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

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IRON ORE MINING - 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

An ‘Ore’ may be defined as the aggregate of minerals from which a desired constituent mineral can be extracted with profit. The most used of all metals “Iron” is believed to be the ninth most abundant element in the Universe. The tough stuff “Iron” makes up the earth’s core and is considered to be the base of civilization. The concentration of iron in the structure of the earth ranges from almost 80% in the inner core to about 5% in the outer crust. Iron is not found in the free elemental state. As technology advanced during the middle Ages, the trench was replaced by a small shaft furnace, and from this the present day blast furnace has developed. The use of waterpower to operate the blast was introduced during the 14th century. The consequent considerable increase in furnace temperature resulted in the production of iron with a much higher carbon content than formerly, namely cast iron. This was not malleable but it was soon discovered how this might be converted into malleable iron by a second heating in an ample supply of air (refining). The iron industry received a great impetus at the end of the 18th century, when the demand for iron began to increase as a result of the invention of the steam engine and the railway. The shortage of wood charcoal led to the introduction of coke, as fuel and as reducing agent. Coke was first used in the blast furnace by Abraham Darby, in 1732. The refining process underwent fundamental improvements during the 19th century, through the introduction of the blast refining method (Bessemer Process, 1855; Thomas-Gilchrist process, 1878) and of regenerative heating (Siemens-Martin process 1865). Later, smelting in the electric furnace has been introduced for the production of certain high-grade steel. Iron is the cheapest and most widely used metal. Its annual production exceeds by far that of all other metals combined. It comprises approximately 93% of the tonnage of all the metals used. Iron makes 5% of the earth’s crust, and is not found in its elementary form, but in the form of chemical compounds with other elements in hundreds of minerals of importance. It is the most wanted ferrous metal having wide application in several industries. Iron plays a vital role in development of any country. Iron and its alloys specially steel are mainly used in civil and engineering industries without which the entire mankind could not have come to the modern age of high quality living. Iron ore is the most important raw material for making pig iron, sponge iron and steel too. To cater to different product needs, many steel plants and ferro-alloys industries have been set up in India. Iron ore in different form is also used in other industries like cement, foundries, paint and glass. USES & APPLICATION Iron ore is used mainly for making pig iron, sponge iron and steel. Iron and steel together form the largest manufactured products in the world and each of them enters into each branch of industry and is a necessary factor in every phase of our modern civilization. Pure iron has relatively few and quite special uses. Ingot iron is galvanized for roofing, siding and tanks. In the form of corrugated pipe, it is used for culverts. Because of its relatively high purity, it is suited to oxyacetylene welding, both as material to be welded and as welding rod. It is used in vitreous enameling. Its good ductibility makes it suitable for deep drawing operations as in the manufacture of appliance part, e.g. washing machine tube; relatively low electrical resistance and high magnetic permeability lead to its use in many types of electrical equipment, generator fields, magnetic parts of relays, magnetic brakes and clutches. Iron ore is also used in ferro- alloy, cement, foundry, vanaspati and glass factories. MARKET SURVEY The Global Iron Ore Mining industry's financial performance has been highly volatile over the past five years. The industry weathered through triple-digit revenue spikes and double-digit declines. After two years of extraordinary growth in 2010 and, to a lesser extent, 2011, revenue contracted in 2012 due to plummeting prices of iron ore. However, according to IBIS World industry analyst Agiimaa Kruchkin, “In 2013, industry performance is expected to recover on the back of rebounding iron ore prices.” Consequently, industry revenue is expected to grow 4.7% to total $264.3 billion over the year. Profit has been similarly unstable, though it has increased overall at an annualized rate of 5.5% to about 43.2% of revenue in 2013. Despite a volatile performance, tremendous growth over the period has ultimately offset any declines, leading to estimated average annual revenue growth of 14.6% in the five years to 2013. Growth for the Global Iron Ore Mining industry has primarily occurred on the back of higher iron ore output and prices. Strong growth in large emerging nations, such as China and India, has driven the demand for iron ore and underpinned higher prices during most of the five-year period; as a result, industry revenue and profit have expanded rapidly. “The industry’s major players, such as Vale and Rio Tinto, have all benefited from these positive conditions, which have allow these companies to acquire several smaller companies over the period and increase market share,” says Kruchkin. Nonetheless, the industry retains its low-to-moderate market share concentration. Total iron ore production worldwide is expected to reach about 2.87 billion metric tons in 2013 (compared with 2.10 billion metric tons in 2008). More than half of this total will be traded internationally. Trade occurs primarily between regions rather than within regions, although there is some intraregional trade in Europe and North America. The major importing regions are North Asia and Europe, while the major exporting regions are South America and Oceania. Following the recession, most iron ore supply contracts shifted from annual pricing (which has been the norm since the 1960s) to more flexible quarterly or even monthly pricing. PRESENT MANUFACTURERS A Narrain Mines Ltd. B G H Exim Ltd. Chowgule & Co. (Salt) Ltd. Concast Steel & Power Ltd. East India Minerals Ltd. Electrosteel Castings Ltd. Essel Mining & Inds. Ltd. Femnor Mineral (India) Ltd. Frontline Corporation Ltd. Gimpex Ltd. Godawari Power & Ispat Ltd. Grace Industries Ltd. H L L Lifecare Ltd. I B C Ltd. Indian Potash Ltd. Jain Granites & Projects India Ltd. K I O C L Ltd. K N R Infrastructure Projects Pvt. Ltd. Kalyani Steels Ltd. Kohinoor Steel Pvt. Ltd. M G M Minerals Ltd. M M T C Ltd. M S P L Ltd. M S P Steel & Power Ltd. Maharashtra State Mining Corpn. Ltd. Mangal Steel Enterprises Ltd. Mark Steels Ltd. Metrochem Industries Ltd. Metroglobal Ltd. Monnet Ispat & Energy Ltd. Mysore Minerals Ltd. Mysore Sales International Ltd. Orissa Manganese & Minerals Ltd. Orissa Minerals Development Co. Ltd. Orissa Mining Corpn. Ltd. P K S Ltd. Rameshwara Jute Mills Ltd. Resurgere Mines & Minerals India Ltd. S P S Metal Cast & Alloys Ltd. S P S Steels Rolling Mills Ltd. S T C L Ltd. Sandur Manganese & Iron Ores Ltd. Sanjana Cryogenic Storages Ltd. Sesa Goa Ltd. Sesa Mining Corpn. Ltd. Sesa Resources Ltd. Shri Ramrupai Balaji Steels Ltd. Soneko India Ltd. Sunil Ispat & Power Ltd. Trimex Industries Ltd. Umil Share & Stock Broking Services Ltd. Usha Ispat Ltd.
Plant capacity: 140 MT/DayPlant & machinery: Rs. 358 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 635 Lakhs
Return: 28.18%Break even: 57.96%
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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. 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. According to the recent survey, electronic discards are one of the fastest growing segments of our nation's waste stream. 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. According to the OECD, any appliance using an electric power supply that has reached its end-of-life would come under WEEE. 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. WEEE has been identified as one of the fastest growing sources of waste in the EU, 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. 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. There is also a lack of definition around the specific details of the treatment requirements of WEEE. It is therefore, the process of recycling of components containing hazardous compounds such as halogenated chlorides and bromides used as flame-retardants in plastics, Copper, PVC sheathing of wires etc., has emerged as a life threatening process, as recycling of such materials produces harmful dioxins. Land filling e-waste, one of the most widely used methods of disposal, is prone to hazards because of leachate which often contains heavy water resources. Older landfill sites and uncontrolled dumps pose a much greater danger of releasing hazardous emissions. Mercury, Cadmium and Lead are among the most toxic leachates. 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. The first comprehensive study to estimate the annual generation of e-waste in India and answer the questions above is being undertaken up by the National WEEE Taskforce. So far the preliminary estimates suggest that total WEEE generation in India is approximately 1, 46,000 tons per year. The top states in order of highest contribution to WEEE include Maharashtra, Andhra Pradesh, Tamil Nadu, Uttar Pradesh, West Bengal, Delhi, Karnataka, Gujarat, Madhya Pradesh and Punjab. The city wise ranking of largest WEEE generators is Mumbai, Delhi, Bangalore, Chennai, Kolkata, Ahmadabad, Hyderabad, Pune, Surat and Nagpur. Almost 50% of the PC's sold in India are products from the secondary market and are re-assembled on old components. The remaining market share is covered by multinational manufacturers (30%) and Indian brands (22%).
Plant capacity: 2164500 kgs. /annumPlant & machinery: Rs. 233 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 500 Lakhs
Return: 22.00%Break even: 49.00%
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Packaged Drinking Water - 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

