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Investment Opportunities & Business Ideas in Ghana, West 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.

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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.

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Quail Farming - Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics, Cost of Project

The quail is a small bird that inhabits woodland and forest areas around the world. There are thought to be more than 15 different species of quail, with each species of quail being found in different parts of the world and all have slightly different appearances depending on how they have adapted to their environment. Although the quail is very small sized bird, the quail belongs to the same bird family as pheasants. Quails range in size depending on the species from the Japanese quail which is around 10 cm tall to the larger mountain quail that can grow up to 25 cm tall. Quails are generally solitary birds and spend most of their time either on their own or in a pair with just one other quail. During the mating season it is common to see large flocks of quails as family groups convoy together in groups of up to 100 quail individuals. Quails do not tend to migrate and therefore spend their lives within the same area. In some parts of the world, quails are kept as poultry birds both for the small amount of meat that they contain and for the quail's brightly coloured eggs. These tiny coloured eggs are seen as a delicacy in some parts of the world and can often be found on menus in posh restaurants. Quail eggs are renowned for being rich in vitamins, essential amino acids, unsaturated fatty acids and phospholipids, which are vital for human physical and mental development. Quail eggs can be included in the diets of children, pregnant mothers and geriatric and convalescent patients. Coturnix eggs are characterized by a variety of colour patterns. They range from snow white to completely brown. More commonly they are tan and dark brown speckled or mottled brown with a chalky blue covering. The average egg from mature female weighs about 10 gram (1/3 ounce), about 8 percent of the body weight of quail hen as compared to 3 percent for chicken eggs. The egg of Japanese quail contains 158 Cal. of energy, 74.6% water, 13.1% protein, 11.2% fat, and 1.1% total ash. The mineral content includes 0.59 mg calcium, 220 mg phosphorus and 3.8 mg iron. The vitamin content is 300 IU of vitamin A, 0.12 mg of vitamin B1, 0.85 mg of vitamin B2 and 0.10 mg nicotinic acid. Advantages of Quail Farming: Quail is a fast growing bird with short generation interval. A broiler quail can be sold at 5 weeks as against 8 weeks in broiler chicken. Quail start producing eggs at about 6 weeks of age and continue to give high egg production upto 24 weeks of age. The meat is considered as a delicacy and can be used as ready to cook meat, pickled meat and tandoori quail. The egg size is about 10 gm, and it can be used as boiled egg or egg pickle. This bird requires minimum floor space, needs low investment, quails are comparatively sturdy birds, can be marketed at an early age i.e. five weeks, early sexual maturity - starts laying eggs in about six to seven weeks of age, high rate of egg laying -280 eggs per year. Quail meat is tastier than chicken and has less fat content. It promotes body and brain development in children. Nutritionally, the quail eggs are on par with that of chicken eggs. Moreover, they contain less cholesterol. Quail meat and eggs are a nutritious diet for pregnant and nursing mothers. Quail is the pilot bird for research and education. Quail manure has high fertilizer value and can be used for increasing yield of crops. This species can be reared at interior places as it does not require vaccination and relatively low medication required. Scope of Quail Farming in India: Quail farming is an inexpensive alternative to chicken farming. There is high demand for quail meat and has a great market potential in hotels, restaurants, dhabas, industrial canteens, flight kitchens, supermarkets etc. Government of India is encouraging entrepreneurs to start Japanese quail farm and is trying to create infrastructural facilities to assist the entrepreneurs. However, a government license is required to sell Japanese quail. The Ministry of Environment & Forests delegated the power to grant license to the Dept. of Animal Husbandry. So far, more than 500 licenses for quail farming, trading, catering & hatching have been issued in the Maharashtra state alone. Central Avian Research Institute (CARI) at Izatnagar, UP; INDIA is keen to propagate quails for commercial use & have shown willingness to supply hatching eggs to aspiring entrepreneurs.
