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Investment Opportunities & Business Ideas in Mexico, North America - Identification and Selection of right Project, Thrust areas for Investment, Industry Startup and Entrepreneurship Projects

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Ferro Alloys (Ferro Silicon, Ferro Manganese & Silico Manganese) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study

Ferro manganese are alloys composed of iron and one or two more metals like Mn, Si, Ti, W etc. The ferro alloys have usually lower melting points than their respective alloying metals in pure stable form and thus, can be readily incorporated to obtain the metals as ferro alloys than in their pure terms starting from their ores. It is a principle alloying agent used in steel production steel/iron casting etc, where it also acts as a strengthener and deoxidiser. It imparts corrosion resistance to the products. Ferro manganese along with Fe-Si, Fe-Cr, is a bulk ferro-alloy, Manganese is also added in steels in the form of silico manganese. It dissolves in iron in all proportions, Iron for Farm implements uses upto 1.75% Mn and also in automobile parts. Ship construction industry uses steels with even higher content; riffle barrels and heat treated forgings necessarily use ferro manganese as an alloying additive.Ferro Alloys Plays major role in Steel Production and industrial development. Ferro-alloys are iron based alloys with varied elements introduced in steel making to cater to the specific needs. These are specified additions to the production of steel for various applications. Generally ferro-alloys are designated by base metal indicated as under such as: Ferro – silicon, Ferro – manganese, Silico – manganese, Ferro – chrome etc. Uses and Applications Ferro alloys are iron bearing alloys with additives which are passed on to steel to meet specific needs. The Ferro alloys are brittle and can be crushed to any size to be added to the molten steel as additives. Generally the additives as in steel are invariably added in the form of Ferro alloys. These are established additives in the steel production to obtain specific needs. Market Survey The demand for ferro alloys has been increasing with that of alloy and special steels. At the beginning of the previous decade, it was about half a million tonnes, increased to over 700,000 tonnes by 1997-98 and reached the level of 1.20 mn tonnes in 2006-07. There are six leading players and over 30 small producers. The industry has tied up with companies in Europe for technology inputs. The major users of alloy steel are: auto industry, railways, forgings, tubes, springs and other engineering industries.The leading players are Alloy Steel (SAIL), Mukand (Advanced Design Materials Corp., USA), Mahindra Ugine, Sunflag Irons & Steel, Vishveshvarya Steel, Kalyani Steel, Panchmahal, Indian Seamless, Shah Alloy Kalyani Carpenter.
Plant capacity: Ferro Silicon:59.0 MT/Day.,Ferro Manganese:167.0 MT/Day.,Silico Manganese:130.5 MT/Day.Plant & machinery: Rs.2493 Lakhs.
Working capital: -T.C.I: Cost of Project :Rs4280 Lakhs.
Return: 28.00%Break even: 41.00%
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TMT Bars - 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

Steel is a generic name for a group of ferrous metals which due to their 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 (30 To 40% Per Cu. M. of concrete). This cost can be substantially reduced by using higher grades of steel re-enforcing bars. The higher yield strength of re-bars lowers the steel requirement, which results in reduced cost of construction. In India, high strength re-bars of yield strength up to 500 N/sq. mm. are produced either by cold twisting or micro-alloying or a combination of both which adds considerably to the cost of the re-enforcement bars. Thermo Mechanical Treatment (TMT) process for reinforcement bars is opening up new vistas in composite RCC, the re-enforcing steel is the costliest constituent (30 To 40% Per Cu. M. of concrete). This cost can be substantially reduced by using higher grades of steel re-enforcing bars. The higher yield strength of re-bars lowers the steel requirement, which results in reduced cost of construction. In India, high strength re-bars of yield strength up to 500 N/sq. mm. are produced either by cold twisting or micro-alloying or a combination of both which adds considerably to the cost of the re-enforcement bars. Hot working is the initial step in the mechanical working of most metals and alloys. Hot working combines the working and annealing processes by deforming metal above the recrystallisation temperature at which new grains are formed. Since most metals and alloys have relatively high recrystallisation temperatures, they must be worked at high temperatures. The principal methods of hot working are Rolling, Forging, Piercing, Drawing, Spinning, Extruding. Uses and Applications TMT bars find wide applications in different spheres as under; General purpose concrete re-enforcement structures, Bridges, Flyovers, Dams, High rise buildings, Industrial structures, Concrete roads, Underground structures Market Survey Global steel production has now crossed the 1 billion ton mark due to an upturn in steel demand during the last few years on the back of recovery in the global economy. The recovery had largely been led by increased demand for steel in China. There has also been partial recovery in key sectors such as housing, construction and automobiles in the USA and Europe. Present downturn due to global financial crises economy is in recession. Another important development in the global steel market in the last few years has been the emergence of steel intensive technologies in various user industries leading to increased usage of steel. The consumption is showing a shift from long products to flat products and special quality steels. Global steel trade has now increased to around 350 MT. The industry though continues to be fragmented with top 5 players accounting for less than 20% of the total industry capacity. Global steel manufacturers are increasingly realizing the need to have alliances and consolidation activity has picked up all over the world during the last 2-3 years. Today, Arcelor (Europe) is the largest producer of steel in the world followed by LNM-Ispat Group, Nippon Steel, JEE Holdings, Posco and Shanghai. Not in the standing the present downturn due to global financial crises, the industry is expected to bounce back during the next few years. 