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

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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

Autoclaved Aerated Concrete (AAC) is a non-combustible, lime-based cementitious building material that is expanding into new worldwide markets. As a singlecomponent building material AAC has achieved acceptance in new markets throughout the world. 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. AAC Blocks have Good heat insulation and humid retention. They are non-flammable. Autoclaved Aerated Concrete (AAC) products are 4 times lighter in weight than ordinary concrete. Its characteristic structure comprising millions of tiny pores, it offers optimum solidity at low weight. Uses and Applications 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. They are fire proof and provide insulation. Its low density permits use in larger building units which serves as a distinct advantage in pre fabrication. Appreciable savings are effected in foundation loads in multi storeyed construction. It is therefore being used increasingly as walling units in some developed countries. 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. There will be phenomenal growth in autoclaved aerated industry in the near future. Autoclaved aerated concrete blocks having different architectural finishes and color will also play a prominent role in near future. With a high growing good infrastructure and urbanization, the autoclaved aerated concrete Industry is poised for growth in the near future.
Plant capacity: 500 CUM/Day Plant & machinery: Rs.1117 Lakhs
Working capital: -T.C.I: Cost Of Project : Rs. 1886 Lakhs
Return: 36.00%Break even: 39.00%
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Rice Flakes - 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

Rice flakes are tasty flakes that are created using rice grains. The process for creating rice flakes involves parboiling the rice, then flattening the grains to product a solid flake. There are a number of rice flake recipes used in Asian cuisine. Often in western countries, rice flakes are used to create cereals and different types of snacks.. Once the rice is tender, the cooked grains are rolled, then flattened. The thickness of the flattened rice will depend on the amount of pressure that is applied. After the mixture is the desired thickness, the flattened rice is allowed to dry completely. The dried sheets are then ran through another rolling process to create simple flakes. At this point in the process, the rice flakes may be packaged for use as a dry cereal, or used as an ingredient in recipes for a side dish, or used to create desserts or even snack foods. Rice flakes are prepared from paddy. It is also popularly known as "Poha". It is a fast moving consumer item and generally eaten as breakfast item. With this background, the CFTRI developed a process for improved Rice flaking. The improved process has the advantage of increase in yield and better quality products, besides economic utilization of by-products. The kernel of rice can become cracked in the field, during the drying process, or during the milling process. Cracks are usually caused by moisture migrating too quickly within the kernel Often these cracks cause the kernels to break during milling and so broken rice is generated. Very small broken rice is called 'brewers' rice', as use by brewers is the traditional industrial use. Broken Rice contains more grain fragments within the grain. The length of rice does not exceed three quarters of the average length of the whole grain. This type of rice is a lower quality of rice and usually used for baby formulas, rice cereals as well as pre-package or can goods. Uses and Applications Rice Flakes are used as breakfast food. In India, rice flakes are famous by the names like poha/chiwda when cooked as breakfast meal. It is mixed with milk when consumed as cereal. Wide application of Rice Flakes is in the application of beer industry to produce beer. It can also be mixed with other dried grain flakes to create a tasty breakfast cereal. When combined with nuts and dried fruit, the rice flakes can also serve as a healthy snack alternative. A traditional dish using rice flakes is known as banh com in Vietnam. Rice is harvested directly from the fields. Rather than parboiling, the rice is roasted and then flattened by hand using a mortar and pestle. This helps to remove the husk or hull of the rice grain. A range of spices is added to the flakes and the mixture is cooked long enough to allow the flavors to mingle. While rice flakes have traditionally been associated with food preparation in eastern countries, the flakes have become more readily available in the West in recent years. It is possible to purchase packaged rice flakes in most grocery stores and supermarkets that carry Asian foods. In addition, many health food stores carry rice flakes as both a cereal and a healthy ingredient for various types of vegetarian dishes. ? Market Survey Food consists of variety of substances called nutrients and the suitable balance of these is essential for human diet. Rice flakes from broken rice used in beer industries, which is cheap convenient and is an innovated concept. The product is used in beer industry which finds a prominent place in alcoholic beverages. Rice flakes from broken rice, used in beer industry is a newly developed concept and has a excellent domestic demand. The total beer industry was around 108 million cases in 2005, which crossed 130 million cases in 2006. Industry analysts say tax and levies on beer are anticipated to fall over the next 2 to 3 years, driving down retail prices by25 to 50%. It is estimated that beer will sell for Rs 15 to Rs 20 per 330 ml can and Rs 20 to Rs 30 per 650 ml bottle in the coming year with the reduction tax and levies. In fact, northern Indian states, which have traditionally shown a preference for hard liquor over beer, witnessed a jump of more than 100% in beer consumption in 2006 as compared to last year. The per capita consumption of beer in India is very low as compared to other countries in Europe and America. At present the per capita consumption is 0.7 litre per annum, but industry experts predict that this may rise to around 20 litres in the next 10 years. Considering the expected increase in consumption and the current growth trends, the future of Indian beer market looks bright and seems set for continuous double digit growth in the coming years. The market for flaked rice will predominantly consist at buyers from group especially of urban and semi-urban areas. Even the people of low-income group can also buy as the products are directly consumed along with jaggery and from coconut pieces by rural folk.
Plant capacity: 10 MT/Day.Plant & machinery: 52 Lakhs.
Working capital: -T.C.I: Cost of Project :214Lakhs.