Plant capacity: 11 Flocks per year (@40,000 Birds per Flock)Plant & machinery: 4.5 Lakhs
Working capital: -T.C.I: 34 Lakhs
Return: 47.00%Break even: N/A
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Chipboard Industry - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

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

EMD is a complex composite of various crystals of manganese and oxygen that is produced through electro-winning. It is used primarily as the active constituent of alkaline batteries and increasingly as the feedstock for the cathodic material in lithium-ion batteries. The structure of EMD is highly disordered, but predominantly made up of the manganese dioxide crystal ramsdellite, depicted here, with the red balls signifying the oxygen atoms in the green manganese dioxide crystal lattice. Electrolytic manganese dioxide is a high purity product with molecular formula MnO2 that possesses the ‘recipe specific’ electrical characteristics desired by battery producers. Natural manganese dioxide (NMD) can be used in the Leclanche cells. But in alkaline, lithium and other batteries, synthetic managanese dioxide with higher purity is required. Electrolytic manganese dioxide (EMD) is used as a cathode mixture material for dry cell batteries, such as alkaline batteries, zinc-carbon batteries rechargeable alkaline batteries. Among the large variety of manganese dioxides, y-type managanese dioxide is extensively used, as y-variety compounds have high intercalation voltage. They have the ability to maintain high discharge rates, a good performance over a wide temperature range and have a long storage life. EMD is stable under normal temperature conditions. ELECTROLYTIC MAGNESIUM DIOXIDE NUCLEATION: Electrolytic manganese dioxide has been used worldwide in the manufacture of primary ZnMnO2 alkaline and Lechlanche type cells for decades. Their low cost and reliability impair their replacement by higher performance and secondary batteries. The performance of these batteries depends on the manufacture method of the manganese oxide due to the variation of the properties of the oxide with its crystallite size, density of lattice imperfections and extent of hydration. Sometimes the intercalation of lithium ions is carried out to improve performance characteristics of MnO2, for high energy density and high drain power application. Electrolytic manganese dioxide are doped with Bi, Pb and Ti ions is used for the manufacture of rechargeable alkaline manganese oxide cells. These ions are known to stabilize the MnO2 lattice towards dimensional changes that occur during charging and discharging cycles of the cells. The production of EMD is carried out through the electrolysis of hot MnSO4 and sulphuric acid solutions. Stainless steel or lead is the materials normally used as cathode, where hydrogen evolution takes place. Carbon, lead or titanium can be used as anode. Titanium anodes are preferred because the EMD is purer than that obtained with carbon and lead anodes. MARKET SCENARIO: As electric vehicles penetrate the auto market, EMD demand stands to benefit. The launch of electric cars and their expanding production is expected to increase demand for EMD for use in lithium-ion secondary batteries cathodes of the lithium manganese oxide and tertiary compound type. The highest potential growth segment for EMD is in large scale rechargeable batteries used in electric vehicles and electronics. At present, the rechargeable manganese battery segments account for less than 10% of total EMD demand. Alkaline batteries are a low growth end use, expected to track well below GDP growth rates over the forecast period. In small scale electronics, EMD use projected at historical growth rates of 4%. EMD is mostly used in alkaline and other small scale, consumer electronic batteries. World demand is estimated around 3,50,000 metric tonnes per annum in 2012 with growth rate in demand around 5%.
Plant capacity: Electrolytic Manganese Dioxide 5 MT Per DayPlant & machinery: 89 Lakhs
Working capital: -T.C.I: Cost of Project: 576 Lakhs
Return: 27.00%Break even: 57.00%
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ACTIVATED CARBON FROM SAW DUST & COCONUT SHELL - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Activated Carbon is a unique material because of the way it is filled with holes (voids, spaces, sites, pores,) whatever the size of molecules. It is that, although they are spaces of zero electron density, these pores possess intense vander wall forces (from the near proximity of carbon atoms). Activated carbon is a non graphitic form of carbon, which could be produced by activation of any carbonaceous material such as coconut shells, bamboo, wood chips, sawdust, coal, lignite, paddy husk etc. The process of activation is carried out in two stages. The raw material is first carbonized and then activated either by chemicals or by steam to derive the highly porous structure. Shell based activated carbon is extensively used in the process of refining and bleaching of vegetable oils and chemical solutions, water purification, recovery of solvents, recovery of gold, in gas masks for protection against toxic gases, in filters for providing adequate protection against war gases/nuclear fall outs, etc. Uses and Application A wide variety of activated carbon products are available exhibiting markedly different characteristics depending upon the raw material and activation of technique used in their production. In selecting the activated carbon it is important to have a clear understanding of both the adsorptive and physical characteristics of the material in order to optimize the performance capabilities. Activated Carbon of three grades namely powder, granular and pelletlized finds hundreds of different applications. By chemical activation, predominantly powder activated carbons are made and these qualities are mostly used for wastewater treatment. Granular products and pellets used for gas purification are predominantly made by gas steam activation. To cite some examples from the numerous applications: decolorization of sugar and sweeteners, drinking water treatment, gold recovery, production of pharmaceuticals and fine chemicals, catalytic process, off gas treatment of waste incinerators, automotive vapor filters, color/odor correction in wines and fruit juices. Market Survey The global activated carbon market was worth $1.8 billion in 2011 and is estimated to reach $3 billion by 2016, growing at a CAGR of 11.1% from 2011 to 2016. The powdered and granular activated carbon segments are the key revenue generators for the activated carbon market. The demand for activated carbon (AC) is expected to grow due to the new demand in mercury control technology for industrial air purification applications.
