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Business Ideas: Above 5 Crore (Plant and Machinery): Selected Project Profiles for Entrepreneurs, Startups

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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MEDICAL COLLEGE WITH 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 growth of medical education institutions especially in the private sector in India shows that the rapid growth in the number of medical colleges in India since 1950 has been driven largely by developments in the private sector. The private sector, currently accounting for over 45% of medical colleges in India, grew by 900% between 1970 and 2004, with the bulk of this growth occurring in the richer states. The growth of the private medical education sector over the last 6 decades is the most dominant feature of the Indian medical education landscape. The demand for medical professionals is tremendously increasing with the unfortunate upsurge of diseases and ailments day by day. At the same time super specialty hospitals are coming up both within the country and abroad offering employment opportunities. These along with liberalization of economy could bring better opportunities for these professionals in terms of remuneration, research and working facilities. Hospitals in India have a very bright future. India is the largest democracy in the world, is one of the fastest growing economies that is projected to more than double in the next five years.
Plant capacity: 150 Student/Annum And 750 Beds HospitalPlant & machinery: 20 Crores
Working capital: -T.C.I: 85 Crores
Return: 42.00%Break even: 37.00%
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MINI STEEL PLANT (Steel Long Products TMT Bars, Flats, Angles, Channel & Girder) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials

Steel is a generic name for an abundance durability, versatility and low cost are most useful metallic material known to mankind. Thermo Mechanical Treatment (TMT) process for reinforcement bars is opening up new vistas in composite RCC, the re-enforcing steel is the costliest constituent. This cost can be substantially reduced by using higher grades of steel re-enforcing bars. The Indian iron and steel industry has come to occupy a dominant position in the socio-economic development of the country and it is certainly a matter of pride that the India is 7th largest crude steel producing nation in the world. Steel is one of the critical inputs required to sustain the growth of the economy. In fact it is the basic input for all kinds of economic activity. With the sustained growth of the Indian economy, there has also been a remarkable growth of steel industry. Although recently there has been slow down in demand due to global financial caries, however, the growth of infrastructure, roads and bridges, civil construction and modern town ship complexes will ensure continued demand of TMT bars and other construction materials made by steel. There is a good future prospect for this industry. Few Major Players are as under: A S R Multimetals Pvt. Ltd. Banyan & Berry Alloys Ltd. Beekay Steel Inds. Ltd. Bhagwandas Metals Ltd. Brand Alloys Ltd. Concast Ispat Ltd. Deccan Alloys Pvt. Ltd. Gangotri Iron & Steel Co. Ltd. Goa Ispat Ltd. I S M T Ltd. India Steel Works Ltd. Jai Balaji Inds. Ltd. Jai Raj Ispat Ltd. M S T C Ltd. Madhusudan Special Sections Ltd. Magnum Steels Ltd. Malhotra Steels (Bombay) Ltd. Mangal Steel Enterprises Ltd. Met-Rolla Steels Ltd. Mohan Ferro Alloys Ltd. Mukand Ltd. Mukesh Steels Ltd. North Eastern Mercantiles Ltd. Partap Steel Rolling Mills (1935) Ltd. Radice Ispat (India) Ltd. Ramsarup Industries Ltd. Ramsarup Vyapaar Ltd. Rathi Bars Ltd. Rathi Steel & Power Ltd. Rathi Super Steel Ltd. Raymond Ltd. S P S Steel & Power Ltd. Shree Kamrup Roofings Ltd. Spearhead Metals & Alloys Ltd. Sree Aravindh Steel Ltd. Sri Vasavi Inds. Ltd. Stainless India Ltd. Thapsons Steels Ltd. Titan Alloys Ltd. U T Ltd. Unique Intercontinental Ltd. V B Industries Ltd. Vinayaga Vyapar Ltd. Viraj Alloys Ltd. Volvo Steels Ltd. Welspun Power & Steel Ltd.