Return: 28.00%Break even: 61.00%
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Floral Foam (Phenolic Foam) with Resin Manufacturing - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Production Schedule

Floral foam was mistakenly invented by a chemist named Vernon Smithers in the early 1940's. He created floral foam from synthetic substances or resins which restrict the growth of bacteria, causing the flowers to last longer. Floral Foam is the plastic spongy material that florists use to put their many beautiful flower designs in place. It has effectively replaced the conventional way of arranging flowers which entailed utilizing wet newspaper, twigs, chicken wire and pin holders. The recurring problem in the past with these traditional methods of flower arrangement is the shorter lifespan of the floral designs that may take hours to create. Using floral foams not only helps in keeping the artistic designs in place, but they also make your flowers last longer. Floral Foam is the plastic spongy material that florists use to put their many beautiful flower designs in place. It has effectively replaced the conventional way of arranging flowers which entailed utilizing wet newspaper, twigs, chicken wire and pin holders. The recurring problem in the past with these traditional methods of flower arrangement is the shorter lifespan of the floral designs that may take hours to create. Using floral foams not only helps in keeping the artistic designs in place, but they also make your flowers last longer. Floral Foam is the plastic spongy material that florists use to put their many beautiful flower designs in place. It has effectively replaced the conventional way of arranging flowers which entailed utilizing wet newspaper, twigs, chicken wire and pin holders. The recurring problem in the past with these traditional methods of flower arrangement is the shorter lifespan of the floral designs that may take hours to create. Using floral foams not only helps in keeping the artistic designs in place, but they also make your flowers last longer. Agood foam should have a strong flower holding power. When inserting flowers, it must be able to hold the weight of the flowers Uses and Applications Open-celled phenolic foam that readily absorbs water and is used as a base for flower arrangements: Foliage green in color and holds about 40 times its weight in water. Wet foam is used for fresh flowers. Highly water absorbent and very fine and compact. The wet foam is also available in many forms. Some are shaped into balls or spheres, for making pomanders or interesting centerpieces. For the use of bridal bouquets, they come with plastic holders. For the use of wreaths, they come with a plastic container in the shape of doughnut or heart-shape. It all depends on what one is making. Dry foam is used for artificial flower arrangements. Market Survey India is also the second largest consumer base and has unlimited opportunities for growth in flower retailing. India's flower trade is attracting a large demand from an estimated 300 million middle class people. Flower consumption in the cities and major towns is reportedly growing at 40 per cent per annum. Flower retail shops and boutiques have mushroomed all over the cities and towns. The demand will get further impetus with the growth of modern retailing concepts. Commercial floriculture is as beneficiary of the policy of crop diversification in agriculture. The growth in this segment is reflected in rising domestic demand for flower and floral exports. Commercial floriculture is increasingly being considered a high remunerative economic activity by small and large farmers across the country and if the sector gets organized, there could be a massive Rs. 10,000 crore business opportunity. It is worthwhile noting that despite India's share in the $ 11 billion global market for flowers and flower products having touched just about 0.65 per cent, the growth potential is large. Recognizing the importance of the sector, government of India as well as state governments has taken steps to provide support to the sector. Corporate Houses are encouraged to set up units with global scale and size, so they can meet the volume, consistency and quality demands of the global buyers. For instance, companies like Reliance, ITC, Tata Tea, Bharti Group, AV Birla, Big Apple, Namdhari Fresh, Subhiksha, Shopper's Stop will be entering to tap this as a potential business opportunity or as bulk buyers for their retail chains. On globalization, floriculture has become one of the important commercial activities in Indian agriculture. Indian floriculture industry comprises the florist trade, nursery plants, bulb and seed production, apart from production of micro-propagation material, and extraction of essential oils from flowers. The industry has been growing at a CAGR of 25 percent over the past decade, with production area growing at a CAGR of 6.89 percent since 2000-01.
Plant capacity: 500 Kgs/Day.Plant & machinery: Rs.73 Lakhs.
Working capital: -T.C.I: Cost of Project:286 Lakhs.
Return: 27.00%Break even: 52.00%
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PARTICLE BOARD FROM BAGASSE - 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

Bagasse is the waste of sugar industry. It can be used for the production of bagasse base board or solid fuels or for the production of power or for the production of Alcohol. Now we are intending to produce bagasse base board. For the manufacturing of bagasse base board, it-should be in the form of fine particle and other raw material used phenol formaldehyde base adhesive and neem leaf dust. The required plant machineries are solid mixing machine, hydraulic press, hot air dust or drier and S.S made mould. There is gradually demand increase in wood base products. There are few manufacturers who makes board by partial use of fine particles of bagasse. In this product manufacturing there is very minimum amount of environmental pollution. The product board can compete with the ply board or wood base board. This can be very safely handled and transport from one place to another place. Quality of board depend on the fine technique of finishing. Any new entrepreneur may enter into this field will be successful. It is solid, sort and net easily breakable. It is not easily effected by weather and temperature up to 60 0C. It can be transport from one place to another place. It can be sized easily according to requirement. USES & APPLICATION It can be used for making different variety of furniture like, chair, table, bed etc. It can be used for making panel board, windows, doors etc. It can be used for making partition in the room. It is used in Construction companies, school, colleges, paints, and for domestic uses. MARKET SURVEY Few organized and many private organizations are engaged in the manufacturing of ply board or wood board or bagasse base board. There is growth about 5-8% per annum. These is no import of ply board, these is scope of export of ply board as well as wood board is there. In the near future projected demand of bagasse base board will be increased by 5% as this is the product of wood substitute.