Plant capacity: 6000 MT/ Annum Plant & machinery: 181 Lakhs
Working capital: -T.C.I: 1070 Lakhs
Return: 43.00%Break even: 37.00%
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AAC BLOCKS AUTOCLAVED AERATED CONCRETE BLOCKS)Fly Ash Based - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Plant Layout

Autoclaved Aerated Concrete (AAC) is a non-combustible, lime based, cementitious building material that is expanding into new worldwide markets. As a single component building material, AAC has achieved acceptance in new markets throughout the world. AAC has a history of one hundred of years and has become the pillar industry in construction field. In our country aerated techniques have been developed for about 40 years, and its technique skills and equipments are becoming mature. The AAC has the features of light bulk density, good thermal insulation properties and sound-absorption, certain strength and process ability, and its raw materials is very rich, especially the reuse of fly ash enables the comprehensive utilization of industrial residue, curbs environmental pollution, no destroy on farmland, create good social and economic benefits. AAC is an ideal alternative of the traditional clay brick wall materials. For many years AAC has been strongly supported by national wall reform policy, tax policy and environmental policy. In a sentence, AAC has been an important factor in new building materials and has a broad market prospect. Uses and Applications AAC has been used in a variety of construction projects throughout the United States. It has been used for load-bearing walls and floor/roof systems in elementary and secondary school classrooms, multistory university dormitories, military base barracks, and various hotel chains. It has been chosen for its material properties and speed of construction. High rise buildings have utilized AAC for shaft and fire walls due to its tremendous fire ratings. Manufacturing and warehouse facilities have found that AAC non load bearing cladding panels provide both an aesthetically desirable and acoustically functional solution for their projects. AAC has been used in single and multifamily construction for its thermal, acoustical, and fire performance. AAC products are equally suitable for residential construction, multistory buildings, commercial, and industrial construction. The products are made of natural materials: sand, lime, and water. These raw materials are processed to provide a building material with a large number of air pores; hence, aerated concrete. Fine pores (nearly 70% of the product) and the solid structure of calcium silicate hydrate gives AAC its exceptional material properties. Market Survey The autoclaved aerated concrete sector of the construction industry is now in the phase of a tremendous growth cycle. The autoclaved aerated concrete industry must utilize competitive techniques as customers are looking for lowered costs. AAC is not a new building system but it is new to India. Autoclaved aerated concrete (AAC), though relatively unknown in India, is currently one of the many building products being touted as green or environmentally friendly. AAC is a lightweight manufactured building stone. Comprised of all natural raw materials, AAC is used in a wide range of commercial, industrial, and residential applications. AAC Reduces Additional Material Use and Minimizes Waste and Pollution. Today, concrete used in most places, including many urban areas, is in proportion of 1:2:4 (cement: sand: coarse aggregate). This ancient technology has vanished at many sites in various metros. Proper concrete mix design is being done. This helps achieve superior quality and economy to the constructor. Concrete will no longer be a civil engineers' product. It will be a formulation of several chemicals with cement playing a major role. The market size of cement and AAC is defined as the amount of cement and AAC products supplied to the total Indian marketplace, in a particular period. Therefore, market size is determined by supply rather than demand. The outlook (for autoclaved aerated concrete) is more optimistic. Overall demand improvement will lead to a reduction in the inventory of unsold residential and commercial premises. In addition to this, residential construction from high-end apartments to affordable housing is being announced and expected to come on stream. The Indian cement industry is on a capacity expansion spree and was expected in 2007-08 to add another 60 mn tonne, with an investment of around Rs 100 bn. Between 2005 and 2008 around 55 companies announced either greenfield or brownfield expansion plans. With these projects, Indias cement capacity was to touch a new high of approximately 200 mn tonne by 2008. Indian cement firms had also plans to increase their capacity by 74 mn tonne by 2010 with investment of Rs 300 bn. Companies like Zuari Cement, OCL, Dalmia Cement, Binani Cement, Birla Corp, India Cements, Saurashtra Cement, NCL Industries and JK Cement have proposed or are implementing capacity expansion projects. By 2008, about 21.5 mn tonne of additional capacity was expected to be realised through expansion only. ?