Plant capacity: 100 MT/DayPlant & machinery: 520 Lakhs
Working capital: -T.C.I: Cost of Project : 909 Lakhs
Return: 45.00%Break even: 56.00%
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MARINE ENGINEERING COLLEGE - 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 direction in which education starts a man will determine his future life. A good degree course module recognize the wisdom in what was stated by the great philosopher hundreds of year ago. Marine Engineering is a branch of Engineering that deals with nautical Architecture and Science. The term Marine Engineering is meant for research conducted in oceans and coastal or inland waters connected to the sea. One of the most interesting things about marine engineering is that people working in this field get to experiment with all kinds of new technologies such as hydrodynamics, super conductivity and fuel cells in order to upgrade the water vessels. Marine Engineers have the complete responsibility of the ship technical management. They are responsible for selecting the ships machinery and for the design of mechanical, electrical, fluid and control system throughout the vessel. They are the members of a ships crew who are in charge for managing a team of marine technicians and crafts people. Marine engineer have a number of job opportunities on shore as well. Many international companies are willing to recruit fresh graduates in the field. They offer them training along with generous compensations that makes it a great career line. There are plenty of job opportunities in France & the U.K. as well. The very nature of the job fascinates many youngsters to take Marine Engineering as their career. Three quarters of the earths surface is surrounded by water and for that reason itself Marine Engineering is a very exciting and challenging field for those who are passionate about sea and are fond of working with tools. Even though waterways are comparatively used less for traveling, about 80% of the good transportation happens through sea. For international export and import of freights, countries mainly depend on ships and other water vessels. Marine Engineering is the most basic profession as far as ships and navigation is concerned. There is good scope for establishment of new marine college.
Plant capacity: B.E. Marine Engg. -4 Years, B.Sc. Nautical Bsc.-3 Years, 40+60 = 100 Students Per Year,Classes Avg. 216 Days in Year Plant & machinery: 685 Lakhs
Working capital: -T.C.I: 1840 Lakhs
Return: 38.00%Break even: 45.00%
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SODA ASH (Na2CO3) - 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

Soda ash is a chemical trade name donated by the anhydrous sodium carbonate, or simply “Soda”. The dehydrate variety of soda ash is frequently known in commerce by the names “Sal Soda”. Soda ash is also differentiated into two classes viz natural ash if the classes viz. natural ash if the salt is recovered from naturally occurring sodium carbonate, the synthetic ash if it is the product of the solvay or other similar commercial processes. Soda ash is known as sodium carbonate. It is one of the most important inorganic chemicals amongst others such as caustic soda, sulphuric acid, phosphoric acid and chlorine. The country is self – sufficient in the production of basic inorganic chemicals. Sodium carbonates are the backbone of modern industries. Their uses, particularly of soda ash, are so many and varied that there is hardly any industry which does not consume the carbonates. About 50 percent of the soda ash produced is used by the chemicals industry in soaps and detergents industry, it is used in the neutralization of fatty acids, as a builder in detergents formulations and in the manufacture of laundry soap; and as an ingredient in many industrial cleaning compounds. Soda ash is being produced in India by two main conventional processes like standard solvay process and dual process. In the solvay process, the main raw materials are salt and limestone which are available in abundant in the country. Soda ash is in short supply and is being imported from various countries. All imports are chanelised through State Trading Corporation, a public sector undertaking. World consumption of soda ash in 2004 was an estimated 38 mt having grown by an average of 2.6% pa in recent years but is forecast to increase at a higher rate of 3-4% pa through to 2010. Growth of this industry exceeded in recent year because of high demand rates from the world’s construction and automotive industries, especially those in China & other Asian Countries. The scope for this product is very bright. Thus, a new entrepreneur can confidently venture into this project will find it a very lucrative.
