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Investment Opportunities & Business Ideas in Ethiopia, East Africa - Identification and Selection of right Project, Thrust areas for Investment, Industry Startup and Entrepreneurship Projects

We can provide you detailed project reports on the following topics. Please select the projects of your interests.

Each detailed project reports cover all the aspects of business, from analysing the market, confirming availability of various necessities such as plant & machinery, raw materials to forecasting the financial requirements. The scope of the report includes assessing market potential, negotiating with collaborators, investment decision making, corporate diversification planning etc. in a very planned manner by formulating detailed manufacturing techniques and forecasting financial aspects by estimating the cost of raw material, formulating the cash flow statement, projecting the balance sheet etc.

We also offer self-contained Pre-Investment and Pre-Feasibility Studies, Market Surveys and Studies, Preparation of Techno-Economic Feasibility Reports, Identification and Selection of Plant and Machinery, Manufacturing Process and or Equipment required, General Guidance, Technical and Commercial Counseling for setting up new industrial projects on the following topics.

Many of the engineers, project consultant & industrial consultancy firms in India and worldwide use our project reports as one of the input in doing their analysis.

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.

Page 63 of 299 | Total 2990 projects in this category
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JUTE GARMENTS - 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 Economics

Jute, the golden fibre has gained immense popularity around the globe because of its bio-degradable character. It is a natural vegetable fibre which merges with soil and does not emit toxic fumes or residue on combustion. India is a major jute producing country and it produces more than 40% of entire world's production. Jute fibre is a natural fibre. It has large use in the jute mill to produce variety of products like jute bags, jute carpets, jute blankets, jute fibre base woollen blankets etc. It has very good demand in our indigenous market as well as has very good export demand. Technologists are available in India to design and fabricate the proper plant and machineries. It require specific spinning machine for the spinning of the jute garments. The Indian textile industry is predominantly catered to the huge domestic market as out of total trade. Cotton is the major fibre produced in the world in spite of the presence of variety of fibres. India ranks third in the world in cotton production and the volume account for around 13% of total. The global textile industry is going through dramatic technological changes during the last decades which ensured increase in yield and quality of fabrics, together with reduction in expenses and labour. A new entrepreneur can well venture into this field.
Plant capacity: 1000 pcs. / Day Plant & machinery: 99 Lakhs
Working capital: -T.C.I: 3 Crores
Return: 41.00%Break even: 45.00%
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Transmission Tower & Tele Communication Tower with Galvanizing Plant - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study

The purpose of a transmission line tower is to support conductors carrying electrical power and one or two ground wires at suitable distances above the ground level and from each other. A transmission line tower is a space-frame and high order indeterminate structure. Its cost is influenced by its weight. Reliability of a transmission structure depends not only upon its design, but also on the development of structural arrangement, detailing of connections, uniformity of quality of structural sections, accurate fabrication, erection in the field and ultimately maintenance. Transmission lines are subjected to various loads during their lifetime. These loads are classified into climatic loads, failure containment loads and construction and maintenance loads. Proper fabrication while maintaining permissible tolerance, galvanizing and testing of towers are very essential. An economical foundation design and proper erection techniques are also very vital for the safety of the tower. The demand is growing for mobile telephony towers. There is an increasing demand for telecom towers in rural/semi-urban areas as the penetration is still very low. The demand for telecom towers is also a function of steadily growing subscriber base and higher usage time of subscribers. India would have an estimated 42.5 crore mobile subscribers by 2010, creating a demand for 4.5 lakh base transmission stations, with major demand coming from rural areas. There is a good scope for new entrants.
Plant capacity: 24,000 MT /YearPlant & machinery: 149 Lakhs
Working capital: -T.C.I: Cost of Project : 716 Lakhs
Return: 46.00%Break even: 53.00%
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INSULATING VARNISH - 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

The primary function of a varnish is to protect and or decorate the surface to which it is applied. An important use of varnishes is in electric insulation where protection against electrical streams is the primary requirement. Such varnishes are termed as Insulating Varnishes. Main use of insulating varnish is for underground material like earth cables and exposed strong current. These are anti corrosive paints, which are also used in some industrial fields like for pipelines, boilers, vessels etc. All the fine grades of insulating varnishes are suitable for application to the electrical windings and other parts of motors, generators and transformers. A good insulating varnish is of prime importance in the construction of electrical equipment, the life and performance, which depends to a great extent on the efficiency of the total insulation. There is a good scope for new entrants.
Plant capacity: 2000 Kgs. / DayPlant & machinery: 17 Lakhs
Working capital: -T.C.I: 2 Crores
Return: 52.00%Break even: 37.00%
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PRESERVATIVE FREE JAM (Fruit Spreads) & Organic Jam Making - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study

