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Best Business Opportunities in Central African Republic- Identification and Selection of right Project, Thrust areas for Investment, Industry Startup and Entrepreneurship

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Good Future Prospects for E-WASTE RECYCLING PLANT (Electronic waste, e-waste, e-scrap, or Waste Electrical and Electronic Equipment (WEEE)) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey

Electronic waste, e-waste, e-scrap, or Waste Electrical and Electronic Equipment (WEEE) is a loose category of surplus, obsolete, broken, or discarded electrical or electronic devices. The processing of electronic waste in developing countries is causeing serious health and pollution problems due to lack of containment, as do unprotected landfilling (due to leaching) and incineration. The Basel Convention and regulation by the European Union and United States aim to reduce these problems. Reuse and recycling of these e-waste are promoted as alternatives to disposal as trash. There was unanimity that electronic waste containing substances like lead, cadmium, mercury, polyvinyl chloride (PVC) have immense potential to cause enormous harm to human health and environment, if not disposed properly since the exact prescriptions for its disposal and safeguard were inadequate. Thus, the imperative need for early formulation of a holistic E-waste legislation which will eventually lead to enabling policy. It was consequently agreed that such a policy must appropriately reflect the concerns of various stakeholders, besides the views of practitioners both in the organized and unorganized sector. European countries have taken a systematic step towards the handling disposal and recycling of e-waste. There are several plants established for this particular purpose where large amount of electronic waste are recycled using the best technologies. A new trend in recycling is reuse of these waste contents. Apart from these new technologies; screening, reuse, granulating, refining, conditioning are also important processes in recycling. Today, the electronic waste recycling business, in all areas of the developed world has become a large and rapidly consolidating business. The electronic waste processing systems have matured in recent years, following increased regulatory, public and commercial scrutiny, and with a commensurate increase in entrepreneurial interest. Part of this evolution have involved greater diversion of electronic waste from energy-intensive down cycling processes (e.g., conventional recycling), where equipment is reverted to a raw material form. This diversion is achieved through reuse and refurbishing. The environmental and social benefits of reuse include diminished demand for new products and virgin raw materials (with their own environmental issues), larger quantities of pure water and electricity for associated manufacturing, less packaging per unit, availability of technology to wider swaths of society due to greater affordability of products; and diminished use of landfills. Audiovisual components, televisions, VCRs, stereo equipment, mobile phones, other handheld devices, and computer components contain valuable elements and substances suitable for reclaimation, including lead, copper, and gold. Mostly employed in traditional e-waste disposal methods, this process refers to converting all the e-waste fractions into reusable components. Secondary raw materials are also extracted from these waste contents. Manual dismantling signifies process of electronic items and tools being dismantled in an orderly sequence. Once dismantling is done, manual sorting of different e waste is completed in separate categories like metals, batteries, printed wiring boards, plastics, woods, cathode ray tubes, condensers, LCDs and cables etc. These different elements are then processed through refining and conditioning steps. There is an estimate that the total obsolete computers originating from government offices, business houses, industries and household is of the order of 2 million . Manufactures and assemblers in a single calendar year, estimated to produce around 1200 tons of electronic scrap. It should be noted that obsolence rate of personal computers (PC) is one in every two years. The consumers finds it convenient to buy a new computer rather than upgrade the old one due to the changing configuration, technology and the attractive offers of the manufacturers. Due to the lack of governmental legislations on e-waste, standards for disposal, proper mechanism for handling these toxic hi-tech products, mostly end up in landfills or partly recycled in a unhygienic conditions and partly thrown into waste streams. Computer waste is generated