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 India is the 7th largest crude steel-producing nation in the world. Steel production in India got a momentum with the announcement of the Industrial Policy Resolution of 1956 when three SAIL plants were set up in the public sector in the late 1950s and the fourth in early 1970. These plants along with IISCO (now, a part of SAIL), VISL and TISCO (now Tata Steel Ltd) were the only integrated steel producers till the eighties. Vizag Steel plant/RINL came into production in the early nineties. The steel industry in India has always been on the ascent, owing to the abundant availability of raw materials like iron ore, limestone and coal, besides relatively cheap labour, which is a major cost advantage. It is noteworthy to mention that India is the sixth largest producer of iron ore and the tenth largest producer of crude steel in the world. Steel is a core sector industry and the demand for steel affects the economy of the country.
Plant capacity: 100 MT/DayPlant & machinery: Rs.255 Lakhs
Working capital: -T.C.I: Rs.3699 Lakhs.
Return: 51.00%Break even: 33.00%
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E.R.W. Galvanized Steel Pipes - 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

GI Pipes/ Galvanized pipes are steel pipes covered with a protective coating of zinc that greatly reduces its tendency to corrode and extends its life expectant galvanized steel tubes are covered by a layer of zinc & are used for varied applications. These are available in various size and shapes based on the customer’s requirements. These tubes are natural corrosion resistant and hold functional durability, even in outdoor environments. Apart from preventing water corrosion, it is equally effective in dry, indoor environments. Electric Resistance Welded Pipe uses the high frequency induction heating (HFI) process to manufacture pipes ranging in nominal diameter from 219 mm (8,58 inch) to 610 mm (24 inch), and in wall thickness. In order to ensure completely smooth pipes, welds are scarfed both internally and externally. Immediate confirmations of welds are assured as pipes pass through a multi-probe ultrasonic inspection system located after the welding and scarfing stations. Following ultrasonic assessment, weld joints are induction heated to normalize the metallic structure of the weld. Normalizing also improves toughness of the steel in the region and significantly decreases the weld line corrosion effect. Prior to hydrostatic testing, pipes are sized to required tolerances before being cut to length and the ends bevelled. Weld seams is again ultrasonically tested. Pipes are inspected, weighed and can be varnished and marked prior to final inspection and dispatch, or transferred to the coating and lining plants for corrosion protection treatment. Uses & Applications These are pipes suitable for irrigation and water supply, plumbing, cold storage applications, scaffolding, antenna and telecom towers, water wells etc. GI pipes for various purposes depending upon the requirements of our customers. These pipes and tubes find diverse applications in the following sectors: Air and Water Line - Main water supply, Plumbing / Pumping, Chilled Water Line, Sewerage, Firefighting equipment, Waste water conveying, Cooling tower, Air duct, Chimney, Compressed Air line, Refrigerated line, in cold storage, Gas piping LPG cylinder supporting ring, Chemical transportation. It may be used in residential water supply lines, but not gas lines because natural gas causes the zinc to flake off and clog the system. It's not frequently used for water supply lines because the minerals in the water react with the galvanizing material and form scale, which builds up over time and will eventually clog the pipe. For industrial purpose it could be used in Industrial water lines/plant piping, Waste waterlines, Scaffoldings, Electrical Cable conduits, Gas/Natural gas pipe lines, Oil pipe lines, Cooling towers, LPG & other non-toxic gas pipelines, Cold storages, Vehicular chassis and frames, Idlers & belt conveyors Market Survey Steel pipes are primarily of two types, seamless and welded. Seamless pipes and tubes are used in both oil and non-oil sectors in a wide range of applications as line pipes, casing pipes, production tubings, drill pipes and the like. In the oil sector, API (American Petroleum Institute) standard pipes are preferred for line pipes and casing pipes. Oil sector absorbs nearly 60% of seamless pipes, while some 30% are consumed by bearings and boiler manufacturers. According to the London-based Iron and Steel Statistics Bureau (ISSB), steel tubes industry is poised for a 30% growth in the wake of a growing demand in the infrastructure construction sector, mainly in scaffolding in buildings. The sector has grown dramatically in the recent past at a record 20% growth owing to several infrastructure projects lined up by the government and the private sector. The use of steel rods and bars in stadia, railway