Plant capacity: 500000 MT/AnnumPlant & machinery: 611 Lakhs US$(Rs. 30550 Lakhs)
Working capital: -T.C.I: Cost of Project : 842 Lakhs US$(Rs. 42100 Lakhs)
Return: 44.00%Break even: 42.00%
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HIGH CARBON FERRO MANGANESE - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Ferroalloys are alloys with iron employed to add chemical elements into molten metal, usually during steelmaking. Ferroalloys impart distinctive qualities to steel and cast iron or serve important functions during production and are, therefore, closely associated with the iron and steel industry, the leading consumer of its products. Ferroalloys are master alloys containing iron and one or more non-ferrous metals as alloying elements. The ferroalloys are usually classified in two groups: bulk ferroalloys (produced in large quantities in electric arc furnaces), and special ferroalloys (produced in smaller quantities, but with growing importance). Bulk ferroalloys are used in steel making and steel or iron foundries exclusively, while the use of special ferroalloys is far more varied. Manganese is used in metallurgical industries in the form of ferro-manganese. Ferro-manganese contains about 80% Mn and 20% Fe. Generally ferro-manganese is produced in blast furnace or an electric furnace. There are no rigid ore-requirements for ferro-manganese produced in a blast furnace. Generally a mixture of different ores, proportional to meet the specification of the final alloy, is used. Two manganese ferroalloys, ferromanganese and silico manganese, are a key ingredient for steelmaking. The high carbon ferromanganese (7.5 % C, 74 -80 % Mn & balance Fe) is the most important grade of ferromanganese, which is produced by carbothermic reduction of high grade Mn-ores (47 - 50% Mn) and a low iron content (6% Fe). The ore should also have low silica (1%) and low phosphorus (0.14 - 0.18 % P). The ore is smelted in an electric furnace with 15 - 20 % coke weight & suitable flux (lime). The modern electric furnace route of ferro-manganese production gives 85 - 90% manganese recovery, MnO dust recycling is possible and a high degree of homogenization, slag control and furnace scabbing is practiced. Percentage of carbon present in Ferro Manganese alloys is of primary importance for steel production. Ferromanganese is widely used in the manufacture of tool steels (upto 0.4% Mn) and structural steel (upto 0.6% Mn) and also of special steels with a high manganese content (upto 12-14% Mn), as well as an alloying addition. Electrolytic high purity ferromanganese finds an increasing use in metallurgical industry as an allowing element and as a deoxidizing agent. Manganese is mostly used in steel production. Total manganese consumption by the steel industry is projected to grow at a CAR of 3.1% over the forecast period 2001-2011. More than 80% of manganese produced across the world is consumed by steel. Therefore, manganese consumption is mainly based on steel demand and is directly influenced by the steel industry. Over the past three years, as steel has witnessed an increase both in production and demand, manganese consumption has also increased simultaneously. The demand for steel has been rising due to ongoing economic boom leading to rapid growth in various industries in the world's two largest populous countries in Asia-Pacific, China and India, with simultaneous increase in production leading to wide fluctuations is steel prices. Other countries in Asia-Pacific such as Japan, South Korea, and Taiwan; Middle East, Eastern Europe, and Latin America have witnessed an increase in steel consumption. Indian ferro alloy sector has a capacity of 3.64 million tonnes. This is sufficient to take to produce more than 150 million tonnes of steel. As against this, the Indian finished steel production was only 59.02 million tonne, though there are plans to scale the steel capacity to 124.06 million tonne by 2011-12 and to about 293 million tonne by 2020. So, the Ferro alloy industry is suffering gross under utilization of capacity, and may remain so in the short to medium term. India produced 1.08 million tons (million) of manganese alloys in 2006-07 according to the IFAPA. Around 2.5 million tons of manganese ore was required for producing this ore. But as the domestic steel industry is trying hard to increase its finished steel production from 48 million in 2006-07 to 60 million by 2010, manganese ore demand and supply gap is predicted by analysts to touch 0.5 million. This shortfall is likely to be met through imports. Domestic manganese ore required for manufacturing high carbon ferromanganese is mainly obtained from Orissa Mining Corporation (OMC), Manganese Ore India Limited (MOIL) and Rungta Mines. India's ferro alloy producers include Nav Bharat Ventures, Ferro alloys corporation, Balasore alloys, Indian metals & Ferro alloys, Sri Vasavi Industries, Tata Steel (Ferro alloys & mineral division), Shyam ferro alloys, Sarda Energy & Minerals, S.A.L. Steel, Jindal Stainless, Rohit Ferro tech. Visa Steel, etc. The huge steel demand from construction, automobile and machinery building sectors due to a growing urbanization and infrastructure, and proper capacity utilization will lead the ferro Alloys Industry to a bright future in the coming years.