There has been considerable increase in the consumption of fruits and vegetables juice beverages in the world during the last few years. Fruit juice beverages are considered more as occasional drinks in our country. Bottled squashes, nectars and other forms of fruit based beverages are looked upon as an expensive indulgence. Food preservation broadly involves methods of preparing food so that it can be stored for future use. The export of processed products such as fruit based beverages, jam, jelly, pickles etc. has increased substantially during the few years. Fast growth in processing sector is expected to occur in both developing and developed countries. The beverage industry is growing at a faster rate during last two decades. More and more new health foods including beverages are entering in the market. There is a good scope for new entrants.
Plant capacity: 2000 Kgs. / DayPlant & machinery: 18 Lakhs
Working capital: -T.C.I: 2 Crores
Return: 74.00%Break even: 29.00%
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THERMOCOLE (EPS) CUP, GLASS & PLATES - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Thermocole or expanded polystyrene as the name suggests, is polystyrene expanded to more than two times the volume of polystyrene. Polystyrene foam is an excellent packaging material because of combination of various properties such as lightness, rigidity, shock absorption, thermal insulation, resistance to moisture, snow white colour etc. Thermal insulation and packaging are the main end uses. It can be made in two types normal and self extinguishing. These days it is available in the form of ice buckets in various shape designs and colours. Presently there are 35 processing units located in various parts of the country. The end use of thermocole is very much interesting, because it is mostly used in packaging. Due to the increase of electronic industries, pharmaceutical industries, the demand of thermocole is also increasing, so the unit has very good future scope.
Plant capacity: 210 Kgs. / DayPlant & machinery: -
Working capital: -T.C.I: -
Return: 56.00%Break even: 36.00%
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POTATO STARCH - 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 Economics

Potato is widely consumed as food all over the world. It contains the starch as major carbohydrates. The potato contains approximately 18-21% of carbohydrates. The major carbohydrate is starch. Potato starch is produced from varieties selected and grown for their high starch, low protein and low fibre contains. Potato starch is used in paper manufacture for beater, sizing, tub sizing calendar sizing and surface coating. It is also used in the textile industry in the sizing of cotton, worsted and spun rayon warps. Much of the potato starch utilized in the food industry is used in bakers speciality items. Starch is produced in India both in the medium scale sector as well as in the small scale sector. The looking its uses there is a good scope for new entrants.
Plant capacity: -Plant & machinery: 1
Working capital: N/AT.C.I: -
Return: 1.00%Break even: N/A
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H.D.P.E. WOVEN SACKS - 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

Woven sacks as a packaging medium is well established for bulk storing / transportation of dry products like grains, pulses, cereals, flour, sugar and cement. The most common material used for making of sacks is jute but cotton is also used to some extent. Different countries use different materials for woven sacks. In certain countries, high density polyethylene woven sacks are used. Where as, in some countries polypropylene woven sacks are more popular. Basically, this depends on the availability and the price of material. There are maximum use of HDPE woven sacks in the fertilizer industry and cement industry, also partly used by chemical industry. In India fertilizer industries growth 2–5% and cement industries growth is also about 5%. In coming years the production of fertilizer and cement will be increased. On that base it can be concluded that the demand growth of HDPE woven sacks will be increased. New entrepreneurs can well venture into this field.
Plant capacity: 60,00,000 Nos. / AnnumPlant & machinery: 66 Lakhs
Working capital: -T.C.I: Cost of Project : 131 Lakhs
Return: 25.00%Break even: 54.00%
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CORRUGATED SHEET BOARD & BOXES PLANT - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Paper based materials used for packaging include bleached and unbleached kraft, corrugated and solid fibre boards and a large variety of converted items like wax coated, plastic coated, bitumen coated etc. A corrugating box is made from corrugating fibre board, which is a structure formed by gluing a liner board to one or both faces of a corrugated member. Corrugated board is used for making corrugated boxes, which find application in packing of a wide variety of consumer products like cosmetics, drugs, food products, electrical and electronic goods, textiles, beverages, chemicals, tea and coffee etc. Corrugated board is made from a corrugated sheet of kraft paper attached to the facings of flat paper with adhesives. In our country, it is mostly produced over Single Face Machine. The use of corrugated board is consistently increasing due to certain qualities compared to wooden packing & tin containers. So we can say that there is a good future to invest into this project.
Plant capacity: 2650 Kgs. / DayPlant & machinery: 16 Lakhs
Working capital: -T.C.I: 1 Crores
Return: 56.00%Break even: 40.00%
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AMLA (Indian gooseberry) PLANTATION - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Amla fruit (Indian gooseberry, called amla in Hindi) is a rich source of vitamin C. It is used successfully in the treatment of human scurvy. The vitamin is extracted from dried Amla powder by alcohol absorbed on calcined magnesia and diluted with water saturated with hydrogen sulphide. Dried fruit is useful in hemorrhage, diarrhea and dysentery. In combination with iron, it is used as a remedy for anaemia, jaundice and dyspepsia. A fixed oil extracted from the fruit is reported to have the property of promoting hair growth. Amla is one of the natural fruits having wider application in food as curry, pickles, in cosmetic preparations and many other items. Besides these it has application in Ayurvedic medicines and other several varieties of medicines. To looking its uses a new entrepreneur can find the plantation project profitable.
Plant capacity: 2000 Kgs. / AnnumPlant & machinery: 18 Lakhs
Working capital: -T.C.I: 2 Crores
Return: 23.00%Break even: 42.00%
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Solar Power 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