from the individual households, government, both public and private sectors, computer retailers, manufacturers, foreign embassies, secondary markets of old PCs.etc. Of these, the biggest source of PC scrap are foreign countries that export huge computer waste in the form of reusable components. With the extensive use of computers and electronic equipments, people are dumping old electronic goods for new ones, the amount of E-Waste generated has been steadily increasing. At present Bangalore alone generates about 8000 tonnes of computer waste annually and in the absence of proper disposal, they find their way to scrap dealers. Electronic waste or e-waste is one of the rapidly growing environmental problems of the world. In India, the electronic waste management assumes greater significance not only due to the generation of our own waste but also dumping of e-waste i.e computer waste from the developed countries. The scope for e-waste recycling project is very good. New entrepreneurs venturing into this field will be successful
Plant capacity: Monitor -10 Pcs/Day, Plastic Granules – 5.33 M.T/Day, Copper Wire Scrap-9 Kg/day, Glass Scrap from C.R.T-270 Kg/Day,Other Metals-800 Kg/DayPlant & machinery: 51 Lakhs
Working capital: -T.C.I: 196 Lakhs
Return: 47.00%Break even: 40.00%
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PACKAGED DRINKING WATER, SODA WATER AND PET BOTTLES - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study,Cost of Project

Bottled water industry, colloquially called, the mineral water industry, is a symbol of new life style 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 phenomenal increase in demand for bottled water from just 2.0 mn cases in 1990-91 to 68 mn cases presently was being boosted further by the concern and need for safe drinking water. What is amazing is that people are prepared to pay Rs 10 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. 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 Rs 7000 mn per year market is estimated to overtake the soft drinks market soon. Multinationals, Coca-Cola, Pepsi, Nestle and others are trying to grab a significant share of the market. There are more than 180 brands in the unorganised 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. This points to the future potential beyond the high growth. The premium bottled water market in India has brands like Evian, San Pelligrino, Perrier, priced between Rs 80 and Rs 110 per litre. The other segment is essentially purified water priced low at about Rs 10 a litre. It is crowded with numerous brands like Bisleri, Kinley, Aquafina, Himalaya, Hello. The government decided towards end of the year 2000 to bring about stringent guidelines for packaged water. All companies were made to sell their products only under the BIS (Bureau of Industrial Standards) certification mark. The BIS certification was made mandatory for the segment from April 1, 2001. The bottled water is to be classified as "food" and has been brought under the Prevention of Food Adulteration Act. They would have to adhere to rules pertaining to colour, odour, taste, turbidity, total dissolved solids and aerobic microbial count. Soda water is nothing but mixture of purged carbon dioxide at above atmospheric pressure in certain packaged material. It may be PET or glass bottle. Introduction of PET bottle is modern plastic packaging material. It is eco-plastic which can be converted to clay. All the three projects in a single unit have good scope. Leading Brands Bailley, Bisleri, Peppy Minerelli, Trupthi, Kristal, Oasis, Yes, Penguin, Golden Eagle, Stream, Kingfisher, Jaldhara, Pondicherry, Himalayan, Golden Valley Stream, Evion, Aquafina, Perrier, Kinley, Pure Life, Ferra, Relle. Few Indian Major Players are as under: Bikaji Marketing Ltd. Bisil Plast Ltd. Bisleri (India) Pvt. Ltd. Haldiram Marketing Pvt. Ltd. Keventer Agro Ltd. Kothari Products Ltd. Mohan Meakin Ltd. Mount Everest Mineral Water Ltd. N E P C Agro Foods Ltd. Orient Beverages Ltd. Parle International Pvt. Ltd. Pepsico India Holdings Pvt. Ltd. Pondicherry Agro Service & Inds. Corpn. Ltd. S & S Industries & Enterprises Ltd. Southern Agrifurane Inds. Ltd. Sparkle Foods Ltd. Sri Sarvaraya Sugars Ltd. Surat Beverages Ltd. Capacity : 17280 Th. Nos Bottles 1 Ltrs Cap. Drinking Water 10080 Th. Nos. Bottles 600 Ml. Soda Water 720 Th. Nos. PET Jar 20 Ltrs. Drinking Water
Plant capacity: -Plant & machinery: 403 Lakhs
Working capital: -T.C.I: Cost of Project : 695 Lakhs
Return: 44.00%Break even: 60.00%
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FERRO ALLOYS-FERRO MANGANESE, SILICO MANGANESE, FERRO SILICON BASED ON ALUMINOTHERMIC PROCESS - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials

The primary objective of the study is to review the technological status of ferroalloys industry in the country in the area of bulk production of silicon. Bulk ferro alloys include ferro manganese, ferrosilicon etc. Manganese is used in metallurgical Industries in the form of ferro-manganese. Ferro-manganese contains about 80% Mn and 20% Fe. Generally ferro-manganese is produced in blast furnace or an electric furnace. There are no rigid ore-requirements for ferro-manganese produced in the blast furnaces. The high carbon ferromanganese is the most important grade of ferromanganese, which is produced by carbothermic reduction of high-grade Mn ores, and low iron content. Ferromanganese is used to add manganese in steel equivalent to 200 series stainless steel. Silicon manganese is produced by carbothermic reduction of Mn slag & quartzite. It should be noted that the derived level of phosphorus content in the ferromanganese is 0.35% max. Silico-manganese is used as a blocking agent to prevent the reaction of carbon & oxygen in steel. The most important consideration in the development of a satisfactory aluminothermic reaction is that the self-propagating reaction which occurs throughout the charge, consisting of an intimately mixed and finely divided mixture of aluminium powder and the metal oxide, shall produce enough heat to melt the products of reaction and to allow separation of the metal and the slag. The commercial development of the aluminothermic process was due largely to the work of H. Goldchmidt. The reaction is generally highly exothermic and the risk of explosion, therefore, sometimes considerable. Gold Schmidt developed satisfactory techniques for its control on a production basis. The excellent account of a modern aluminothermic plant has been given by them who list very fully the consideration, which leads to successful application of the process. The Ferro Alloy Industry was identified by DSIR (Department of Scientific And Industrial Research) as one of the best sectors. This industry has already completed three decades of existence. This is principal alloying agent used in steel manufacturing, steel iron casting etc. where it also acts as a strengthener & deoxidiser. Ferro Alloys are important materials required for the country’s steel production. So, there is good scope for new entrants in this field. Domestic ferro alloy industry is not able to meet the steel industry expectation in spite of having enough capacity to manufacture ferro alloys. According to the data published by Indian Ferro Alloys Producers' Association (IFAPA), capacity utilisation of the ferro alloy industry is only 65 percent for the manganese and chrome alloys. Both the manganese and chrome alloy manufacturers are starved for the basic raw material - the ores. In India, there are 133 companies producing ferro alloys in bulk with 252 furnaces. Most of the companies are manufacturing either manganese or chrome alloys. Few manufacturers concentrate on production of ferro silicon and the rest produce noble ferro alloys such as ferro vanadium, ferro molybdenum and other variants. Few Indian Major Players are as under: Aar Kay Steel Products Ltd. Aarti Steels Ltd. Adhunik Metaliks Ltd. Alok Ferro Alloys Ltd. Andhra Ferro Alloys Ltd. Anjaney Ferro Alloys Ltd. Baheti Metal & Ferro Alloys Ltd. Balasore Alloys Ltd. Baroda Ferro Alloys & Inds. Ltd. Castron Technologies Ltd. Century Plyboards (India) Ltd. Corporate Ispat Alloys Ltd. Dandeli Ferro Pvt. Ltd. Dinar Diamonds Ltd. Essel Mining & Inds. Ltd. Facor Alloys Ltd. Ferro Alloys Corpn. Ltd. G M R Ferro Alloys & Inds. Ltd. Gitanjali Exports Corporation Ltd. Gitanjali Gems Ltd. Godawari Power & Ispat Ltd. Haldia Steels Ltd. Hi-Tech Electrothermics & Hydro Power Ltd. Hindustan Ferro & Inds. Ltd. Hindusthan Malleable & Forgings Ltd. Hira Ferro Alloys Ltd. Impex Ferro Tech Ltd. India Thermit Corpn. Ltd. Indian Metals & Ferro Alloys Ltd. J S L Ltd. Jai Balaji Inds. Ltd. Jalan Forgings Ltd. Jeypore Sugar Co. Ltd. Kamdhenu Ispat Ltd. Karthik Alloys Ltd. Kemstar Metals Ltd. Kinjal Metals Ltd. Maharashtra Elektrosmelt Ltd. Maithan Alloys Ltd. Manganese Ore (India) Ltd. Marmagoa Steel Ltd. Minex Metallurgical Co. Pvt. Ltd. Monnet Ispat & Energy Ltd. Nagpur Power & Inds. Ltd. Natural Sugar & Allied Inds. Ltd. Nava Bharat Ventures Ltd. Orde Industries Ltd. Palco Metals Ltd. Parekh Platinum Ltd. Rajesh Exports Ltd. S A L Steel Ltd. Sarda Energy & Minerals Ltd. Sharp Ferro Alloys Ltd. Shri Girija Smelters Ltd. Shyam Ferro Alloys Ltd. Siddharth Ormet Ltd. Silcal Metallurgic Ltd. Snam Alloys Ltd. Sova Ispat Alloys Ltd. Srinivasa Ferro Alloys Ltd. Tata Steel Ltd. Tecil Chemicals & Hydro Power Ltd. Universal Ferro & Allied Chemicals Ltd. V B C Ferro Alloys Ltd. V B C Industries Ltd. Valley Abrasives Ltd. Visa Steel Ltd.