Plant capacity: 15000 MT/AnnumPlant & machinery: 1032 Lakhs
Working capital: -T.C.I: Cost of Project : 2319 Lakhs
Return: 42.00%Break even: 67.00%
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Bauxite ore is an important mineral used in producing alumina, the raw material that is in turn used for producing aluminum. Approximately 85% of Bauxite is converted into alumina, 5% is used in non-metallurgical bauxite applications, and the remaining 10% is utilized in other applications. Leading countries contributing for about 70% of the total mined bauxite include Australia, Guinea, Brazil and Jamaica. On the other hand, Australia, the United States, China and Jamaica account for approximately 60% of the world's alumina production. Asia-Pacific is expected to remain the fastest growing as well as the largest Bauxite and Alumina Market. Europe, the second largest market, is projected to register sales of 52 million metric tons by 2010. The worldwide capacity to produce alumina was placed at around 80 mn tonnes in 2007 and was slated to touch 100 mn tonnes in 2010. Alumina accounts for about 22% of the cost in the production of aluminium. India's share in world aluminium market is estimated at around 3%. India ranks fifth in bauxite production after Australia (62 mn tonnes), Guinea (17.50 mn tonnes), Brazil (16.20 mn tonnes) and China (10.75 mn tonnes). With a total output of 9.25 mn tonnes, the country contributes about 6% of the world's total production of 159 mn tonnes, India holds the fifth position in reserves base and is ahead of China with 2300 mn tonnes. India ranked seventh in alumina production with a total output of 3 mn tonnes, a share of nearly 5% of the global production of 61 mn tonnes. About 25% of all bauxite mined is used for producing abrasives, catalysts, adsorbents, and other industrial chemicals. Bauxite in India is available in Katni, Belgaum, Kohlapur, Ranchi, Lohardanga, Bhopal, Orissa, Andhra Pradesh. A reserve of about 571 million tons has been estimated from 25 deposits in Visakhapatnam and East Godavari District. These gibbsite bearing deposits have an average Al2O3 of 46.76%with low silica (4%) and titanium (2%) but high in iron (8-28%) and are best suited for alumina extraction by the Bayer’s process under low P.T. conditions. Other uses are in the cement industry, in the manufacture of ferric alum & aluminous chemicals. Demand for aluminium is estimated to grow at 4 to 6% per annum. The demand for the metal is expected to pick up as the scenario improves for user industries like power, infrastructure and transportation, which are all on the move. There is a good market potential and scope to venture in this field. Few Indian Major Players are as under: Bharat Aluminium Co. Ltd. Hindalco Industries Ltd. Madras Aluminium Co. Ltd. National Aluminium Co. Ltd.
Plant capacity: 19998 MT/Annum Pure Alumina from BauxitePlant & machinery: 671 Lakhs
Working capital: -T.C.I: Cost of Project : 2113 Lakhs
Return: 43.00%Break even: 48.00%
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CEMENT 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

The term cement is used to designate many different kinds of substances that are used as binders. The term cements as used henceforth will be confined to inorganic hydraulic cements, principally Portland cement. India is the second-largest producer of cement in the world after China with industry capacity of approximately 160 MT in 2006. The cement industry is regional in nature due to the concentration of limestone reserves located in a few states. This has resulted in a surplus situation in some regions and a deficit in others. Demand for cement has grown at a CAGR of 9.1% in the last two years with supply growing at a CAGR of 8.2% in the same period. With a large amount of infrastructure activities being planned in commercial, real estate and housing sector along with huge development works in roads, railways, ports and hydel projects, we expect the cement demand growth momentum to stay intact. We expect this to have a positive impact on cement prices in different regions till new capacities come up by mid-FY09. Demand for cement is correlated to the GDP growth of the country, infrastructure and industrial capex as well as exports. Strong GDP growth expected in the coming years and huge planned