Direct conversion of daylight into electricity by photovoltaic or solar-thermal conversion system is the most promising renewable energy options that have emerged in the recent years. The earth receiver about 75,000 trillion KW of energy from the sun every day. Just 0.1 percent of this is sufficient to meet the energy requirements of the world. Putting this in a different way, at noon, the solar energy striking an area of 70 miles long by 70 mile wide, if converted into photovoltaic electricity, would equal to the peak capacity of all existing power plant in the world. With the ever growing demand for electric power and continuously depleting fossil fuels such as coal, oil and gas various alternative sources of energy have been resorted to by advanced nations. While wind, geothermal and water power are safe to use, they can not be tapped at all times in all places. Ocean and tidal power generation are yet to take off as viable alternatives. Tapping nuclear power poses problems of waste disposal and safety aspects. Most of the processes involve a lot of capital as well as recurring expenditure. Solar power has an edge over all the other non-conventional forms of energy sources as it is non-polluting. The solar energy is abundant and is available at all parts of the world through out the year. Although no alternative energy sources can compete with plentiful, low cost fossil fuel, the days when we can rely on the availability of such fuels are limited. There seems to be no reasons why the solar thermal electricity option should not be pursued aggressively, and if it is, this option can begin to impact our energy requirement in the coming years. Using sunlight to create electrical and thermal energy remains the most promising source of clean renewable energy, and projections as to how quickly solar power takes off could be grossly understated. The challenge however lies in just how much energy solar power would have to displace if it were to become the dominant source of energy in the world. In 2006, according to the International Energy Agency, 80.3% of the world's energy came from fossil fuel: Oil (34.3%), coal (25.1%) and gas (20.9%). Fully 90.9% of the world's energy came from combustion, because alongside these fossil fuels in 4th place are "combustible renewables," mostly wood (10.6%). Include nuclear power (6.5%) and hydroelectric power (2.2%), and you have accounted for 99.5% of the world's energy. So where does solar fit into this equation? Most of this last half-percent of one percent of the world's energy, .41%, is provided from geothermal sources. The energy we love so much, wind and solar, currently only provide .064% and .039% of the world's power requirements. Put another way, for solar energy achieve its potential and replace all other sources of energy in the world, this .039% would have to increase 2,500 times. Moreover, since nations such as India and China have only begun to industrialize, and since the industrialized nations only comprise approximately 20% of the world's population yet consume over 50% of the world's energy production, it is unlikely that global energy production will not have to increase. It is these sobering realities that should inform any reading of the potential of solar power. Using sunlight to create electrical and thermal energy remains the most promising source of clean renewable energy, and projections as to how quickly solar power takes off could be grossly understated. The challenge however lies in just how much energy solar power would have to displace if it were to become the dominant source of energy in the world. In 2006, according to the International Energy Agency, 80.3% of the world's energy came from fossil fuel: Oil (34.3%), coal (25.1%) and gas (20.9%). Fully 90.9% of the world's energy came from combustion, because alongside these fossil fuels in 4th place are "combustible renewables," mostly wood (10.6%). Include nuclear power (6.5%) and hydro-electric power (2.2%), and you have accounted for 99.5% of the world's energy! So where does solar fit into this equation? Most of this last half-percent of one percent of the world's energy, .41%, is provided from geothermal sources. The energy we love so much, wind and solar, currently only provide .064% and .039% of the world's power requirements. Put another way, for solar energy achieve its potential and replace all other sources of energy in the world, this .039% would have to increase 2,500 times. Moreover, since nations such as India and China have only begun to industrialize, and since the industrialized nations only comprise approximately 20% of the world's population yet consume over 50% of the world's energy production, it is unlikely that global energy production will not have to increase. It is these sobering realities that should inform any reading of the potential of solar power. India's power sector has a total installed capacity of approximately 102,000 MW of which 60% is coal-based, 25% hydro, and the balance gas and nuclear-based. Power shortages are estimated at about 11% of total energy and 15% of peak capacity requirements and are likely to increase in the coming years. In the next 10 years, another 10,000 MW of capacity is required. The bulk of capacity additions involve coal thermal stations