Plant capacity: 2000 Nos./DayPlant & machinery: Rs. 637 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 1098 Lakhs
Return: 26.59%Break even: 53.25%
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RICE BRAN OIL (SOLVENT EXTRACTION)- Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Plant Layout

Rice is an important food crop. It is consumed by more than half of the world’s population living in the developing countries. The demand of rice is increasing every day with the rise in population. It is therefore imperative to have continuous and concerted efforts to increase rice production to keep pace with the demand. Among the several approaches, varietal improvement through development of varieties with inherent high yielding potential, resistance to major biotic and abiotic stresses and adaptable to various rice growing environment is of paramount importance. Rice bran is a by- product resulting from the processing of rice. Even though the process, which consists in removing certain outer layers of the caryopsis, is basically the same in all cases, it can be carried out in a number of ways, some of which have a vital bearing on the characteristics of the end product. The bran thus produced may have quite different properties; therefore their particular identity should be differentiated and maintained. Rice bran is the main source of rice oil. The majority of available bran continues to be used for animal feeds without being extracted for the oil. Rice oil, also called rice bran oil, has been used extensively in Asian countries. Rice oil is a minor constituent of rough rice when compared with the carbohydrate and protein content. Two major classes of lipids are present: those internal within the endosperm and those associated with the bran. The internal lipids contribute to the nutritional, functional, and sensory qualities of rice. Rice bran oil is truly “The World’s Healthiest” edible oil, containing vitamins, antioxidants, nutrients and Trans fat free. It is not just delicate and flavorful; it can help lower cholesterol, fight diseases, enhance the immune system, and fight free radicals and more. Rice bran oil is extremely light, versatile and delicious. Used to fry, sauté, salad dressings, baking, dipping oils and where ever you use cooking oil. It is amazing cooking oil- light, healthy and also best in taste. Rice bran oil is vastly superior to traditional cooking oils and can be considered nutraceutical (food as medicine) oil that is perfect for all your healthy cooking needs. Rice bran oil is quickly becoming a favorite in commercial frying to replace hydrogenated oils that contain trans fat. This is due to rice bran oils health, flavor and performance benefits. Rice bran is a by-product of the rice milling process. Rice bran is the most important source of edible oil among the unconventional sources. Rice bran is the brown coating around the white starchy rice kernel, which is obtained by de-husking paddy and polishing the rice. While white rice holds little nutritional value, the bran that is removed contains 65 percent of the rice kernel’s nutrients and boasts a bounty of healthful benefits. The thin brown layer that is milled off in the processing of white rice, rice bran is just as effective as the other bran in fighting high cholesterol and providing high-grade fiber. USES & APPLICATION The crude bran oil thus obtained can be used for manufacture of soap, emulsifiers, fatty acid, plasticisers, cosmetics and tocoferol (vitamin E) etc. Crude rice bran oil is an edible grade vegetable oil intended for additional processing before human consumption. Crude rice bran oil is also source of high value added by-products. Thus, if the by-products are derived from the crude rice bran oil and the resultant oil is used as a feedstock for biodiesel, the resulting biodiesel could be quite economical and affordable. Crude rice bran oil is a rich source of high value-added byproduct. Therefore, use of rice bran oil as raw material for the production of biodiesel not only makes the process economical but also generates value added bio-active compounds. Crude rice bran oil helps reduce dust in feed, making it more palatable to animals. Moreover it acts as a lubricant in animal feed pelletization stage. Crude Rice bran oil is used as a raw material in manufacturing refined Rice bran oil. Rice bran with low levels of available carbohydrate (25 per cent) and high level of fat (20 per cent) can be considered as a good source of energy when used as a supplementary food for diabetics. Rice bran with 15 to 20 per cent oil can serve as a good source of energy and Essential Fatty Acids (EFA). It is also a commercial source of edible oil. Rice bran wax can be used in the preparation of candles, polishes, cosmetics, emulsifiers and other industrial preparations. It is the cuticle existing between the rice and the husk of the paddy, which comprises the germ the perricorp, and aleuronic layer. The bran is obtained as a by-product in rice milling during polishing of rice obtained after dehusking of paddy etc. MARKET SURVEY India produces about 80 million tonnes of paddy annually. This can yield about 5 million tonnes of rice bran and to the extent of 8 lakhs tonnes of rice bran oil. During 1983 - 84, the country processed only 13 lakhs tonnes of rice bran, though the installed processing capacity is around 32 lakhs tonnes. Production of rice bran oil is currently estimated at about 2 lakhs tonnes and hardly 10-15 per cent of it is of edible grade, although the potential availability is reckoned at about 8 lakhs tonnes. The wide gap between the actual production and the potential availability of rice bran oil is primarily due to the fact that at present around 70 per cent of the paddy produced in the country is processed through huller mills while only 30 percent is processed by modern Sheller mills. It has been estimated that huller mills number about 80,000 while there are only 28,000 modern Sheller mills. PRESENT MANUFACTURERS A G Fats Ltd. Agrawal Oil Extractions Ltd. Agro Tech India Ltd. Balaji Agro Oils Ltd. Bharani Oils Ltd. Boppana Oils Ltd. Cethar Foodoil Ltd. Chaitanya Oils Ltd. Globus Industries & Services Ltd. Goa Agro Oil Ltd. Godavari Edible Bran Oil Ltd. J R Foods Ltd. J S P Oils & Fats Ltd. K G N Agro Internationals Ltd. Kanakadurga Agro Oil Products Ltd. Kedia Overseas Ltd. Lakshmi Energy & Foods Ltd. Malwala Oils Ltd. Midland Industries Ltd. Modi Naturals Ltd. Morinda Overseas Inds. Ltd. Neha Oils Ltd. Patliputra Industries Ltd. Prakash Solvent Extractions Ltd. Raghunath Cotton & Oil Products Ltd. Ravindra Solvent Oils Ltd. Rice Oil & Foods Ltd. S K M Animal Feeds & Foods (India) Ltd. Sambandam Solvent Extraction Ltd. Satyakala Agro Oil Products Ltd. Sethia Oil Inds. Ltd. Sethia Oils Ltd. Shanti Kunj Solvent Ltd. Shree Madhav Edible Products Ltd. Shree Shakthi Agro Oils Ltd. Siddaganga Oil Extractions Pvt. Ltd. Siris Agro Ltd. Sona Oil & Chemical Inds. Ltd. Sonitpur Solvex Ltd. Sree Tulasi Solvent Extractions Ltd. Sri Murugarajendra Oil Industry Ltd. Srihitha Refineries Ltd. Sudha Agro Oil & Chemical Inds. Ltd. Tara Health Foods Ltd. Thapar Agro Mills Ltd. Unique Organics Ltd. Vegepro Foods & Feeds Ltd. Vijay Agro Products Pvt. Ltd.