investments should result in healthy growth in the cement demand. The Indian economy continues to be on a much stronger growth path driven by increased amount of infrastructure spending and capex. The economy is expected to grow by 8% for the next two to three years, which will drive an increased demand growth for the cement industry. The cement demand is expected to grow at a CAGR of 10% at least for the next three years. The cement industry witnessed serious M&A activity in the past few years, as a result of which the top four players now account for almost 52-55% of the installed cement capacity of India, as against 40-42% in FY00.The M&A activity have also had global participants. The growing presence of international players bring with them better technology and operational efficiencies which could significantly alter pricing patterns. The cement industry has witnessed substantial reorganization of capacities during the last couple of years. Some examples of the consolidation witnessed during the recent past include: Gujarat Ambuja taking a stake of 14% in ACC; Gujarat Ambuja taking over DLF Cements and Modi Cement; India Cement taking over Raasi Cement and Sri Vishnu Cement; Grasim's acquisition of the cement business of L&T; Indian Rayon's cement division merging with Grasim; Grasim taking over Sri Digvijay Cements; L&T taking over Narmada Cements; ACC taking over IDCOL. There is a very good scope and market potential of cement right now. New entrepreneurs should venture into this field. Few Indian Major Players are as under: A C C Ltd. Alcon Cement Co. Pvt. Ltd. Ambala Cements Ltd. Ambuja Cements Ltd. Amirgadh Cements Ltd. Andhra Cements Ltd. Anjani Portland Cement Ltd. B R Cement Industry Ltd. Bagalkot Udyog Ltd. Balaram Cements Ltd. Banjara Cements Ltd. Barak Valley Cements Ltd. Basera Cements Ltd. Bheema Cements Ltd. Bhilai Jaypee Cement Ltd. Binani Cement Ltd. Birla Corporation Ltd. Bokaro Jaypee Cement Ltd. Burnpur Cement Ltd. C C L International Ltd. Cement Corpn. Of India Ltd. Cement Manufacturing Co. Ltd. Century Textiles & Inds. Ltd. Chaanakya Cements Ltd. Chenab Cement Ltd. Cheran Cement Ltd. Chettinad Cement Corpn. Ltd. Cochin Cements Ltd. Concorde Cement Pvt. Ltd. D L F Cement Ltd. Dakshin Cements Ltd. Dalmia Cement (Bharat) Ltd. Dalmia Cement Ventures Ltd. Deccan Cements Ltd. Desai Cement Co. Ltd. Deva Drill Tech (India) Ltd. Dhar Cement Ltd. G K W Cement Ltd. Gangotri Cement Ltd. Garden Cements Ltd. Greygold Cements Ltd. Gujarat High Tech Inds. Ltd. Gujarat Himalaya Cements Ltd. Gujarat Jaypee Cement & Infrastructure Ltd. Gujarat Sidhee Cement Ltd. Heidelberg Cement India Ltd. Hemadri Cements Ltd. Hics Cements Ltd. High-Tech Lime Products Ltd. I P I-S P Cement Co. Ltd. India Cements Ltd. Indo-American Cement Corpn. Ltd. J K Cement Ltd. J K Lakshmi Cement Ltd. Jagadamba Cements Ltd. Jagdish Constructions Ltd. Jaipur Udyog Ltd. Janpriya Cement Ltd. Jubilee Cements Ltd. Jupiter Cement Inds. Ltd. K C P Ltd. Kakatiya Cement Sugar & Inds. Ltd. Kakinada Cements Ltd. Kalinga Cement Ltd. Kalyanpur Cements Ltd. Karnataka Cement Ltd. Karnataka Instrade Corpn. Ltd. Keerthi Industries Ltd. Kohinoor Cements Ltd. L I Cement Pvt. Ltd. L I Eastern Pvt. Ltd. Lafarge India Pvt. Ltd. Lakshmi Cement & Ceramics Inds. Ltd. Lemos Cements Ltd. Lloyd Cements Ltd. Lok Cements Ltd. M G T Cements Pvt. Ltd. Madras Cements Ltd. Mahendra Cements Ltd. Makers Development Services Pvt. Ltd. Malabar Cements Ltd. Mangalam Cement Ltd. Meghalaya Cement Ltd. Modern Cement Inds. Ltd. My Home Inds. Ltd. N C L Industries Ltd. Namo Cements Ltd. Necem Cements Ltd. Neelgiri Cements Ltd. Nihon Nirmaan Ltd. Nilanchaal Cement Pvt. Ltd. Nirman Cements Ltd. North East Cements Ltd. O C L India Ltd. P R Cements Ltd. Panchmahal Cement Ltd. Panyam Cements & Mineral Inds. Ltd. Penna Cement Inds. Ltd. Prism Cement Ltd. Prudential Cements Ltd. Raasi Cement Ltd. Radhakishan Cement Ltd. Raghoji Cement Mfg. Co. Ltd. Rain Commodities Ltd. Rajapalayam Cement & Chemicals Ltd. Ranisagar Cement Co. Ltd. Rishi Cement Co. Ltd. Sabari Cements (Chennai) Ltd. Sagar Cements Ltd. Sahas Cements Ltd. Sainik Finance & Inds. Ltd. Sanjay Intra Ltd. Saraf Agencies Pvt. Ltd. Satkar Cement Co. Ltd. Satyam Cement Ltd. Saurabh Cement Ltd. Saurashtra Cement Ltd. Seetharam Cements Ltd. Shaktiman Cements Ltd. Shiva