supplemented by hydroelectric plant development. Coal-based power involve environmental concerns relating to emissions of suspended particulate matter (SPM), sulfur dioxide (SO2), nitrous oxide, carbon dioxide, methane and other gases. On the other hand, large hydro plants can lead to soil degradation and erosion, loss of forests, wildlife habitat and species diversity and most importantly, the displacement of people. To promote environmentally sound energy investments as well as help mitigate the acute shortfall in power supply, the Government of India is promoting the accelerated development of the country's renewable energy resources and has made it a priority thrust area under India's National Environmental Action Plan (NEAP). The Indian government estimates that a potential of 50,000 MW of power capacity can be harnessed from new and renewable energy sources but due to relatively high development cost experienced in the past these were not tapped as aggressively as conventional sources. Nevertheless, development of alternate energy has been part of India's strategy for expanding energy supply and meeting decentralized energy needs of the rural sector. The program, considered one of the largest among developing countries, is administered through India's Ministry of Non-Conventional Energy Sources (MNES), energy development agencies in the various States, and the Indian Renewable Energy Development Agency Limited (IREDA). Throughout the 1990's, India's private sector interest in renewable energy increased due to several factors: (i) India opened the power sector to private sector participation in 1991; (ii) tax incentives are now offered to developers of renewable energy systems; (iii) there has been a heightened awareness of the environmental benefits of renewable energy relative to conventional forms and of the short-gestation period for developing alternate energy schemes. Recognizing the opportunities afforded by private sector participation, the Indian Government revised its priorities in July 1993 by giving greater emphasis on promoting renewable energy technologies for power generation. To date, over 1,500 MW of windfarm capacity has been commissioned and about 1,423 MW capacity of small hydro installed. India is located in the equatorial sun belt of the earth, thereby receiving abundant radiant energy from the sun. The India Meteorological Department maintains a nationwide network of radiation stations, which measure solar radiation, and also the daily duration of sunshine. In most parts of India, clear sunny weather is experienced 250 to 300 days a year. The annual global radiation varies from 1600 to 2200 kWh/sq. m. which is comparable with radiation received in the tropical and sub-tropical regions. The equivalent energy potential is about 6,000 million GWh of energy per year. The highest annual global radiation is received in Rajasthan and northern Gujarat. In Rajasthan, large areas of land are barren and sparsely populated, making these areas suitable as locations for large central power stations based on solar energy. The main objectives of the project are these: (i) To demonstrate the operational viability of parabolic trough solar thermal power generation in India; (ii) support solar power technology development to help lead to a reduction in production cost; and (iii) help reduce greenhouse gas (GHG) global emissions in the longer term. Specifically, operational viability will be demonstrated through operation of a solar thermal plant with commercial power sales and delivery arrangements with the grid. Technology development would be supported through technical assistance and training. The project would be pursued under The World Bank's Global Environment Fund (GEF) -- which has a leading program objective focused on climate change. This project is envisaged as the first step of a long term program for promoting solar thermal power in India that would lead to a phased deployment of similar systems in the country and possibly in other developing nations. India supports development of both solar thermal and solar photovoltaics (PV) power generation. To demonstrate and commercialize solar thermal technology in India, MNES is promoting megawatt scale projects such as the proposed 35MW solar thermal plant in Rajasthan and is encouraging private sector projects by providing financial assistance from the Ministry. One of the prime objectives of the demonstration project is to ensure capacity build-up through 'hands on' experience in the design, operation and management of such projects under actual field conditions. Involvement in the project of various players in the energy sector, such as local industries, the private construction and operations contractors, Rajasthan State Power Corporation Limited (RSPCL), Rajasthan State Electricity Board (RSEB), Rajasthan Energy Development Agency (REDA), Central Electricity Authority (CEA), MNES and others, will help to increase the capacity and capability of local technical expertise and further sustain the development of solar power in India in the longer term.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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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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