stations, multiplexes and gas pipeline has been replaced with steel tubes, fuelling further growth potential for the tube industry. Salem plant (of Steel Authority of India) created awareness of stainless steel also in areas other than utensils. As a result, it found its way increasingly into processing industry, construction, railways and engineering industry. From 85%, the consumption of stainless steel by the utensil manufacturing sector dropped down to nearly 75%. As against the high level of stainless steel used for utensils in India, only 35% is used in the developed countries. India utilizes only about 12% of stainless steel in industrial applications as against 19% in developed countries. Out of total stainless steel produced, more than 70% of production is of SS 200 grade series, while SS 300 grade series constitutes just 15 to 20%. India also has good facilities for stainless steel long products like bars, wire rods and wires which have good prospects in Europe, USA and South East Asian region. Few Indian Major Players are as under: A N S Steel Tubes Ltd. Aravali (India) Ltd. Asrani Tubes Ltd. Bhawani Industries Ltd. Binjrajka Steel Tubes Ltd. Gemini Steel Tubes Ltd. J T L Infra Ltd. Maharashtra Seamless Ltd. Nav Bharat Tubes Ltd. Samana Steels Ltd. Surya Global Steel Tubes Ltd. Thapar Concast Ltd. Tube Investments Of India Ltd. Vallabh Steels Ltd.
Plant capacity: 60 MT/Day.Plant & machinery: Rs.701 Lakhs.
Working capital: -T.C.I: Cost of Project:Rs.2462 Lakhs.
Return: 28.00%Break even: 40.00%
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Low Carbon Ferro Manganese (Medium Grade) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

In igneous rocks, which comprise 95% of the earth’s crust the average percentage concentration of manganous oxide is 0.124. This is small in compared with the alumina (15.34), FeO + Fe2O3(6.88) and titania but very much higher than the incidence of the well known metals copper (0.010), zinc ( 0.004), and lead (0.002). In igneous rocks, which comprise 95% of the earth’s crust the average percentage concentration of manganous oxide is 0.124. 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. Low silica ores are preferred as they reduce the slag volume. Secondly, the phosphorous content in the ore should also be low. A high purity ferro-manganese is produced by fused salt electrolysis method. The ore is roasted to produce MnO, followed by leaching with H2SO4 acid to form manganese sulphate. This solution is then neutralised to precipitate iron & aluminium. Other impurities are separated as sulphides. Finally the solution is used for electrolysis to produce ferro-manganese of metallurgical grade. The modern electric furnace route of ferro-manganese production gives 85 - 90% manganese recovery, MnO dust recycling is possible and a high degree of homogenisation, slag control and furnace scrabbing is practised. Further, smelting of high-grade Mn-ore with high-cabon ferro-manganese gives medium carbon ferro-manganese. A silicothermic reduction of manganese ore in an electric furnace yields low-carbon ferromanganese. Uses and Applications Low Carbon Ferro- Manganese is a Ferro alloy with high content of manganese. It gives strength to steel and is used in making of high tension steel; it is widely used in the manufacturing of tool steels, alloys steel & structural steels. Its property causes it to have a high affinity with sulphur in the steel and on combining produces Manganese Sulphide (MnS) which floats up to the metal surface. It is also used as a de-oxidizer and hence finds its usage in the manufacture of 18-8 Austenitic non magnetic stainless steel. In cast iron, manganese is used mainly to counteract the bad effects of sulfur. In steel, manganese acts as a deoxidizer and combines with sulfur, thereby improving the hot-working properties of the steel. Also improves the strength, toughness. Manganese ferroalloys, consisting of various grades of ferromanganese and silicomanganese, are used to provide a key ingredient for steelmaking. Market Survey According to industry experts, the Indian manganese alloy industry has the potential to meet the global challenges despite various constraints. With the necessary supportive measures from the government, the industry can make fast towards the path of sustainable growth and meet the higher requirement of the Indian steel industry. The estimated reserve of chrome ore in India is approx.178 MT. In the longer term, the direction of manganese prices will depend on a combination of economic growth in the industrialised world, and continued expansion of industrialising and emerging economies in Asia and South America. Over the next five years, the rise in steel production will lead to an increase in manganese consumption, with an annual average growth rate of 6% over the next five years, with China and India providing the main impetus for this growth. Global demand for manganese in batteries has been relatively stable at about 300ktpy. This has mainly been accounted for by zinc and alkaline primary batteries, but demand for manganese in rechargeable batteries has risen in recent years. Overall, total demand for manganese is expected to increase by around 6% per year over the next five years. The current scenario of Indian ferro alloys industry has changed due to rapid industrialisation with global steel demand on a high growth trajectory. The estimated production capacity of ferro alloys in India is more than double of the domestic demand, making the industry partially dependent on domestic market and more on export market. The future of industry will depend on international demand and export market against the wider industry impact of energy, ore shortages, production cost volatility and lower profit margin.