Plant capacity: 150000 cubic meter/ Annum Plant & machinery: 1100 Lakhs
Working capital: -T.C.I: Cost of Project : 1790 Lakhs
Return: 44.00%Break even: 53.00%
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INTEGRATED SUGAR PLANT (CULTIVATION OF SUGARCANE, CO GENERATION & DISTILLERY) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials

Sugar industry is one of the most important agro based industries and is highly responsible for creating significant impact on rural economy in particular and countrys economy in general. Sugar industry ranks second amongst major agro based industries. Sugarcane and sugar beet are the main sources of sugar in the world. Out of total sugar produced in the world 60 per cent is obtained only from sugarcane. Sugarcane (Saccharum officinarum) is an important cash crop cultivated in about 84 countries of the world. The plantation will have to be structured and planned in such a way that the right ratio mix is available when the mill, power plant and distillery become operational. The entire plantation will take around three years to develop and mature. Sugarcane Characteristics: Sugarcane is a tall perennial grass that grows between seven and 16 feet (2 and 5 m). Sugarcane harvesting is a complex process that involves careful cutting and handling procedures to maintain high sugar content and cane quality. Perhaps sugar is the most politicised industry in India with its production to a large extent controlled by politicians and the government regulating its supply to control prices. The Government not only fixes the prices of levy sugar but also fixes the supporting prices of sugarcane, as in the case of food grains. The sugar industry is also the most advanced processing industry in the agricultural sector and has contributed to a considerable area. The integrated rural development brought about by sugar factories in certain remote villages in the country goes to above its backward and forward linkages in the developmental process. Uses and Application As such sugar used as sweetener in food product, like Jam, Jellies, Bread Biscuit & Cake Industry. It has largest use as domestic purposes also. The various end uses of sugar are mainly in the Beverages, Bakery, cereal and, Confectionery and related products, Canned, bottled and frozen foods, Ice Cream dairy products, Sweets, Used in households, Restaurants & Hotels etc ? Market Survey India has been known as the original home of sugar and sugarcane. Indian mythology supports the above fact as it contains legends showing the origin of sugarcane. India is the second largest producer of sugarcane next to Brazil. Presently, about 4 million hectares of land is under sugarcane with an average yield of 70 tonnes per hectare. More than 130 countries produce either sugarcane or sugarbeet, and ten of these produce sugar from both cane and beet crops. Sugarcane, on average, accounts for 75 to 80 percent of global production per year, and developing countries produce about 70 percent of total global output. Sugar production in states like Uttar Pradesh, Maharashtra and Karnataka, is 22% more than what it was the previous year. The country is set to produce 2.6 crore tonne sugar this year. Moreover, 59 lakh tonne stock from last year still remains. As against this stock, the domestic consumption is estimated to be 2.4 crore tonne. The excess stock of some eight million tonne is likely to bring down the prices in the domestic market. The number of sugar factories in India crushing sugarcane as on January 15, 2012 was 516 in comparison to 498 as on January 15, 2011. The annual turnover of the Indian sugar industry is Rs one lakh crore of which Rs 55,000 crore is spent on sugarcane payment. Cost Estimation Capacity : 279630000 Kgs./ Annum Sugar : 270000000 Kgs/ Annum Ethanol: 30000 Kl/ Annum Power: 9600000 Kw/ Annum
Plant capacity: -Plant & machinery: 455 Crore
Working capital: -T.C.I: Cost of Project : 1321 Crore
Return: 47.00%Break even: 19.00%
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ALUMINA REFINERY - 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