Cement Ltd. Shree Cement Ltd. Shree Digvijay Cement Co. Ltd. Shree I-Jee Cement Inds. Ltd. Shree Quality Cements Ltd. Shri Hariganga Cement Ltd. Shri Keshav Cements & Infra Ltd. Shubham Industries Ltd. Sigma Cements Ltd. Singhal Cement & Allied Inds. Ltd. Snhehadhara Industries Ltd. Somani Cement Co. Ltd. Someswara Cements & Chemicals Ltd. Sorabh Cement Ltd. South India Cements Ltd. Sri Simhadri Cements Ltd. Srichakra Cements Ltd. Star Cement Meghalaya Ltd. Sudarshan Cement & Multiprojects Ltd. Sukhchain Cements Ltd. Talavadi Cements Ltd. Tamil Nadu Cements Corpn. Ltd. Travancore Cements Ltd. Udaipur Cement Works Ltd. Ultratech Cement Ltd. Umrongso Cement Ltd. Uttar Pradesh State Cement Corpn. Ltd. Vaishno Cement Co. Ltd. Varun Cements Ltd. Vinay Cements Ltd. Virgo Cements Ltd. Visaka Cement Industry Ltd. Vishwakarma Cements Ltd. Viswam Cement Ltd. Zodiac Cements Ltd. Zuari Cement Ltd.
Plant capacity: 90,000 MT/Annum Plant & machinery: 1296 Lakhs
Working capital: -T.C.I: Cost of Project : 1750 Lakhs
Return: 42.00%Break even: 47.00%
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POTATO POWDER, GRANULES & FLAKES - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Plant Layout

Potato is one of the important tuber vegetables, which is consumed throughout the year. Indian vegetable basket is incomplete without mentioning the king of vegetables-potato-a sustaining force and a culinary delight. The tantalizing taste of nutrient-rich potatoes makes it an essential part of every breakfast, lunch and dinner worldwide. Potatoes can be consumed in varied forms. In fact, it is a vegetable that can easily be combined with any other food item including other vegetables, cereals, pulses, meat and poultry. Potato can be used to produce many value-added products. It can be roasted, boiled, fried, baked or steamed. The raw materials required are fresh potatoes. The forms of its products are single cell or cell aggregates, so we call it potato granules/powder and flakes. The main difference between potato powder and potato starch is that potato powder is the dehydration of fresh potatoes; they contain all dry matter of potatoes in addition to potato skin. To maintain the integrity of potato cell granules as much as possible, potato powder after watering have the nutrition, flavor and taste of cooked potatoes. Potato starch is only one of many ingredients of potato, so potato starch does not have the nutrition, flavor and taste of potatoes. Potato powder contain not only as the same nutrition level as cereal flour, but also rich in vitamin C and a lot of K. Potato powder contain large amounts of dietary fiber and lower fat. Do not contain cholesterol and saturated fatty acid, are convenient to eat and easy to digest and absorb, so they are particularly suitable for elderly and children to eat. Re-mixed potato powder strengthened nutrition is the full price of nutritious food accepted by the world. The storage and transportation of the potato powder are safe, the cost is low, and shelf life is longer. Using the potato powder to replace the fresh potato will greatly simplify the production process; reduce the cost and crease productivity. The storage and transportation cost of the potato powder are far lower than the fresh potatoes. It is estimate that 10 percent of potatoes produce is used as seed, 20% of produce are wasted due to inadequate storage and lack of proper transport infrastructure. The remaining 70% of potatoes (i.e.17.5 million tonnes) are consumed as fresh or processed. Of these almost 97% percent are consumed as fresh i.e. around 17.0 million tonnes are consumed as fresh potatoes is estimated at 15kg per annum. Roughly 0.5 million tonnes of potatoes are used for processing. Potato powder, Granulated and flakes are processed potatoes. It will help to increase the shelf life of potatoes. There are various machines are required for the processing of potatoes. Most of the machines are indigenously available very few of them may be imported. There are plenty of well verities of potato available for processing. The process technology can be easily available in India. As a whole the products have fair market demand. There is good scope for new entrepreneurs. Few Indian Major Players are as under: Tipsy-Topsy Exports Superveg Agrotech Pvt. Ltd. Sifter International Nile Valley Company Rice, Spice And Paper Inc.