Water is the necessity of our daily life, it’s so important for us that we need clean, safe and sanitary water every day, and usually there’s a more strict inspection standard in the more advanced country. Potable spring waters containing, sulphur, iron, magnesium and other mineral salts occurring in certain regions are claimed to be beneficial to human metabolism. There are two kinds of drinking water in the market. One is the natural water, which is called mineral water. The other is processed water coming from underground or from the pipe of water plant, which is called R.O. water, space water or pure water. Mineral water comes from natural springs. It contains a lot of various kinds of chemical goods such as potassium, magnesium and calcium, which are healthy to our body. After the water is filtered and sterilized properly, it’s our first choice to use it. However, the shortcoming is that the source of mineral water is limited. On the other side, pure water doesn’t contain any nutrition, but it’s easy to be obtained and very clean after being processed. It tastes good with PH value 5-7?that’s the reason why people like it very much. Pure water is processed through different stages of a filter system such as sand, carbon, and Reversed Osmosis System. The water is passed from 5 micron through 1 to 0.2 micron filter. After that, pure water can be filtered to remove harmful materials with an efficiency of 96%. Uses Mineral water is bottled under very hygienic conditions under strict quality control before being marketed. Its major use is in five star Hotels and Hospitals where good quality pure water is required for potable purposes. It is marketed at places and regions where hygienic drinking water is not freely available. Market Survey Bottled Water Bottled water industry, colloquially called, the mineral water industry, is a symbol of a new lifestyle and health-consciousness emerging in India. While a large segment of the population is struggling to get access to potable water supply, a new generation - especially in the urban areas - is getting accustomed to bottled water paying handsome prices. The total size of the bottled water market in India is estimated at Rs 20 bn. What is amazing is that people are prepared to pay Rs 10 or more for a litre of 'simple' water - especially when the cost of material input is negligible. The cost of packaging can be as high as 15% to 35% of the price of the product. In bottled water market, the cost of entry and the cost of exit is low. One does not require much equipment to make bottled water. The bottled water market is growing at a rapid rate of around 20% a year (down from 50 to 60%). At this growth rate, the market is estimated to overtake the soft drinks market soon. Multi-nationals Coca-Cola, Pepsi, Nestle and others are trying to grab a significant share of the market. There are more than 1800 brands in the unorganized sector. The small players account for nearly 19% of the total market. Nevertheless, per capita consumption of bottled water in India is less than half a litre per year, compared to 111 litres in France and 45 litres in the US. The consumption of smaller packs (500 ml) has increased perceptibly by around 140%. Even school children are carrying the 500-ml packs in their school-bags. The 20 litre jars have found phenomenal acceptance in households and in work places. The growth trends in packaged drinking water and a growing demand is indicative of the fact that water and its variants will be the single largest beverage category, growing and becoming at least 20 times of the current market size within the next 10-12 years. The BIS certification was made mandatory for the segment from April 2001. The bottled water was classified as food and has been brought under the Prevention of Food Adulteration Act. The producers have to adhere to rules pertaining to colour, odour, taste, turbidity, total dissolved solids and aerobic microbial count. Few Major Players are as under:- Ajay Enterprises Ltd. Akash Housing Ltd. [Merged] Aradhana Snack Foods Co. Bikaji Marketing Ltd. Bisleri International Pvt. Ltd. Durgapur Projects Ltd. G E I Foods Ltd. Golden Anchor Pvt. Ltd. Jagatjit Industries Ltd. Keventer Agro Ltd. Mohan Meakin Ltd. Mount Everest Mineral Water Ltd. N E P C Agro Foods Ltd. Nuway Organic Naturals India Ltd. Orient Beverages Ltd. Parle Bisleri Pvt. Ltd. [Merged] Parle International Pvt. Ltd. Pepsico India Holdings Pvt. Ltd. Pondicherry Agro Service & Inds. Corp. Ltd. Rose Valley Inds. Ltd. Sparkle Foods Ltd. Sri Sarvaraya Sugars Ltd. Surat Beverages Ltd. Vaarad Ventures Ltd. Vijay Shanthi Builders Ltd.
Plant capacity: 210 Lakhs Nos. /annumPlant & machinery: Rs. 719 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 1736 Lakhs
Return: 25.00%Break even: 56.00%
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Neutralization of Phospho-Gypsum - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost & Revenue