Alumina is a white granular material, a little less coarse than table salt, and is properly called aluminium oxide. Aluminium does not occur as a metal, but must first be refined from bauxite in its oxide form. Aluminium compounds make up 7.3% of the earth's crust, making it the third most common crustal element and the most common crustal metal on earth. Aluminium was first produced in 1808. There are three main steps in the process of aluminium production. First is the mining of aluminium ore, most commonly bauxite, referred to as bauxite mining. Second is the refining of bauxite into aluminium oxide trihydrate (Al2O3), known as alumina, and third is the electrolytically reduction of alumina into metallic aluminium. Development in the aluminium producing industry, consumption and environ¬mental implications are discussed, as well as aspects of future trends. This also includes the preceding processes of bauxite mining and alumina refining. Each of these process steps are described consecutively. Uses & Application Alumina is used in Gas laser tubes, Wear pads, Seal rings, High temperature electrical insulators, High voltage insulators, Furnace liner tubes, Thread and wire guides, Electronic substrates, Ballistic armor, Abrasion resistant tube and elbow liners, Thermometry sensors, Laboratory instrument tubes and sample holders, Instrumentation parts for thermal property test machines & Grinding media Market Survey The markets for alumina and aluminum have dramatic growth potential as a result of both significantly increased demand and political and environmental factors affecting supply. Global Alumina is perfectly positioned to capture the demand of independent aluminum producers as it builds the first green-field refinery to be constructed in Guinea in more than 40 years. Global aluminium prices are likely to go up in the wake of growing demand at domestic and international fronts, coupled with China's step to slash production of the metal. According to Harbor Intelligence, a global consulting firm specialising in forecasts for commodities, aluminium prices could touch $2,700 per tonne in the first half of the next year. In the middle of 2008, industry professionals forecast an increase in annual alumina demand of approximately 50 million metric tons, for a cumulative annual demand of 124 million metric tons, by 2017.
Plant capacity: 1800000 MT/ Annum Plant & machinery: 64454 Lakhs
Working capital: -T.C.I: Cost of Project : 79232 Lakhs
Return: 48.00%Break even: 46.00%
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THERMOCOL CUPS, GLASS AND PLATES - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost & Revenue

EPS/ Thermocol is the standard abbreviation for Expanded Poly Styrene. Low levels of styrene occur naturally in plants as well as a variety of foods such as fruits, vegetables, nuts, beverages and meats. However, styrene is produced in industrial quantities from ethyl benzene. Foam is generally known everywhere but in fact its meaning is so wide. According to translation Foam means, expand or blow. Herewith we concern Foam as the expanded plastics. There are many kinds of plastics in the world, any plastics when react with the Blowing Agent will become Foam which generally called Foam Plastics. The example of well known foam plastics is sponge, food box, foam sheet, spray foam for insulation and etc. These foam plastics are produced from different kinds of plastics. The foam that produced from Polystyrene / PS (C8H8) plastic, PS Foam or so-called Expanded Polystyrene is made for food box, ice box, packaging for television and floating Krathong foam. Thermocol has a particular Aspect It gives the hand a sentation of velvety softness not experienced in contact with traditional types of plastic. Until recently Thermocol has been employed almost exclusively in the packing and thermoacustic isolation sectors; utilizing new processes and sophisticated equipment has been possible to create containers for foods with a perfect retention of liquids, Thermocol is formed by the synthesizing of spherical particles consisting of air (at a rate of 98%) contained within an infinite number of hollow cells. These cells, forming a structure of pellets fused together, give consistency and rigidity to the final product. The advantages are many: the product’s manufacturer requires very little energy, thereby allowing full weight to be given to ecological consideration. Of fundamental importance is the treatment with the vapor, which, as well as having a technical function during the manufacturing process, renders the product hygienic through sterilization, Thermocol is a good resister of cold and heat but since it is a petroleum product it dissolves in any solvent of petroleum. Uses & Applications Any product of any shape or size may be packaged in expanded polystyrene. The following only touches on the possibilities in both the industrial and food packaging sectors using thermocol. Foamed plastics materials have achieved a high degree for importance in the plastic industry. Foams can be made soft and flexible to hard and rigid. Expanded polystyrene is one of such foams. It may be used such as thermal insulation material; acoustic treatments shock protective packaging, etc. Its properties can be varied widely in manufacture to meet both general and specific demands. For more than 50 years, the