Plant capacity: 3000 MT/Annum, 5 MT Potato Powder/Day, 2.5 MT Potato Flakes/Day, 2.5 MT Potato Granules/DayPlant & machinery: 665 Lakhs
Working capital: -T.C.I: 1240 Lakhs
Return: 36.00%Break even: 42.00%
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INTEGRATED UNIT OF RICE MILL, RICE BRAN OIL EXTRACTION WITH CAPTIVE POWER PLANT - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials

The economics of rice milling industry is largely dependent on the useful commercial utilization of its by-products. The purpose of Integrated Unit is to ensure the total utilization of all the resources or by-products available at disposal from the rice milling process are used efficiently and effectively. The by-products such as rice bran will be used for extraction of rice bran oil; the rice husk will be used for effective co generation of electricity and steam/heat for in-house consumption. The project activity is helping in conservation of natural resources like coal and HSD and above all efficient waste disposal management. Over the last decade and half, India Inc has established itself as a vibrant economy with growing domestic consumption coupled with huge export potential. Stable political environment, dependable democratic fabric of the country, strong legal system, huge talent pool and cost advantage have made India a reliable business partner of the global community, attracting good foreign investment. While the growth trend is set off, there is tremendous need for building the background infrastructural support system to sustain the trend. Rice is the staple food for 65% of the population in India. India has the largest area under paddy in the world and ranks second in the production after China. Country has also emerged as a major rice consumer. Rice is the largest consumed calorie source among the food grains. Rice bran and rice husk are the by-products of the rice milling process. Rice bran is the most important source of edible oil among the unconventional sources. Rice husk, considered as an agricultural waste is a proven clean and efficient biomass fuel which can replace conventional fossil fuel uses. Power being one of the most crucial needs for industrial growth finds its priority and as a result the National Electricity Policy rightly envisages Power for all by 2012. To attain this target, a total capacity addition of about 100,000 MW was projected for 10th and 11th plan period. Although there has been some hectic activity in capacity addition, the possibility of attaining the target looks remote. This increases the responsibility of each industry so as to become self-reliant in power, not only to ensure reduced operational expenses but also to contribute towards making the country self-sufficient in power. There is a very good scope with ample of space for new entrepreneurs to venture into this field. Capacity : Rice 106029 MT/Annum Broken Rice 8389 MT/Annum Rice Bran Oil 2573 MT/Annum Deoiled Rice Bran Oil 13486 MT/Annum Power Distribution 15750 MWh/Annum
Plant capacity: -Plant & machinery: 4373 Lakhs
Working capital: -T.C.I: Cost of Project : 8016 Lakhs
Return: 38.00%Break even: 40.00%
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DISPOSABLE PLASTIC SYRINGES - 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

A plastic syringe is a cylindrical tool used for many purposes, from medicine to mechanics, to arts, crafts and refilling inkjet printer cartridges. Disposable plastic syringes are a great innovation in the field of medical equipment. Disposable needle is widely used by doctors for injection purpose with the help of syringes. A disposable plastic syringe is one of the fastest ways to administer life saving drugs and vaccinations to a patient. The major advantage of using disposable syringes is that no infection is transmitted since the injection is disposed off immediately after use. With the increase in population in our country, requirement of medicine and injections have increased too many folds. A disposable syringe made of plastics, for medical purposes, consisting of a piston provided with a plunger shaft and a barrel provided at the bottom with a tapered chuck for the attachment of a cannula needle, in which the plunger shaft is guided in the barrel at a distance from the