Plant capacity: 12 MT/Day, Ferro Manganese –6 MT/Day, Silico Manganese 3 MT/Day, Ferro Silicon 3 MT/DayPlant & machinery: 75 Lakhs
Working capital: -T.C.I: Cost of Project : 242 Lakhs
Return: 36.00%Break even: 79.00%
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REDUCTION OF MANGANESE DIOXIDE TO MANGANESE OXIDE 42% (BY ROTARY KILN) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study

Manganese dioxide is the inorganic compound with the formula Mno2. This blackish or brown solid occurs naturally as the mineral pyrolusite, which is the main ore of manganese. It is also present in manganese nodules. It is used extensively as an oxidizing agent in organic synthesis for the oxidation of dlylic alcohols. Manganese oxide is the chemical compound with formula Mno. It occurs in nature as the rare mineral manganosite. It is a generic term used to describe a variety of manganese oxide and hydroxides. The rotary kiln is basically a rotating inclined cylinder. Solids retention time in the kiln is an important design factor and is set by proper selection of the diameter, length, speed, slope and internals design. There are two basic types of rotary kilns; direct fired and indirect fired, both direct fired and indirect fired rotary kilns for a wide variety of applications. Direct fired rotary kiln has the combustion gases going through the kiln or dryer. The combustion can either take place in a combustion chamber or the flame can be directed down the length of the rotary kiln. Rotary kilns can operate in either the co-current mode where the gases and solids move in the same direction or in the counter current mode where they move in opposite directions. The kiln can also be operated in either the reduction or oxidation mode. Indirect fired rotary kiln the combustion or other form of heating takes place on the outside of the rotary kiln shell. This way, the material being processed does not come into contact with the combustion gases. Rotary kilns are used to heat solids to the point where a required chemical reaction take place. The demand growth of manganese oxide 42% is increasing day by day. New entrepreneurs can well venture into this field.