Plant capacity: 388 MT/DayPlant & machinery: Rs. 615 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 1760 Lakhs
Return: 30.02%Break even: 47.16%
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IRON ORE MINING - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Layout

An ‘Ore’ may be defined as the aggregate of minerals from which a desired constituent mineral can be extracted with profit. The most used of all metals “Iron” is believed to be the ninth most abundant element in the Universe. The tough stuff “Iron” makes up the earth’s core and is considered to be the base of civilization. The concentration of iron in the structure of the earth ranges from almost 80% in the inner core to about 5% in the outer crust. Iron is not found in the free elemental state. As technology advanced during the middle Ages, the trench was replaced by a small shaft furnace, and from this the present day blast furnace has developed. The use of waterpower to operate the blast was introduced during the 14th century. The consequent considerable increase in furnace temperature resulted in the production of iron with a much higher carbon content than formerly, namely cast iron. This was not malleable but it was soon discovered how this might be converted into malleable iron by a second heating in an ample supply of air (refining). The iron industry received a great impetus at the end of the 18th century, when the demand for iron began to increase as a result of the invention of the steam engine and the railway. The shortage of wood charcoal led to the introduction of coke, as fuel and as reducing agent. Coke was first used in the blast furnace by Abraham Darby, in 1732. The refining process underwent fundamental improvements during the 19th century, through the introduction of the blast refining method (Bessemer Process, 1855; Thomas-Gilchrist process, 1878) and of regenerative heating (Siemens-Martin process 1865). Later, smelting in the electric furnace has been introduced for the production of certain high-grade steel. Iron is the cheapest and most widely used metal. Its annual production exceeds by far that of all other metals combined. It comprises approximately 93% of the tonnage of all the metals used. Iron makes 5% of the earth’s crust, and is not found in its elementary form, but in the form of chemical compounds with other elements in hundreds of minerals of importance. It is the most wanted ferrous metal having wide application in several industries. Iron plays a vital role in development of any country. Iron and its alloys specially steel are mainly used in civil and engineering industries without which the entire mankind could not have come to the modern age of high quality living. Iron ore is the most important raw material for making pig iron, sponge iron and steel too. To cater to different product needs, many steel plants and ferro-alloys industries have been set up in India. Iron ore in different form is also used in other industries like cement, foundries, paint and glass. USES & APPLICATION Iron ore is used mainly for making pig iron, sponge iron and steel. Iron and steel together form the largest manufactured products in the world and each of them enters into each branch of industry and is a necessary factor in every phase of our modern civilization. Pure iron has relatively few and quite special uses. Ingot iron is galvanized for roofing, siding and tanks. In the form of corrugated pipe, it is used for culverts. Because of its relatively high purity, it is suited to oxyacetylene welding, both as material to be welded and as welding rod. It is used in vitreous enameling. Its good ductibility makes it suitable for deep drawing operations as in the manufacture of appliance part, e.g. washing machine tube; relatively low electrical resistance and high magnetic permeability lead to its use in many types of electrical equipment, generator fields, magnetic parts of relays, magnetic brakes and clutches. Iron ore is also used in ferro- alloy, cement, foundry, vanaspati and glass factories. MARKET SURVEY The Global Iron Ore Mining industry's financial performance has been highly volatile over the past five years. The industry weathered through triple-digit revenue spikes and double-digit declines. After two years of extraordinary growth in 2010 and, to a lesser extent, 2011, revenue contracted in 2012 due to plummeting prices of iron ore. However, according to IBIS World industry analyst Agiimaa Kruchkin, “In 2013, industry performance is expected to recover on the back of rebounding iron ore prices.” Consequently, industry revenue is expected to grow 4.7% to total $264.3 billion over the year. Profit has been similarly unstable, though it has increased overall at an annualized rate of 5.5% to about 43.2% of revenue in 2013. Despite a volatile performance, tremendous growth over the period has ultimately offset any declines, leading to estimated average annual revenue growth of 14.6% in the five years to 2013. Growth for the Global Iron Ore Mining industry has primarily occurred on the back of higher iron ore output and prices. Strong growth in large emerging nations, such as China and India, has driven the demand for iron ore and underpinned higher prices during most of the five-year period; as a result, industry revenue and profit have expanded rapidly. “The industry’s major players, such as Vale and Rio Tinto, have all benefited from these positive conditions, which have allow these companies to acquire several smaller companies over the period and increase market share,” says Kruchkin. Nonetheless, the industry retains its low-to-moderate market share concentration. Total iron ore production worldwide is expected to reach about 2.87 billion metric tons in 2013 (compared with 2.10 billion metric tons in 2008). More than half of this total will be traded internationally. Trade occurs primarily between regions rather than within regions, although there is some intraregional trade in Europe and North America. The major importing regions are North Asia and Europe, while the major exporting regions are South America and Oceania. Following the recession, most iron ore supply contracts shifted from annual pricing (which has been the norm since the 1960s) to more flexible quarterly or even monthly pricing. PRESENT MANUFACTURERS A Narrain Mines Ltd. B G H Exim Ltd. Chowgule & Co. (Salt) Ltd. Concast Steel & Power Ltd. East India Minerals Ltd. Electrosteel Castings Ltd. Essel Mining & Inds. Ltd. Femnor Mineral (India) Ltd. Frontline Corporation Ltd. Gimpex Ltd. Godawari Power & Ispat Ltd. Grace Industries Ltd. H L L Lifecare Ltd. I B C Ltd. Indian Potash Ltd. Jain Granites & Projects India Ltd. K I O C L Ltd. K N R Infrastructure Projects Pvt. Ltd. Kalyani Steels Ltd. Kohinoor Steel Pvt. Ltd. M G M Minerals Ltd. M M T C Ltd. M S P L Ltd. M S P Steel & Power Ltd. Maharashtra State Mining Corpn. Ltd. Mangal Steel Enterprises Ltd. Mark Steels Ltd. Metrochem Industries Ltd. Metroglobal Ltd. Monnet Ispat & Energy Ltd. Mysore Minerals Ltd. Mysore Sales International Ltd. Orissa Manganese & Minerals Ltd. Orissa Minerals Development Co. Ltd. Orissa Mining Corpn. Ltd. P K S Ltd. Rameshwara Jute Mills Ltd. Resurgere Mines & Minerals India Ltd. S P S Metal Cast & Alloys Ltd. S P S Steels Rolling Mills Ltd. S T C L Ltd. Sandur Manganese & Iron Ores Ltd. Sanjana Cryogenic Storages Ltd. Sesa Goa Ltd. Sesa Mining Corpn. Ltd. Sesa Resources Ltd. Shri Ramrupai Balaji Steels Ltd. Soneko India Ltd. Sunil Ispat & Power Ltd. Trimex Industries Ltd. Umil Share & Stock Broking Services Ltd. Usha Ispat Ltd.