barrel wall, and the piston is releasable attached to the plunger shaft. These syringes typically come with measurements clearly marked (such as 1ml, 2ml, 5ml etc) to make sure the patient receives the proper dosage. The hypodermic needles are normally made from a stainless-steel tube through a process known as tube drawing where the tube is drawn through progressively smaller dies to make the needle. The end is bevelled to create a sharp pointed tip letting the needle easily penetrate the skin. The diameter of the needle is indicated by the needle gauge. Various needle lengths are available for any given gauge. Disposable needles are embedded in a plastic or aluminium hub that attaches to the syringe barrel by means of a press-fit or twist-on fitting. These are sometimes referred to as Luer Lock connectionsThe main machinery used for the production of disposable syringes are Injection moulding machine, injection moulds, assembling devices, foil welding machines to name a few. Plastics remain at the forefront of medical innovations. The Indian market is expanding in all directions as a result of better affordability, greater health consciousness and expanding medical service institutions. With a population of 1.15 billion, India will need to at least 2 million beds in the next 10 years in order to attain a modest target of 2 per 1000 of population. With a total healthcare value of USD 400 billion, the potential for Medicare equipment is, indeed large. The healthcare sector is one of the most challenging and fastest growing sectors in India. Revenues from the healthcare sector account for 5.2 per cent of the GDP, making it the third largest growth segment in India. According to McKinsey & Co. a leading industrial and management consulting organization, the Indian healthcare sector, including pharmaceutical, diagnostics and hospital services, is expected to more than double its revenues to Rs 2000 billion by 2010. Expenditure on healthcare services, including diagnostics, hospital occupancy and outpatient consulting, the largest component of this spend is expected to grow more than 125% to Rs 1560 billion by 2012 from Rs 690 billion now. The disposable syringes market has now self-destructing or auto-disable (AD) syringe as a safe bet against re-use and spread of HIV, hepatitis and other infections. The national immunization policy has adopted the non-reusable, self-breaking syringes, though many States are yet to follow suit for the curative injections. With the development of pharmaceutical industries the use of syringes and disposable needles will also develop. About 70% pharmaceutical industries are in small-scale sector. Disposable syringes are becoming more popular in the medical world due to its lower cost and higher accuracy. Plastic can be used in place of metal without any problem. The procedure is also relatively easy and cheaper. Besides growing market in our own country there is great potential for the export to nearby countries. Apart from the electronic instruments and major equipment, substantial progress has been registered in the area of a number of medical accessories and consumables. These include disposables - syringes, blood bags, cannulae, IV fluid sets, gloves. In most of these items, while the demand is increasing fast, India is becoming increasingly self-sufficient. Fairly large quantities are also exported. The market for non-premium equipments, appliances and disposables is, however, dominated by the domestic manufacturers, while foreign suppliers and Indian companies with foreign alliances dominate the high-end hi-tech medical equipment and appliances. Among the leading providers of advanced products are Siemens, GE, Philips Medical Systems, Toshiba, Hitachi and Boston Scientific. There is a large untapped potential in this sector. Nonetheless, it is crystal clear that with the fast commercialization process of the sector and upgradation of medical facilities, the potential is sky high.
Plant capacity: 22500000 Nos. 5 Ml Size/Annum, 22500000 Nos. 10 Ml Size/AnnumPlant & machinery: 636 Lakhs
Working capital: -T.C.I: Cost of Project : 837 Lakhs
Return: 46.00%Break even: 42.00%
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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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