effectiveness of thermocol has been proven in numerous packaging applications used by a wide variety of industries, consumer product manufacturers and catalogue and shipping companies. Lightweight thermocol is ideal for these packaging applications due to its physical properties, in particular its cushioning characteristics, dimensional stability and its thermal and moisture resistance. Market Survey Insulation with EPS provides safe installation and affordable access to energy reduction in heating and cooling buildings. Packaging is also considered an essential final application of EPS, where it supplies lightness and protects health by reducing spoilage of the product. The use of plastic packaging in general and of suitable insulating materials like EPS, together with freezing technology means that only 2 percent of the food is spoiled in the West, while this is up to approximately 50 percent in the developing countries. Cost Estimation Capacity : 55640000 Pcs./ Annum 284400 Pcs Thermocol Glass/day 284400 Pcs Thermocol Cups/day 1280000 Pcs Thermocol Plates/ day
Plant capacity: -Plant & machinery: 222 Lakhs
Working capital: -T.C.I: 816 Lakhs
Return: 43.00%Break even: 35.00%
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TYRES (FOR THREE WHEELERS AND MEDIUM SIZE FOUR WHEELERS) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Plant Layout

A tyre is an assembly of numerous components that are built up on a drum and then cured in a press under heat and pressure. Heat facilitates a polymerization reaction that cross links rubber monomers to create long elastic molecules. These polymers create the elastic quality that permits the tyre to be compressed in the area where the tyre contacts the road surface and spring back to its original shape under high frequency cycles. The wheel is one of the greatest inventions in human history due to its wide range of applications. These applications include any type of transportation; whether it is people, materials, or equipment being moved. Charles Goodyear invented the first rubber tyres in 1839. Before the advent of these tyres, riding in a car was very uncomfortable due to the rough ride. Types of Tyre The tyre provides a cushion between the vehicle and the road to reduce the transmission of road shocks. It also provides friction to allow the vehicle perform its normal operations. Modern tyres are manufactured from a range of materials. The rubber is mainly synthetic. Two types of tyre construction are common cross ply and radial. Most passenger cars now use radial tyres, as do most wheel drives and heavy vehicles. Tube tyres require an inner tube to seal the air inside the tyre. Uses & Application Transportation, Stack/Lift, Multi Purpose and Earth Mover. Market Survey The Indian tyre industry has come of age with the manufacture of almost all types of tyres. The industry has an estimated turnover of close to Rs 200 bn. It is made up of 40 players with an installed capacity of 57.3 mn tyres. The industry claims a perceptible export market. The demand of tyres flows from three segments original equipment manufacturers, re placements and exports. Of the three, the replacement market is the primary source of demand, followed by the equipment manufacturers (OEM) segment and exports. The Indian tyre industry has come of age with the manufacture of almost all types of tyres. The industry has an estimated turnover of close to Rs 200 bn. It is made up of 40 players with an installed capacity of 57.3 mn tyres. The industry claims a perceptible export market. The tyre industry in India has had a long history of over 75 years. Three major multi nationals, Firestone, Goodyear and Dunlop, have been operating for a long time. Later came in CEAT. During the 1960s and 1970s the dominance of the MNCs was greatly diluted with the entry of Premier, Inchek and MRF. The Indian presence did not stop there. Several new Indian plants were set up, which included those of Modis, JKs, Raunaq Singh group's Apollo Tyres, TVS group and Vikrant. Few Indian Major Players are as Under: Apollo Tyres Ltd. Balkrishna Industries Ltd. Bridgestone India Pvt. Ltd. Ceat Ltd. Dunlop India Ltd. Falcon Tyres Ltd. Goodyear India Ltd. Goodyear South Asia Tyres Pvt. Ltd. Govind Rubber Ltd. J K Tyre & Inds. Ltd. Kesoram Industries Ltd. M R F Ltd. Malhotra Rubbers Ltd. Metro Tyres Ltd. Modi Tyres Co. Ltd. Modistone Ltd. Monotona Tyres Ltd. Pavan Tyres Ltd. [Merged] Poddar Tyres Ltd. Raam Tyres Ltd. Rado Tyres Ltd. Ralson (India) Ltd. Ralson Industries Ltd. S Kumars Tyre Mfg. Co. Ltd. Suntec Tyres Ltd. T V S Srichakra Ltd. Tariq Development & Leasing Pvt. Ltd. Vikrant Tyres Ltd. [Merged]
Plant capacity: 2000 Nos./ dayPlant & machinery: 1132 Lakhs