Plant capacity: 6000 MT/AnnumPlant & machinery: 127 Lakhs
Working capital: -T.C.I: Cost of Project : 678 Lakhs
Return: 43.00%Break even: 42.00%
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HIGH CARBON FERRO MANGANESE - 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

Ferroalloys are alloys with iron employed to add chemical elements into molten metal, usually during steelmaking. Ferroalloys impart distinctive qualities to steel and cast iron or serve important functions during production and are, therefore, closely associated with the iron and steel industry, the leading consumer of its products. Ferroalloys are master alloys containing iron and one or more non-ferrous metals as alloying elements. The ferroalloys are usually classified in two groups: bulk ferroalloys (produced in large quantities in electric arc furnaces), and special ferroalloys (produced in smaller quantities, but with growing importance). Bulk ferroalloys are used in steel making and steel or iron foundries exclusively, while the use of special ferroalloys is far more varied. Manganese is used in metallurgical industries in the form of ferro-manganese. Ferro-manganese contains about 80% Mn and 20% Fe. Generally ferro-manganese is produced in blast furnace or an electric furnace. There are no rigid ore-requirements for ferro-manganese produced in a blast furnace. Generally a mixture of different ores, proportional to meet the specification of the final alloy, is used. Two manganese ferroalloys, ferromanganese and silico manganese, are a key ingredient for steelmaking. The high carbon ferromanganese (7.5 % C, 74 -80 % Mn & balance Fe) is the most important grade of ferromanganese, which is produced by carbothermic reduction of high grade Mn-ores (47 - 50% Mn) and a low iron content (6% Fe). The ore should also have low silica (1%) and low phosphorus (0.14 - 0.18 % P). The ore is smelted in an electric furnace with 15 - 20 % coke weight & suitable flux (lime). The modern electric furnace route of ferro-manganese production gives 85 - 90% manganese recovery, MnO dust recycling is possible and a high degree of homogenization, slag control and furnace scabbing is practiced. Percentage of carbon present in Ferro Manganese alloys is of primary importance for steel production. Ferromanganese is widely used in the manufacture of tool steels (upto 0.4% Mn) and structural steel (upto 0.6% Mn) and also of special steels with a high manganese content (upto 12-14% Mn), as well as an alloying addition. Electrolytic high purity ferromanganese finds an increasing use in metallurgical industry as an allowing element and as a deoxidizing agent. Manganese is mostly used in steel production. Total manganese consumption by the steel industry is projected to grow at a CAR of 3.1% over the forecast period 2001-2011. More than 80% of manganese produced across the world is consumed by steel. Therefore, manganese consumption is mainly based on steel demand and is directly influenced by the steel industry. Over the past three years, as steel has witnessed an increase both in production and demand, manganese consumption has also increased simultaneously. The demand for steel has been rising due to ongoing economic boom leading to rapid growth in various industries in the world's two largest populous countries in Asia-Pacific, China and India, with simultaneous increase in production leading to wide fluctuations is steel prices. Other countries in Asia-Pacific such as Japan, South Korea, and Taiwan; Middle East, Eastern Europe, and Latin America have witnessed an increase in steel consumption. Indian ferro alloy sector has a capacity of 3.64 million tonnes. This is sufficient to take to produce more than 150 million tonnes of steel. As against this, the Indian finished steel production was only 59.02 million tonne, though there are plans to scale the steel capacity to 124.06 million tonne by 2011-12 and to about 293 million tonne by 2020. So, the Ferro alloy industry is suffering gross under utilization of capacity, and may remain so in the short to medium term. India produced 1.08 million tons (million) of manganese alloys in 2006-07 according to the IFAPA. Around 2.5 million tons of manganese ore was required for producing this ore. But as the domestic steel industry is trying hard to increase its finished steel production from 48 million in 2006-07 to 60 million by 2010, manganese ore demand and supply gap is predicted by analysts to touch 0.5 million. This shortfall is likely to be met through imports. Domestic manganese ore required for manufacturing high carbon ferromanganese is mainly obtained from Orissa Mining Corporation (OMC), Manganese Ore India Limited (MOIL) and Rungta Mines. India's ferro alloy producers include Nav Bharat Ventures, Ferro alloys corporation, Balasore alloys, Indian metals & Ferro alloys, Sri Vasavi Industries, Tata Steel (Ferro alloys & mineral division), Shyam ferro alloys, Sarda Energy & Minerals, S.A.L. Steel, Jindal Stainless, Rohit Ferro tech. Visa Steel, etc. The huge steel demand from construction, automobile and machinery building sectors due to a growing urbanization and infrastructure, and proper capacity utilization will lead the ferro Alloys Industry to a bright future in the coming years.