Plant capacity: 10 MT/Day.Plant & machinery: 256 Lakhs.
Working capital: -T.C.I: Cost of Project:691 Lakhs.
Return: 26.00%Break even: 65.00%
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Ferro Alloys - 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

Ferroalloys have been developed to improve the properties of steels and alloys by introducing specific alloying elements in desirable quantities in the most feasible technical and economic way. Ferroalloys are usually classified in two groups: bulk (major) ferroalloys (produced in large quantities) and minor ferroalloys (produced in smaller quantities, but of a high importance). Bulk ferroalloys are used in steelmaking and steel or iron foundries exclusively, whereas the use of special ferroalloys is far more varied. About 85% to 90% of all ferroalloys are used in steelmaking; the remaining ferroalloys are used for nonferrous alloys (e.g., those that are nickel or titanium based) and by the chemicals industry. Today, almost all ferroalloys are produced in submerged arc furnaces where raw materials (ores), reductants (coke, silicon-based ferroalloys, aluminum), iron additions (iron ore or steel scrap), and fluxes (lime, magnesia, dolomite, limestone, fluorspar, etc.) are loaded and smelted, followed by the tapping of slag and metal. Ferroalloys Plays major role in Steel Production and industrial development. These are iron based alloys with varied elements introduced in steel making to cater to the specific needs. These are specified additions to the production of steel for various applications. Uses As deoxidizer, desulphurizer improves fluidity of liquid steel. Grain refinement, high-speed steels, HSLA steels, hot extrusion, tool and die steels. Grain refinement, HSLA steels stabilization in stainless steels. HSLA Steels, Stainless Steels, tool Steels, Cryogenic Steels. In forgings, rolled Products, castings, Structural and tool steels. Low-Carbon Steels Hadfield steels, austenitic Steels for addition to 18-8 type austenitic steels. For low-carbon high chromium steels-stainless Steel/irons. Deoxidation-killed, semi-skilled steels, Structural steels. High silicon, spring and electrical sheet steel as reductants. For low- carbon steel when silicon is not harmful, for producing low-carbon ferromanganese. For producing low-carbon ferrochrome. Market Survey The demand for ferro alloys has been increasing with that of alloy and special steels. At the beginning of the previous decade, it was about half-a-million tonnes, increased to over 700,000 tonnes by 1997-98 and reached the level of 1.20 mn tonnes in 2006-07. There are six leading players and over 30 small producers. The industry has tied up with companies in Europe for technology inputs. The major users of alloy steel are: auto industry, railways, forgings, tubes, springs and other engineering industries. The leading players are Alloy Steel (SAIL), Mukand (Advanced Design Materials Corp., USA), Mahindra Ugine, Sunflag Irons & Steel, Vishveshvarya Steel, Kalyani Steel, Panchmahal, Indian Seamless, Shah Alloy Kalyani Carpenter, Garg Furnace. Ferro manganese are alloys composed of iron and one or two more metals like Mn, Si, Ti, W etc. The ferro alloys have usually lower melting points than their respective alloying metals in pure stable form and thus, can be readily incorporated to obtain the metals as ferro alloys than in their pure terms starting from their ores. Ferro manganese is a principle alloying agent used in steel production steel/iron casting etc, where it also acts as a strengthener and deoxidizer. It imparts corrosion resistance to the products. Ferro manganese along with Fe-Si, Fe-Cr, is a bulk ferro-alloy, Manganese is also added in steels in the form of silico manganese. It dissolves in iron in all proportions, Iron for Farm implements uses up to 1.75% Mn and also in automobile parts. Ship construction industry uses steels with even higher content; riffle barrels and heat treated forgings necessarily use ferro manganese as an alloying additive. Few Major Players are as under :- Acme Ferro Alloys Pvt. Ltd. Alok Ferro Alloys Ltd. Andhra Ferro Alloys Ltd. Anjaney Ferro Alloys Ltd. Baheti Metal & Ferro Alloys