Phospho-gypsum is a by-product of the phosphoric acid industry and consists of 65-70 % gypsum, 25-30 % water and 5-10 % impurities, i.e. phosphoric acid and its salts, hydrofluoric acid and its compounds, R2O3 (Al2O3+ Fe2O3), quartz, apatite, alkali, organic matter, and others. The P2O5 and F impurities are found in three different forms in Phospho-gypsum compound: on the surface of gypsum crystals as water soluble compounds (H3PO4, Ca(H2PO4)2•H2O, H2SiF6), substituted in the lattice of gypsum crystals (effectively solid solutions of CaHPO4•2H2O, SrSO4 or Na2SiF6) and as insoluble compounds, i.e. apatite and quartz. These impurities, particularly hydrofluoric acid and its salts, contaminate an environment. Soluble phosphates {H3PO4 and Ca(H2PO4)2•H2O} and soluble fluorides had maximum influence on the fall of compressive strength of plaster. CaHPO4•2H2O had small influence, but with the present of Ca(OH)2 it had great influence on the plaster properties. The most impurities in Phospho-gypsum can be found in the particle size fractions above 160 and below 25 µm. There are more than few plants (those of Onoda in Japan, Giulinichemic GmbH , Knauf in Germany, etc.) where the impurities are eliminated by washing Phospho-gypsum with water or separating off coarse and very fine particles. Up to 4 m3 of water is necessary for 1 ton of Phospho-gypsum. The Phospho-gypsum mixtures are also eliminated by using a combined method when Phospho-gypsum is washed with a smaller amount of water, and the rest of the acid mixtures are neutralized by adding the following additives: Ca(OH)2, CaCO3, K2CO3, KOH, Portland cement, NH4OH, etc. The acid impurities are not fully eliminated from the Phospho-gypsum crystals. The insoluble phosphates {Ca3(PO4)2, Ca5(PO4)3OH} and fluorides (CaF2 andCaSiF6) did not influence the plaster properties. The objective of the work is to investigate the neutralization process of the acid impurities of dehydrate Phospho-gypsum into lime suspension. Market Survey Phosphoric acid production scenarios in India, there are 11 no. of phosphoric acid manufacturing units located in 7 States namely Andhra Pradesh, Gujarat, Kerala, Maharashtra, Orissa, Tamil Nadu and West Bengal. The total production of phosphoric acid is about 1.2 Million Tons during the year 2009-2010. The 3 Generation of Phospho-gypsum Phospho-gypsum is generated from filtration process in phosphoric acid plants where insoluble gypsum (and other material) are separated from the product i.e. phosphoric acid as efficiently as possible. Depending on the source of rock phosphate about 4.5 -5 Tons (dry basis) of Phospho-gypsum (by-product Phospho-gypsum) is generated per ton of phosphoric acid (as P2O5) recovered. The quality & quantity of Phospho-gypsum generation depends upon the quality of the phosphate rock, process route used to produce phosphoric acid, calcium sulphate generated either in di-hydrate (CaSO4.2H2O) or the hemi-hydrate (CaSO4.1/2 H2O) form. Phosphogypsum generation in the Country is about 11 Million Tons per annum (based on the assumption that 5 Tons of Phospho-gypsum generated per ton of phosphoric acid production). International practices of Phospho-gypsum management & handling Phosphogypsum contains three types of impurities that are considered to be potentially harmful such as residual acidity, fluorine compounds, trace elements including radioactivity.
Plant capacity: 600000 MT/annumPlant & machinery: Rs 1008 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 3114 Lakhs
Return: 36.00%Break even: 43.00%
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Packaged Drinking Water - 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