Plant capacity: 15000 MT/AnnumPlant & machinery: 1032 Lakhs
Working capital: -T.C.I: Cost of Project : 2319 Lakhs
Return: 42.00%Break even: 67.00%
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WOODEN FURNITURE - 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

Wooden furniture is used for articles of daily use in dwelling house, place of business, public buildings and includes items such as chairs, tables, beds, safes, sofa sets, almirahs, cabinets, etc. are made of wood. The furniture making is an ancient art in India before centuries, the expertise of India in manufacturing furniture was accepted by all the parts of the world. A good finishing and durability of wood furniture is depend on four factors i.e. types of wood, seasoned wood, skill of carpenter, and machine operation. Also for super finishing and long life of wood furniture is depending on polishing material, and process of coating. Wood furniture industry establishment include cottage units, and medium and large sized factories. Industry on wooden furniture is enjoys good market. Wooden furniture gives an impression of art and Indian culture. Also it gives a good margin from its by-products. In India the modern sector of small, large-scale manufacturer have played a significant role in the socio-economic development of the country. Blessed with immense stock of natural resources, forest is one of the important natural assets in India. The fast emerging concept of standard lifestyle, interior designing, sense of cleanliness, comfort and architecture has given furniture Industry an essential ever growing platform and thus empowering the industry to be termed as great manufacturers and exporters of grand quality furniture in terms of art, style, technology and beauty. And of course, globalization and media are also strong factors to give rise to the industry. The strongest factor for this upraise is the huge investment done by the foreign manufacturers and the credit definitely goes to versatile range of products by the industry. The marked development of the industry has enhanced the leading foreign brands to budget in their confidence and money in Indian Furniture Industry. The world market now feels pleasure and confident to join hands with Indian Furniture brands, to name few are Godrej & Boyce Manufacturing Co. Ltd., Furniture wala, Zuari, Yantra, Renaissance, N R Jasani & Company, Furniture Concepts, Durian, Kian, Millennium Lifestyles, Truzo, PSL Modular Furniture, BP Ergo, Tangent, Featherlite and Haworth and much more to add to the growth of the industry. Accordingly per capita consumption of wooden furniture was calculated and then it has been appreciated by the estimated per capita consumption of wooden furniture for the future years as well as by the estimated increase in population. If good marketing organization is set up than with higher penetration in the market of other types of furniture, demand will increase to a higher level than anticipated here. There is a lot of potential in this sector.
Plant capacity: 7500 Pcs./AnnumPlant & machinery: 13 Lakhs
Working capital: -T.C.I: 118 Lakhs
Return: 46.00%Break even: 38.00%
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BICYCLE TUBES AND MOTORCYCLE TUBES - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Bicycle and motorcycle tubes are the backbone of the bicycle and motorcycle industries. Few numbers of companies in the organized sectors are engaged in the quality grade cycles tyres and tubes and few unorganized sector are also engaged in manufacturing bicycle tyre and tubes. An inner tube is basically a doughnut-shaped balloon, with a valve for inflation. The only requirement for an inner tube is that it should not leak. Being rubber, they have no rigid structure. If an inner tube is inflated outside of a tire, it will expand to 2 or 3 times its nominal size, if it doesn't explode first. Without being surrounded by a tire, an inner tube can't withstand any significant air pressure. Most of the basic raw materials are indigenously available but there is short supply of natural rubber and butyl rubber, it is required to import. Basic technology is also indigenously available in India. Plants and machineries are indigenously available. The market for tubes for bicycle and motorcycle is directly related to the demand for bicycle and motorcycle. Every bicycle and motorcycle manufactured will need a tube for its tire. So an analysis of bicycle and motorcycle production will provide a clear picture of demand for tubes. With a production of about 4.5 million vehicles in 2001-02 and over 8.5 million vehicles now, India is the second largest producer of 2-wheelers worldwide, which includes motorcycles, scooters and mopeds. There has been a steady growth in the demand for motorcycles in India. It has become a youth icon, particularly among the urban youth charged by speed and style which motorcycles impart to their personality. The motorcycles overtook scooters in 1998-99 and have not looked back. The scenario for 2006-07 conformed to the sustained performance in the recent past with sales at over 7 million, higher by over 16.5% on the preceding year's sales. In 2008-09 (first 8 months) sales at 2.85 million were higher by 14.5% than in the comparable period of 2007-08. The total market of motorcycles was estimated at Rs 220 billion in 2007-08, a decline of 5% over that of preceding year. The growing demand of 2/3 wheelers and bicycle will definitely give rise to high demand of tubes in the coming years. There is a good market potential and good scope for all new entrepreneurs to venture into this sector. Few Indian Major Players are as under: Atlas Cycles (Haryana) Ltd. Avon Cycles Ltd. Dewan Steels Ltd. Hero Cycles Ltd. National Bicycle Corpn. Of India Ltd.
