant capacity: Aluminium : 3 MT / day Mild Steel: 2 MT / day Shredded PCB: 15.00 MT / dayPlant & machinery: Rs 88 lakhs
Working capital: -T.C.I: Cost of Project: Rs 533 lakhs
Return: 29.00%Break even: 59.00%
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Municipal Waste Treatment

Municipal Solid Waste management is one of the most vital issues in the contemporary urban environments particularly in developing countries. The estimated quantity of Municipal Solid Waste (MSW) generated worldwide is 1.7-1.9 billion metric tons. In many cases, municipal wastes are not well managed in developing countries, as cities and municipalities cannot cope with the accelerated pace of waste production and waste collection rates are often lower than 70 per cent in low-income countries. More than 50 per cent of the collected waste is often disposed of through uncontrolled land filling and about 15 per cent is processed through unsafe and informal recycling. In most urban centers of developing countries, municipal solid waste management (MSWM) is highly unsatisfactory and beyond the capabilities of their economic setup for handling and disposal. Hence, the issue of MSWM is major concern in many urban areas of low-income developing countries, though their waste generation is low in comparison with middle income and industrialized countries. Solid waste generation: Currently the daily solid waste generation in the city of Addis Ababa is estimated to be 0.5 kg per capita per day, the density ranges from 205 to 370 kg m-3 and the daily waste generation has reached to 2,750 m3. Therefore, considering the city’s population of 3.5 million people, it is estimated that approximately one million m3 of solid waste is generated per year. The global waste management market size is expected to reach $530.0 billion by 2025 from $330.6 billion in 2017, growing at a CAGR of 6.0% from 2018 to 2025. Waste management is the process of treating solid wastes, and involves different solutions to recycle items. It includes activities from its inception to final removal, such as collection, transport, treatment, and disposal of waste along with inspection and regulation. Increase in environmental awareness, rapid industrialization, surge in population, and rise in urbanization foster the growth of the global waste management market. In addition, implementation of stringent government norms toward open dumping is expected to fuel the waste management market growth. Furthermore, uncollected waste and dumping are impacting on health directly or directly, which is expected to increase demand for waste management services. However, lack of awareness in developing countries and dearth of investments in solid waste management framework impede the growth for waste management industry analysis. The impact of the driving factors is expected to surpass that of the restraints; hence, the market is projected to grow at a CAGR of 6.0% from 2018 to 2025. The market includes domestic consumables mainly furniture, product packaging, clothing, grass clippings, bottles, newspapers, food scraps, and appliances. These scraps mainly originate from several schools, homes, hospitals, and other commercial establishments. The demand for municipal solid waste management across the residential sector will witness significant gains on account of the ongoing urbanization along with increasing consumer spending toward manufactured goods.
Plant capacity: Organic Compost :300 MT / Day Refuse Derivated Fuel (RDF): 66.7 MT / Day Plastics: 20 MT / Day Inerts: 86.7 MT / Day Recyclables: 73.3 MT / DayPlant & machinery: Rs 2038 lakhs
Working capital: -T.C.I: Cost of Project: Rs 3239 lakhs
Return: 26.00%Break even: 44.00%
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E-Waste Recycling Plant