Plant capacity: 140 MT/DayPlant & machinery: Rs. 358 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 635 Lakhs
Return: 28.18%Break even: 57.96%
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MULTISPECIALTY HOSPITAL - Detailed Project Report, Profile, Business Plan, Trends, Market Research, Survey, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics, Working Capital Requirement, Plant Layout, Cost of Project

The Indian healthcare dates back to the Vedic system of healthcare (Ayurveda) in 5000 BC. The Ayurvedic principles of positive health and therapeutic measures relate to physical, mental, social and spiritual welfare of human beings. During the early Vedic period, Ayurveda was perhaps the only system of overall healthcare and medicine. It enjoyed the unquestioned patronage and support of the people and their rulers. Ayurveda proliferated the most during the Vedic period. The Vedic period is followed by a long medieval history marked by uncertain political conditions and several invasions from outside the country when Ayurveda faced utter neglect and its growth stunted. Unani medicine was brought into India during this time and gained momentum with the extensive support of Mughal emperors. With the British invasion, Allopathy was also brought to India and soon got acceptance for swift results. Today, with continuous research and development, Aallopathy dominates the Indian health care market. Healthcare industry in India is divided into two segments - services and manufacturing. While the manufacturing segment consists of both medical equipment manufacturing industry and the pharma production, the services segment is basically split into direct services and indirect services. Hospitals, health insurance services and R&D services are considered as direct services, while third party insurance, claims settlement services and others, are considered as indirect services. The chart given below shows the structure of the industry. The estimated size of Indian Healthcare industry was USD 35 billion in 2008 and grew at 23 per cent per annum and touched USD 80 billion in 2012 and by 2017 will reach over USD 150 billion. There is an increasing number of private and public healthcare facilities and are expected to rise in demand for the industry accounting for USD 6.7 billion.A specialty hospital is dedicated to specific sub-specialty care (paediatric centres, oncology centres, psychiatric hospitals). Patients will often be referred from smaller hospitals to a speciality hospital for major operations, consultations with sub-specialists and when sophisticated intensive care facilities are required. These hospitals have highly trained specialists, high-end technology and provide round the clock services. These hospitals are able to do specialised tests, undertake dialysis for acute renal failure, provide ventilation to patients with respiratory failure and render intensive care to critically ill patients. These hospitals undertake research and have adequate library facilities. These hospitals concentrate on a particular organ of the body and provide medical care e.g., cancer, dental, psychiatry, T.B. etc. MARKET SIZE & GROWTH The healthcare equipment sector attracted 8.8 per cent of the total investments in terms of deal value with an aggregate of US$ 249.01 million (20 deals), according to data released by VCCEdge. The hospital and diagnostics centre in India received foreign direct investment (FDI) worth US$ 1,597.33 million, while drugs & pharmaceutical and medical & surgical appliances industry registered FDI worth US$ 10,318.17 million and US$ 622.99 million, respectively during April 2000 to March 2013, according to data provided by Department of Industrial Policy and Promotion (DIPP).The diagnostics sector in India has been witnessing immense progress in innovative competencies and credibility. In addition, the emerging sectors, such as bio-generics and pharma packaging are also paving way for the pharmaceutical market to continue its upward trend during FY 2012- 2014 FY. To determine the feasibility of the project, the first consideration in the survey is to study the character, needs and possibilities of the community which the hospital is going to serve. Based on the health indicators for India released by the WHO, CRISIL Research estimates the Indian healthcare delivery industry to reach Rs 2.3 trillion in 2010-11. As healthcare coverage across the country increases, the industry is expected to register a CAGR of 12 per cent to reach Rs 4.2 trillion in 2015-16. As private investments have been skewed towards in-patient department (IPD) treatments, its share in the overall market is expected to increase