Plant capacity: 300000 Nos. Bicycle Tubes, 300000 Nos. Motorcycle TubesPlant & machinery: 105 Lakhs
Working capital: -T.C.I: Cost of Project : 240 Lakhs
Return: 43.00%Break even: 50.00%
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PAPER NAPKINS, TOILET ROLL & FACIAL PAPER FROM TISSUE PAPER ROLLS - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study

Hygiene is an essential component of healthy living, integral to achieving health and preventing disease. Not just selecting the right food choices but also cooking & consuming them in a hygienic way is equally important in preventing the infectious diseases. Adopting hygienic practices and promoting hygiene in the community, schools and workplace prevents innumerable infectious disease. The hygiene-related products are an important part of our daily life. These products promote a hygienic lifestyle. These include automatic deodorizers, tissue paper, eco friendly tissues and towels, disinfectant and sanitizers. The major hygiene products tissues include facial tissues, toilet rolls, napkins and serviettes, kitchen towels, cleaning solutions, hand sanitizer, wet wipes, liquid hand wash etc. In a modern age people are more prone to sophisticated mode of maintaining health and hygiene conditions of their body through the contiguous of cosmetics and their allied measure. This is an elegantly achieved by the application of wet face freshener tissue. This is very economical item and portable .It can be easily carried in pocket while going in a car, rail, and flight. Tissue paper is often used for direct inside part wrapping as in jewellery, liquor, fruit and florist trade, various other tissue papers are used for specific purpose. Napkins are manufactured from tissue paper are becoming popular with catering industry due to its manifold uses. These are absorbent, hygienic, and light and can be held with attractive printing. There are many kinds of raw material which can be used in the production of tissue paper such as wood pulp or sorted waste paper, cellulose pulp from straw, linen, cotton & rags, jute etc. Facial tissue paper through recently introduced in Indian market is fast becoming popular with the public. The following brief utility of paper napkin obtained from tissue paper may be enumerated. The potential for growth in the personal care hygiene sector is huge. The Indian Economy is surging ahead by leaps and bounds, keeping pace with rapid urbanization, increased literacy levels, and rising per capita income are some of the key social drivers thus giving a strong signal to the possibility of Indian personal care industry realizing its huge potential in the near future. Now-a-days the demand of tissue paper is increasing day by day, so there is wide scope for new entrepreneurs to venture into this project.
Plant capacity: 3000 MT/Annum, 6 MT Paper Napkins, 2 MT Toilet Rolls, 2 MT Facial PaperPlant & machinery: 41 Lakhs
Working capital: -T.C.I: 923 Lakhs
Return: 49.00%Break even: 25.00%
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PACKAGED DRINKING WATER AND PET BOTTLES - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Bottled Water means water intended for human consumption and which is sealed in bottles and other containers with no added ingredients except that it may occasionally contain safe anti-microbial agent. Now-a-days safe and pure drinking water is major necessity for human being. Bottled water industry, colloquially called, the mineral water industry, is a symbol of new life style 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. Pet is the most extensively recycled plastic of the present time. Bottled water is available in differently sized packaging from 200 ml (popular on flights) to 500 ml (a huge hit among the youth) to 1 liter and 2 liter. Despite the large number of small producers, this industry is dominated by the big players Parle, Bisleri, Coca-cola, Pepsico, Parle Agro, Mohan Meakins, SKN Breweries bottled water in the country when it introduced besleri in India 25 years ago. Apart from domestic and commercial use of packaged water, the Indian Railways is a huge potential market. According to officials at cherio, the railway ordered 10,000 cases (of 12 bottles each) a day. In coming years the demand of packaged drinking water will be increased very rapidly, so there is a huge scope for new entrepreneurs to venture into this project. 