Working capital: -T.C.I: Cost of Project : 1908 Lakhs
Return: 26.00%Break even: 48.00%
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MAIZE & ITS BY PRODUCTS - 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

Maize is one of the cereal grains which produces through out India and is placed 3rd position in agricultural base production. Maize is constituted by hull, germ, protein, starch and moisture. There is dry and wet milling process of manufacturing of starch, zein, germ and hulls. Starch is the basic constituent of maize and it is converted to liquid glucose by adopting series of digestion steps on starch. It will be basically enzyme and acid digestion system. It may be enzyme enzyme system or only acid digestion system. In the production of liquid glucose there is some production of dextrose anhydride. There are several plant and machinery required for the production of dextrose such as Digestion Tank, Digestion Column, Jacketed Reaction Kettle, Ion Exchange Column, Receiver Vessels, Packing Machine and Weighing Machine. For testing the product there is requirement of Spectrophotometer, Glass cylinder, etc. As a whole it can be concluded that there is availability of raw materials according to market demand and it can be stored for long time in the dry place. Handling of the raw material is not difficult. Starch is a tasteless, odorless, white amorphous powder, insoluble in water. All green plants store Starch as nourishment for the future. Starch is one of the fundamental substances in the vegetable kingdom and is in existence abundantly in the natural world. Starch is produced from various sources such as corn (maize), tapioca etc. Starch is a mixture of two polymers namely amylase and amylospectin. Uses & Applications Pure Starches can be physically modified into various products of varied characteristics. Starch can be potentially used in large number of preparations. Its major applications are in textiles and paper manufacture and in food and pharmaceutical industries. Starch is used in the manufacture of number of products such as starch esters, starch phosphates, glucose, dextrose, sorbitol, ethyl alcohol etc. Industry & Specific Uses Food, Paper, Adhesives, Textiles and Many more. Market Survey Maize (Corn) contains about 70% starch, other components being protein, fibers and fat. The basis of the maize milling process is the separation of the maize kernel into its different parts. Maize starch is produced by the wet milling process, which involves grinding of softened maize and separation of corn oil seeds (germs), gluten (proteins), fibers (husk) and finally pure starch. Maize is doing wonderful things in our everyday life. Maize is present in one form or other in: The Food we eat, The Milk we drink, The Chocolates/Biscuits we take, The Clothes we wear, The Paper we read and The Medicines we take. Karnataka, AP, Bihar, MP. UP and Rajasthan are the main maize producing areas. It is also produced in Assam, Chhattisgarh, Haryana, Jharkhand, Tamil Nadu, Uttarakhand, Gujarat, HP, Jammu Kashmir, and Orissa. Punjab, West Bengal etc. Expiry rate of maize is fixed according to Nizamabad mandi. Apart from Nizamabad, Karimnagar in AP is also a delivery centre. In Maharashtra, Jalna and Jalgaon are the delivery centres while in Karnataka, Davengere is a delivery centre. Nimbaheda in Rajasthan, Ratlam in MP and Bahraich in UP are the delivery centres which are approved by the NCDEX There is a very good scope and ample space for growth in this field. New entrepreneurs should venture into this field. Few Indian Major Players are as Under: Bharat Starch Inds. Ltd. English Indian Clays Ltd. Gayatri Bioorganics Ltd. Gujarat Ambuja Exports Ltd. Gujarat Ambuja Proteins Ltd. Hindustan Maize Products Ltd. Indian Maize & Chemicals Ltd. International Bestfoods Ltd. Jayant Vitamins Ltd. K G Gluco Biols Ltd. Kamala Sugar Mills Ltd. Laxmi Starch Ltd. Origin Agrostar Ltd. Rai Agro Inds. Ltd. Riddhi Siddhi Gluco Biols Ltd. Santosh Starch Ltd. Santosh Starch Products Ltd. Sayaji Industries Ltd. Starch & Chemicals Ltd. Sukhjit Starch & Chemicals Ltd. Tirupati Starch & Chemicals Ltd. Unique Sugars Ltd. Universal Starch Chem Allied Ltd. Wockhardt Health Care Ltd. Cost Estimation Capacity : 15750 Mt Starch/ Annum 3775 MT Liquid Glucose/ Annum 13500 MT Dextrose Monohydrate/ Annum 1800 MT Oxidise Starch/ Annum 2700 MT Hull By Product/ Annum 5400 MT Zein By Product/ Annum 3150 MT Germ By Product/ Annum
Plant capacity: -Plant & machinery: 349 Lakhs
Working capital: -T.C.I: Cost of Project : 1137 Lakhs
Return: 57.00%Break even: 60.00%
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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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