from 64 per cent in 2010-11 to 66 per cent by 2015-16. The growth in demand for healthcare delivery services will be mainly driven by a combination of various factors including changing demographics, increasing income levels, greater health awareness and increasing health insurance coverage. Investments of over Rs 5.6 trillion required to attain healthcare delivery benchmarks India lags behind several global benchmarks for healthcare delivery. In terms of both healthcare infrastructure and manpower, India ranks below even developing countries like China, Thailand, Sri Lanka and Vietnam in terms of both beds to population and physicians to population ratios. In order to meet the global median of 24 beds per 10,000 population, as per WHO statistics, investments of Rs 5.6 trillion would be required over the next 5 years. The growth in the healthcare services in the country is primarily driven by the 350 million strong middle class people aspiring for quality healthcare services, thus increasing international confidence on India as a potential, high quality and low cost medical tourism destination. According to the WHO report, India needs to add 80,000 hospital beds each year for the next five years to meet the demandsof its growing population. High quality talent pool, proven track record, favourable government policies, ability todeliver healthcare services at low cost and high quality infrastructure has put India on the global map for outsourcing various healthcare related services. This has been further intensified by Government of India’s recent budget declarations, where enough emphasis has been given on setting up of healthcare delivery infrastructure mainly in Tier – I & Tier – II cities. PRESENT MANUFACTURERS Alps Hospital Ltd. Amri Hospitals Ltd. Apollo Hospitals Enterprise Ltd. Apollo Hospitals Intl. Ltd. Apollo Lavasa Health Corpn. Ltd. Artemis Health Sciences Pvt. Ltd. Artemis Medical Institute & Hospitals Pvt. Ltd. Asia Healthcare Devp. Ltd. Asian Heart Institute & Research Centre Pvt. Ltd. Ayurvedagram Heritage Wellness Center Pvt. Ltd. Billroth Hospitals Ltd. Brahmaputra Hospitals Ltd. Breach Candy Hospital Trust Central Travancore Specialists Hospital Ltd. Chandak Hospital & Research Insititute Ltd. Chennai Meenakshi Multispeciality Hospital Ltd. Crystal Hospitals Ltd. Deccan Hospitals Corpn. Ltd. [Merged] Dr. Agarwal'S Eye Hospital Ltd. Durgapur Projects Ltd. Emed.Com Technologies Ltd. Escorts Heart & Superspeciality Institute Ltd. Escorts Hospital & Research Centre Ltd. Fortis Health Mgmt. Ltd. Fortis Hospitals Ltd. Fortis Hospotel Ltd. Fortis Malar Hospitals Ltd. Galaxy Care Laparoscopy Institute Pvt. Ltd. Ganga Care Hospital Ltd. Gokuldas Hospitals Ltd. Goodwill Hospital & Research Centre Ltd. Gowri Gopal Hospitals Pvt. Ltd. Harvey Health Care Ltd. Hometrail Buildtech Pvt. Ltd. Hometrail Estate Pvt. Ltd. Imperial Hospital & Research Centre Ltd. Indiaco Health Care Pvt. Ltd. Indraprastha Medical Corpn. Ltd. International Hospital Ltd. Jaya Diagnostic & Research Centre Ltd. Jubilant First Trust Healthcare Ltd. K M C Speciality Hospitals (India) Ltd. Keshlata Cancer Hospital Ltd. Ketki Research Institute Of Medical Sciences Ltd. Kovai Medical Center & Hospital Ltd. Lakeshore Hospital & Research Centre Ltd. Lotus Eye Care Hospital Ltd. Mahalaxmi Hospital Ltd. Mandke Foundation Mangal Anand Health Care Ltd. Mayo Hospitals Ltd. Meridian Medical Research & Hospital Ltd. Miot Hospitals Ltd. Modern Hospital Kodungallur Ltd. Nagarjuna Ayurvedic Centre Ltd. Nagarjuna Hospitals Ltd. Nairsons Medical Services Ltd. Newrise Healthcare Pvt. Ltd. Noida Medicare Centre Ltd. Onnu Kurae Ayiram Yogam Mission Hospital Ltd. Peerless Hospitex Hospital & Research Center Ltd. Pulikkal Medical Foundation Quality Care India Ltd. R M C Med Ltd. Rajasthan Cancer Cure Hospital Ltd. Rama Medicares Ltd. Ramkrishna Care Medical Sciences Pvt. Ltd. Regency Hospital Ltd. S J S Holdings Ltd. S R L Diagnostics Private Ltd. S R L Ltd. Sada Sharada Tumour & Research Institute. Sahara India Medical Institute Ltd. Sahyadri Hospitals Ltd. Samudra Healthcare Enterprises Ltd. Saumya Medicare International Ltd. Sharma East India Hospitals & Medical Research Ltd. Shushrusha Citizens' Co-Op. Hospital Ltd. Soni Medicare Ltd. Sterling Addlife India Ltd. Sunlit Hospital Ltd. Superior Medicare Ltd. Sushrut Hospital & Diagnostic Ltd. Sushruta Medical Aid & Research Hospital Ltd. Tamilnad Hospital Ltd. Trichur Heart Hospital Ltd. Trivandrum International Health Services Ltd. Trivandrum Medical Speciality Services Ltd. Valluvanad Hospital Complex Ltd. Visakha Hospitals & Diagnostics Ltd. Win Health Care Pvt. Ltd. Wockhardt Hospital Ltd. Zubeda Hospitals Ltd.