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 Rs 7000 million per year market is estimated to overtake the soft drinks market soon. Multinationals, Coca-Cola, Pepsi, Nestle and others are trying to grab a significant share of the market. There are more than 180 brands in the unorganized sector. The small players account for nearly 19% of the total market. The government decided towards end of the year 2000 to bring about stringent guidelines for packaged water. All companies were made to sell their products only under the BIS (Bureau of Industrial Standards) certification mark. The BIS certification was made mandatory for the segment from April 1, 2001. The bottled water is to be classified as "food" and has been brought under the Prevention of Food Adulteration Act. They would have to adhere to rules pertaining to colour, odour, taste, turbidity, total dissolved solids and aerobic microbial count. Leading Brands Bailley, Bisleri, Peppy Minerelli, Trupthi, Kristal, Oasis, Yes, Penguin, Golden Eagle, Stream, Kingfisher, Jaldhara, Pondicherry, Himalayan, Golden Valley Stream, Evion, Aquafina, Perrier, Kinley, Pure Life, Ferra, Relle. Few Indian Major Players are as under: Bikaji Marketing Ltd. Bisil Plast Ltd. Bisleri (India) Pvt. Ltd. Haldiram Marketing Pvt. Ltd. Keventer Agro Ltd. Kothari Products Ltd. Mohan Meakin Ltd. Mount Everest Mineral Water Ltd. N E P C Agro Foods Ltd. Orient Beverages Ltd. Parle International Pvt. Ltd. Pepsico India Holdings Pvt. Ltd. Pondicherry Agro Service & Inds. Corpn. Ltd. S & S Industries & Enterprises Ltd. Southern Agrifurane Inds. Ltd. Sparkle Foods Ltd.
Plant capacity: 6,00,00,000 Bottles/AnnumPlant & machinery: 217 Lakhs
Working capital: -T.C.I: Cost of Project : 455 Lakhs
Return: 45.00%Break even: 60.00%
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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 waste, e-waste, e-scrap, or Waste Electrical and Electronic Equipment (WEEE) is a loose category of surplus, obsolete, broken, or discarded electrical or electronic devices. The processing of electronic waste in developing countries is causing serious health and pollution problems due to lack of containment, as do unprotected land filling (due to leaching) and incineration. The Basel Convention and regulation by the European Union and United States aim to reduce these problems. Reuse and recycling of this e-waste are promoted as alternatives to disposal as trash. There are several plants established for this particular purpose where large amount of electronic waste are recycled using the best technologies. A new trend in recycling is reuse of these waste contents. Apart from these new technologies; screening, reuse, granulating, refining, conditioning are also important processes in recycling. There is an estimate that the total obsolete computers originating from government offices, business houses, industries and household is of the order of 2 million. Manufactures and assemblers in a single calendar year, estimated to produce around 1200 tons of electronic scrap. It should be noted that obsolesce rate of personal computers (PC) is one in every two years. The consumers find it convenient to buy a new computer rather than upgrade the old one due to the changing configuration, technology and the attractive offers of the manufacturers. Due to the lack of governmental legislations on e-waste, standards for disposal, proper mechanism for handling these toxic hi-tech products, mostly end up in landfills or partly recycled in a unhygienic conditions and partly thrown into waste streams. Computer waste is generated from the individual households, government, both public and private sectors, computer retailers, manufacturers, foreign embassies, secondary markets of old PCs.etc. Of these, the biggest source of PC scrap is foreign countries that export huge computer waste in the form of reusable components. The scope for e-waste recycling project is very good. New entrepreneurs’ venturing into this field will be successful. Cost Estimation: Capacity : Monitor 10 Pcs. Per Day. Plastic Dana 5.33 MT Per Day E-Waste Recycling Plant Copper Wire Scrap 9 Kgs/Day Glass Scrap From Crt 270 Kgs/Day Other Metal 800 Kgs Per Day
Plant capacity: -Plant & machinery: 51 Lakhs
Working capital: -T.C.I: 196 Lakhs (W/C 1 Month)
Return: 47.00%Break even: 40.00%
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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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