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 coming led (good, recyclable, and non-recyclable), several public policy advocates apply the term "e-waste" broadly to all surplus electronics. 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. The rising levels of e-waste generation in India have been a matter of concern in recent years. With more than 100 crore mobile phones in circulation, nearly 25 per cent end up in e-waste annually. “India has surely emerged as the second largest mobile market with 1.03 billion subscribers, but also the fifth largest producer of e-waste in the world, discarding roughly 18.5 lakh metric tonnes of electronic waste each year, with telecom equipment alone accounting for 12 per cent of the e-waste’’. The fastest growing sources of waste 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. The ‘Electronic Waste Management in India,’ conducted to mark World Environment Day, said as Indians become richer and spend more on electronic items and appliances, computer equipment accounts for almost 70% of e-waste material, followed by telecommunication equipment (12%), electrical equipment (8%) and medical equipment (7%). Other equipment, including household e-crap account for the remaining 4%. India is emerging as one of the world's major electronic waste generators, posing grave concerns to public health and environment alike. Industry body Assocham, said India’s ‘production’ of e-waste is likely to increase by nearly three times, from the existing 18 lakh metric tons (MT) to 52 lakh MT) per annum by 2020 at a compound annual growth rate (CAGR) of about 30%.The Global Electronic Waste Recycling Market is expected to expand at 13.03% CAGR to reach a market value of 39,498.81 Million in 2024. A mere 1.5% of India's total e-waste gets recycled due to poor infrastructure, legislation and framework which leads to a waste of diminishing natural resources, irreparable damage of environment and health of the people working in industry. Over 95% of e-waste generated is managed by the unorganized sector and scrap dealers in this market, dismantle the disposed products instead of recycling it. The market in Asia-Pacific has been categorized as China, Japan, India, and the rest of Asia-Pacific. The market in Asia-Pacific is expected to register the highest CAGR of 15.25% during the forecast period. Japan is expected to be a leading country-level market and is expected to register a 12.75% CAGR. India is expected to be the fastest-growing country-level market, expected to register the highest CAGR over the next few years. This is due to the growing population in the region. Also, growing awareness of e-waste recycling and government initiatives are the major factors for the growth of the market.
Plant capacity: Plastic Granules: 470 Kgs / Day Glass Scrap: 353 Kgs / Day Copper Scrap: 294 Kgs / Day Precious Metals (Nickel, Tin & Zinc): 60.00 Kgs / Day Gold : 0.0192 Kgs / Day Silver: 0.0384 Kgs / Day Palladium: 0.0010 Kgs / DaPlant & machinery: Rs 107 lakhs
Working capital: -T.C.I: Cost of Project : Rs 336 lakhs
Return: 28.00%Break even: 58.00%
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Waste & Used Oil Recycling Plant

Waste oil is generated from industrial and non-industrial sources and primarily contains hydrocarbons. It may also contain additives and impurities due to physical contamination and chemical reactions occurring during its use. Used oil has been used previously, and as a result of that, is now contaminated by impurities, either chemical or physical. Examples of used oil are old transmission oil, motor oil, brake fluid, hydraulic oil and gearbox oil. Used oil is a recyclable commodity, and as such, can be stored for recycling, reuse or disposal. Used oil is not considered to be a waste product. Re-refining of usedlube oil is an economically attractive recycling methodin terms of resources conservation and environment protection. It allows processing of hazardous material in a safe and effective way to recover a high quality base oil product. The global lubricants market size is projected to reach USD 182.6 billion by 2025 from USD 157.6 billion in 2020, at a CAGR of 3.0%. Growth in Industrialization in Asia Pacific and the Middle East & Africa post COVID-19, coupled with the rise in process automation in most of the industries and the gradual increase in number of vehicles on-road are key factors expected to drive the global lubricants industry during the forecast period. The enhanced properties of gear oils are required to improve the efficiency of the wind turbine; hence there is an increasing demand for synthetic gear oils in wind turbines. Power generation from wind energy is rising at a swift speed that is also demanding for installation of wind turbines. Wind turbines are fueling the demand for gear oils that are driving the Indian industrial lubricants market. Thus, due to demand it is best to invest in this project. Few Indian major players are as under Alicid Organic Inds. Ltd. Castrol India Ltd. Chemoleums Ltd. Continental Petroleums Ltd. Enpro Industries Pvt. Ltd. G S Caltex India Pvt. Ltd. Gujarat Indo-Lube Ltd. Gujarat Oiland Inds. Ltd.
Plant capacity: Used Lubricating Oil: 7,600 Ltrs / Day Spent Clay: 800 Kgs / DayPlant & machinery: Rs 118 lakhs
Working capital: -T.C.I: Cost of Project: Rs 664 lakhs
Return: 12.00%Break even: 59.00%
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Information
  • 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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