Plant capacity: 317 Patients/DayPlant & machinery: Rs. 5280 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 7778 Lakhs
Return: 27.77%Break even: 34.95%
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SILICA FROM RICE HUSK ASH - 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

Rice husk is an agricultural residue easily available in rice producing countries. India is a major rice producing country, and the husk generated during milling is mostly used as a fuel in the boilers for processing paddy, producing energy through direct combustion & or by gasification. The rice husk contains about 75% organic volatile matter & the balance 25% of the weight of this husk is converted into ash during the firing process, is known as rice husk ash (RHA). This RHA in tern contains around 85%–92% amorphous silica. Silica is one of the valuable inorganic chemical compounds. It can exist in gel, crystalline and amorphous forms. It is the most abundant material in the earth’s crust. Silica is the major constituent of rice husk ash. With such a large ash content & silica content in the ash it becomes economical to extract silica from the ash, which has wide market & also takes care of ash disposal. Precipitated Silica (also called particulate silica) is composed of aggregates of ultimate particles of colloidal size that have not become linked in massive gel network during the preparation process. It is an amorphous form of silica; the word amorphous denotes a lack or crystal structure, as defined by x-ray diffraction. Early interest in amorphous silica was purely academic. Amorphous silica can be broadly divided into three categories. Vitreous silica or glass made by fusing quartz, Silica made indicating either amorphous or crystalline silica with high speed neutrons & Micro amorphous silica. Micro amorphous silica includes sols, gels powders & porous glasses, all of which are composed of ultimate particles or structural units less than 1/um in diameter. These silica have high surface area, generally greater than 3m2/g. Micro amorphous silica can be further divided into micro particulate silica microscopic sheets & fibers & hydrated amorphous silica. .Gynogenic silica’s are formed at high temperature by condensation of SiO2 from the vapor phase, or at lower temperature by chemical reaction in the vapor phase followed, by condensation. Silica formed in an aqueous solution can occur as sols, gels or particles. A gel has a three-dimensional, Continuous structure, where as a sol is a stable dispersion of fine particles. Macroscopic particles are formed by aggregation of smaller particles from either a gel or so. Amorphous silica is precipitated from super saturated solution obtained by concentrating an under saturated solution a hot saturated solution, or generating Si(OH)4 of silica ester SiH4, SiS2, SiCl4 or Si. Precipitated Silica soluble silicate solutions are of fine controlled particle size & porous in nature. Precipitated silica powders have a more open structure with higher volume than dried pulverized gels. The physical & chemical properties or precipitated silica vary according to the manufacturing process. Ultimate & aggregate particle size in silica’s precipitated from solution can be varied by reinforcement & control of suspension pH, temperature & salt content. The particle size in gynogenic silica’s is controlled by combustion conditions. The surface area as determined by nitrogen adsorption is a function of particle size. USES AND APPLICATION Precipitated silica is used as filler for paper & rubber as a carrier & diluents for agricultural chemicals, as an anti caking agent, to control viscosity & thickness and as a cleansing agent in toothpastes & in cosmetics. Precipitated silica also finds its applications as anti caking agents in food industry & as thermal insulators. Precipitated silica is perhaps the best not black filler and reinforcing agent used in rubber industry especially for the production of silicon rubber. The distinguishing feature of the growth of precipitated silica industry in India is that it has classifiably flourished in the small-scale sector. Readily available new materials low capital investment & high rates of return offer a distinct advantage to the small-scale manufacturers to venture into this field. MARKET SURVEY Precipitated Silica is used as filler for paper & rubber as a carrier & diluents for agricultural chemicals, as an anti caking agent, to control viscosity & thickness and as molecular sieves. So, we can better understand the growing demand of precipitated silica by seeing the demand of the following industries.Silicon is a unique material. Its abundance is one of the reasons it is used for a wide range of purposes. One of the most important uses of silicon is as a core element of microchips. To manufacture microchips, the microelectronics industry requires silicon with an impurity level of 10–11. Since silicon forms a stable compound with oxygen (silicon oxide, SiO2), the deoxidization of silicon oxide needed to reach this high level of purity consumes a substantial amount of energy, which, in turn, affects the environment through emissions of carbon dioxide (CO2).Bulk silicon wafers used at the beginning of the integrated circuit making process must first be refined to "nine nines" purity (99.9999999%), a process which requires repeated applications of refining technology. The silicon demand by the PV cell industry can be estimated using the available amount of silicon in combination with the amount of silicon needed to produce 1 MWp of solar cells. Global production of rice, the majority of which is grown in Asia is approximately 550 million tonnes/year. This is generated at a rate of about 20% of the weight of the product rice, or some 110 million tonnes per year globally. The husk in turn contains between 15 and 20% of mineral matter the majority of which is amorphous silica. There is a growing demand for finely divided amorphous silica in the production of high strength, low permeability concrete, for use in bridges, marine environments, and nuclear power plants. This market is currently filled by silica fume. Limited supply and high demand has pushed the price of silica fume to as much as US$ 1,000/tonne in some market. Rice husk has the potential to generate 16.5 to 22 million tonnes of ash containing over 90% amorphous silica that could be used as a substitute for silica fume. The husk has energy content of about 14 GJ/tonne so that the energy potential worldwide would be some 1.5 billion GJ/year, which at US$ 5/GJ would have an annual value of US$ 7.5 billion. This amount of energy is equivalent to over 1 billion barrels of oil per year. PRESENT MANUFACTURERS Anand Engineers Pvt. Ltd. Anand Lubricants Pvt. Ltd. Camco Multi Metal Ltd. Elofic Industries Ltd.
Plant capacity: 20 MT/DayPlant & machinery: Rs. 518 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 832 Lakhs
Return: 24.91%Break even: 48.13%
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READY MIX CONCRETE - 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

Ready mix concrete is a modern trend of introduction in the Asian Countries. It is already introduced long before in the European Countries. It is new concept of use concrete in the construction area. Ready mix concrete has advantages in the area where immediate requirement of concrete mixture like in the preparation of bridge overhead roads on or the road construction. In India there is a hopefull to get good scope of RMC within short period. The batching, mixing, transportation, placing, compaction, finishing and curing are very complimentary operations to obtain desired good quality concrete. The good quality concrete is a homogeneous mixture of water, cement, aggregates and other admixtures. It is not just a matter mixing these ingredients to obtain some kind of plastic mass, but it is scientific process which is based on some well established principles and governs the properties of concrete mixes in fresh as well as in hardened state. The aim of quality control is to ensure the production of concrete of uniform strength in such a way that there is a continuous supply of concrete delivered to the place of deposition, each batch of which is as nearly like the other batches as possible. The production of concrete of uniform quality involves five definable phases: Batching or measurement of materials, Mixing of concrete, Transportation, Placing, compaction and finishing of concrete, and Curing. USES & APPLICATION It is used in the construction of bridge, dam etc, It is used in the construction overhead roads, pools, multi stories building etc, It can be directly used at the construction site. It help greater element of automation and precision concrete mixing. A much higher quality and more constituent uniformity and increase standardization and speed which is done ten times faster as compared to site mixed concrete. There are many advantages of RMC over site mixed concrete. Technologically speaking, ready mixed concrete is certainly advancement over the age-old site mixed concrete. The benefits of RMC in terms of quality, speed, life-cycle cost and environmental friendliness are overwhelmingly superior to those of site mixed concrete. MARKET SURVEY India is the second largest producer of cement in the world after China. It is followed by Japan and the USA. Cement consumption is very closely linked to the performance of the construction industry; however, since cement is used in both residential and non-residential construction, it doesn’t experience extreme cycles. The non-residential sector is classified into commercial and industrial, and institutional segments. The residential and non-residential sectors are also classified as private and public construction. Cement and ready-mix concrete demand is dependent on the level of construction activities. Construction activities are in turn closely related to a number of macroeconomic factors such as consumer spending, population growth, manufacturing sector growth, inflation rates, government spending etc. The construction industry is the second largest industry in India after agriculture. It accounts for about 11% of India’s GDP. It makes significant contribution to the national economy and provides employment to large number of people. Construction constitutes 40% to 50% of India's capital expenditure on projects in various sectors such as highways, roads, railways, energy, airports, irrigation etc. There are mainly three segments in the construction industry like real estate construction which includes residential and commercial construction; infrastructure building which includes roads, railways, power etc; and industrial construction that consists of oil and gas refineries, pipelines, textiles etc. Building material is any material which is used for a construction purpose. Many naturally occurring substances, such as clay, sand, wood and rocks, even twigs and leaves have been used to construct buildings. Apart from naturally occurring materials, many man-made products are in use. The biggest increase in private participation is expected in roads (from 5 per cent to 36), ports (47 per cent to 74 per cent) and railways (less than 1 per cent to 20 per cent). The Planning Commission estimates that the remaining infrastructure investments will be funded by the central and state government. According to a study by ASSOCHAM, the burgeoning Indian construction industry, currently worth $70 billion, will rise to US $120 billion by 2010. The Indian construction industry, an integral part of the economy and a conduit for a substantial part of its development investment, is poised for growth on account of industrialization, urbanization, economic development and people's rising expectations for improved quality of living in the coming years. The market size of cement and ready-mix concrete is defined as the amount of cement and ready-mix concrete products supplied to the total Indian marketplace, in a particular period. Therefore, market size is determined by supply rather than demand. The Ready-mix concrete business in India is in its nascent stage. In a developed country 70% of cement produced is used by the Ready-mix concrete industry. The usage of Ready-mix concrete could not be implemented as investors felt that the plants would starve due to non-availability of cement. The levy of additional taxes and duties on RMC, entry tax and excise duty also contributed to the slow development of the concept. PRESENT MANUFACTURERS A C C Concrete Ltd. A C C Ltd. Ahlcon Ready Mix Concrete Pvt. Ltd. Ashoka Buildcon Ltd. Binani Ready Mix Concrete Ltd. D S Kulkarni Developers Ltd. Eastern Gases Ltd. Madras Cements Ltd. My Home Inds. Ltd. N C L Industries Ltd. Navkar Builders Ltd. Prism Cement Ltd. R B Gupta Financials Ltd. R D C Concrete (India) Pvt. Ltd. S R S Real Infrastructure Ltd. Samruddhi Cement Ltd. Tantia Constructions Ltd. Tarmac (India) Pvt. Ltd. Telecommunications Consultants India Ltd. Trishul Concrete Products Ltd. Ultratech Cement Ltd.
Plant capacity: 240 Cu MT/DayPlant & machinery: Rs 320 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 773 Lakhs
Return: 27.08%Break even: 46.09%
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Bread 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, Plant Economics

Modern days are changing in every movement with the advance of scientific discovery. Due to the scarcity of time now human being changes their food habits. Nobody can pay much time for their preparation of food; everybody wants to get ready made fresh food, such that one can save time. Consequently, for the need of the modern age, different kind of instant and readymade foods are developed like instant tea, instant coffee, instant milk, instant rice etc. On the above point of view bakery products are cheaper and are accepted largely as readymade food. Now in the advancement of age, use of bakery foods will gradually increase and utilization of it will be proportional to increased population. Bread is most consumable wheat-based bakery product. It contains high nutritive value. They are easy to digest and compact in size, therefore, its consumption is increasing day by day. Indian bakery industry is spreaded over all small scale; large scale and house hold sectors. First bakery in India was set up in 19th century. At present there are 21 units in organized sector and many more in small scale, cottage and house hold sectors. Breads are manufactured from flour, sugar, salt shortening (one type of fat), dried bakery yeast, vegetables, fruits etc. Bread is manufactured through fermentation and baking process. The manufacturing process and techniques are so simple that they can easily be adopted for production at any level. Uses & Applications Bakery products in India are now in common use and are no more exclusive to a few households or classes of performs. Even then, unlike advanced countries where breads are considered basic essentials of a household budget, in India the element of capacity to pay continues to play a significant role . The outlay on bread, thus shares the character of discretionary expenditure rather than expenditure on basic is applicable. This necessity more in the case of biscuits than in the case of other bakery product. Variants of breads such as rusks have also found much acceptable among relatively poor households and workmen but other bakery products such as cakes, pastries, etc. specifically remain as the items of class consumption . Much attempt is being made to popularize bakery products among all because these products are considered easy, convenient and rather inexpensive means of taking food in hygienically prepared ready to eat form. A particular role in this direction is being played by use of both bread and biscuits as means of nutrition supplementation for large number of children, and locating and nursing mothers who are covered by various feeding programs run by number of social welfare agencies operating both at the state and the central level. It is hoped that with further modernization, with influence of urban consumption pattern, spread of industry and commerce and general change in eating habits shall gradually improve the share of rural consumption in the total market for bakery products. Few Indian Major Players are as under:- Bonn Nutrients Pvt. Ltd. Britannia Industries Ltd. Candico (I) Ltd. Daily Bread Gourmet Foods (India) Pvt. Ltd. Modern Food Inds. (India) Ltd. Nimbus Foods Inds. Ltd. Saturday Club Ltd.
Plant capacity: 15 Lakh PKTS/annumPlant & machinery: Rs. 69 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 158 Lakhs
Return: 39.00%Break even: 40.00%
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