As the name implies, the mineral water is the purified water fortified with requisite amounts of minerals. It is either obtained from natural resources like spring and drilled wells or it is fortified artificially by blending and treating with mineral salts. Bottled water is the most dynamic market of all the food and beverage industry. Its major use is in five star Hotels and Hospitals where good quality pure water is required for potable purposes. It is marketed at places and regions where hygienic drinking water is not freely available. The foreigners consumed it in large quantity for drinking purpose. The total size of the bottled water market in India is estimated at Rs 20 bn. In bottled water market, the cost of entry and the cost of exit is low. One does not require much equipment to make bottled water. The bottled water market is growing at a rapid rate of around 20% a year. At this growth rate, the market is estimated to overtake the soft drinks market soon. Few Major Players are listed below: Ajay Enterprises Ltd. Akash Housing Ltd. [Merged] Aradhana Snack Foods Co. Bikaji Marketing Ltd. Bisleri International Pvt. Ltd. Durgapur Projects Ltd. G E I Foods Ltd. Golden Anchor Pvt. Ltd. Jagatjit Industries Ltd. Keventer Agro Ltd. Mohan Meakin Ltd. Mount Everest Mineral Water Ltd. N E P C Agro Foods Ltd. Nuway Organic Naturals India Ltd. Orient Beverages Ltd. Parle Bisleri Pvt. Ltd. [Merged] Parle International Pvt. Ltd. Pepsico India Holdings Pvt. Ltd. Pondicherry Agro Service & Inds. Corpn. Ltd. Rose Valley Inds. Ltd. Sparkle Foods Ltd. Sri Sarvaraya Sugars Ltd. Surat Beverages Ltd. Vaarad Ventures Ltd. Vijay Shanthi Builders Ltd.
Plant capacity: 3000000 Ltrs. /AnnumPlant & machinery: 24 Lakhs
Working capital: -T.C.I: Cost of Project: 112 Lakhs
Return: 24.00%Break even: 62.00%
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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. 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. Electronic wastes, e-waste, e-scrap, or Waste Electrical and Electronic Equipment (WEEE) are a description of surplus, obsolete, broken or discarded electrical or electronic devices. 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. So far the preliminary estimates by the National WEEE Taskforce suggest that total WEEE generation in India is approximately 1, 46,000 tons per year. This give rise to the demand of recycling plants to reuse/recycle the waste from electronics world.
Plant capacity: 2164500 kgs. /annumPlant & machinery: Rs. 233 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 500 Lakhs
Return: 22.91%Break even: 49.81%
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Neutralization of Phospho-Gypsum - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost & Revenue

Phospho-gypsum is a by-product of the phosphoric acid industry and consists of 65-70 % gypsum, 25-30 % water and 5-10 % impurities, i.e. phosphoric acid and its salts, hydrofluoric acid and its compounds. There are more than few plants (those of Onoda in Japan, Giulinichemic GmbH , Knauf in Germany, etc.) where the impurities are eliminated by washing Phospho-gypsum with water or separating off coarse and very fine particles. Phosphoric acid production scenarios in India, there are 11 no. of phosphoric acid manufacturing units located in 7 States namely Andhra Pradesh, Gujarat, Kerala, Maharashtra, Orissa, Tamil Nadu and West Bengal. Earlier, the total production of phosphoric acid is about 1.2 Million Tons. Phosphogypsum generation in the Country is about 11 Million Tons per annum (based on the assumption that 5 Tons of Phospho-gypsum generated per ton of phosphoric acid production).
Plant capacity: 600000 MT/annumPlant & machinery: Rs 1008 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 3114 Lakhs
Return: 36.89%Break even: 43.92%
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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

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. E-Waste Recycling Technology Used in India: Decontamination, Dismantling, Pulverization/ Hammering, Shredding, Density separation using water, E-waste trade value chain, Environmentally Sound E-waste Treatment Technology, CRT treatment technology. 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. New entrepreneurs can well venture in this sector.
Plant capacity: 2164500 Kgs /AnnumPlant & machinery: Rs. 233 Lakhs
Working capital: -T.C.I: Cost of Project : Rs. 526 Lakhs
Return: 28.00%Break even: 46.00%
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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

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. E-Waste Recycling Technology Used in India: Decontamination, Dismantling, Pulverization/ Hammering, Shredding, Density separation using water, E-waste trade value chain, Environmentally Sound E-waste Treatment Technology, CRT treatment technology. 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. New entrepreneurs can well venture in this sector.
Plant capacity: 2164500 Kgs /AnnumPlant & machinery: Rs. 233 Lakhs
Working capital: -T.C.I: Cost of Project : Rs. 526 Lakhs
Return: 28.00%Break even: 46.00%
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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

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. 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. Composition of e-waste is very diverse and differs in products across different categories. It contains more than 1000 different substances, which fall under “hazardous” and “non-hazardous” categories. Broadly, it consists of ferrous and non-ferrous metals, plastics, glass, wood & plywood, printed circuit boards, concrete and ceramics, rubber and other items. Iron and steel constitutes about 50% of the e-waste followed by plastics (21%), non-ferrous metals (13%) and other constituents. Non-ferrous metals consist of metals like copper, aluminium and precious metals ex. silver, gold, platinum, palladium etc. The presence of elements like lead, mercury, arsenic, cadmium, selenium, and hexavalent chromium and flame-retardants beyond threshold quantities in e-waste classifies them as hazardous waste. 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. As a whole E–Waste Recycling is a good project for entrepreneurs for investment.
Plant capacity: Monitor : 3000 Pcs. /annum,Plastic Dana: 1559 MT/annum,Copper Wire Scraps: 7.5 MT/annum,Glass from CRT : 105 MT/annum,Other Metals: 450 MT/annumPlant & machinery: Rs. 233 Lakhs
Working capital: -T.C.I: Cost of Project : Rs. 526 Lakhs
Return: 28.00%Break even: 46.00%
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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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