Ltd. Balasore Alloys Ltd. Baroda Ferro Alloys & Inds. Ltd. Beco Engineering Co. Ltd. [Merged] Bhaskar Shrachi Alloys Ltd. Bhupco Alloys Ltd. Castron Technologies Ltd. Corporate Ispat Alloys Ltd. Cronimet Alloys India Ltd. Dandeli Ferro Pvt. Ltd. Facor Alloys Ltd. Ferro Alloys Corp. Ltd. Hi-Tech Electrothermics & Hydro Power Ltd. Hindustan Ferro & Inds. Ltd. Hira Ferro Alloys Ltd. Impex Ferro Tech Ltd. Indian Charge Chrome Ltd. [Merged] Indian Metals & Alloys Ltd. Indian Metals & Carbide Ltd. Indian Metals & Ferro Alloys Ltd. Indsil Hydro Power & Manganese Ltd. Jagat Alloys Pvt. Ltd. Jindal Ferro Alloys Ltd. [Merged] Karthik Alloys Ltd. Maharashtra Elektrosmelt Ltd. Maithan Alloys Ltd. Mishra Dhatu Nigam Ltd. Muskan Ferro Silicons Ltd. Nagpur Power & Inds. Ltd. Nav Chrome Ltd. [Merged] Quality Steels & Forgings Ltd. R G Foundry Forge Ltd. Sarda Energy & Minerals Ltd. Sharp Ferro Alloys Ltd. Shri Ganesh Ferro Alloys Ltd. Shri Girija Smelters Ltd. Shyam Century Ferrous Ltd. [Merged] Shyam Ferro Alloys Ltd. Silcal Metallurgic Ltd. Snam Alloys Ltd. Sova Ispat Alloys Ltd. Srinivasa Ferro Alloys Ltd. Standard Chrome Ltd. Star Metallics & Power Pvt. Ltd. Universal Ferro & Allied Chemicals Ltd. V B C Ferro Alloys Ltd. V B C Industries Ltd.
Plant capacity: 36000 MT/annumPlant & machinery: Rs. 6457 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 16549 Lakhs
Return: 24.00%Break even: 51.00%
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Cattle Feed - Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics, Cost of Project

The principal feed resources for animal consumption in the country are crop residues like straws of wheat, rice and other cereals and stovers, which are very poor in feed value. Even these are in short supply. These are supplemented to some extent by relatively better quality fodders like cultivated leguminous and non-leguminous fodder grasses and concentrates. The latter are formulated largely from agro-industrial by-product and forest wastes and small quantities of low-grade cereals with the present stock of feed and fodder resources available in the country, it is well impossible to meet the nutrient requirements of even the present day low-producing cattle and buffaloes. Such a situation is bound to aggravate difficulties in the feeding of better producing livestock such as cross breed lows in exploiting their full genetic potentiality for early growth, better reproduction and higher milk production. Livestock in the country, therefore, suffer widely from insufficient supply of nutrients. The unconventional agro-industrial by products and forest wastes may find a greater use as livestock feeds in coming years. The nutritive value of tropical feeds and fodder is lower than those grown in temperate region. This situation does not allow cows to consume maximum amount of feed, nor to get feed of minimum allowable digestibility. It is not possible to anticipate any remarkable improvement in the feed situation in the near future and also in the supply of high digestible ingredients like worse grains. The digestibility of feed for meeting nutrient requirements of the cattle must bear relation to its intake capacity. Market Survey Cattle feed is a peculiar product consumed mainly by cattle owners of rural area. Animal industrial enterprises in all area and so, the market for cattle feed is very scattered. The consumers are living by and large in poverty and so they have hardly enough finances to spare for cattle feed. Yet cattles are the only source of earring in many cases and to increase their own earning they try to spend upon cattles as much as possible. Unawareness about the product and its importance should also be looked after. The benefits of this scientifically prepared cattle feed over traditional feed has become as popular as they should be. The problem is much of replacing unscientific feeding system with scientific feed. Estimation of Demand on the Basis of Various Macro Factors: - Broadly there are five factors affecting demand. Population of cattle and its composition. Financial Position of Farmers. Awareness of Farmer to the production. Auality of available cattle feed. Government policy and the program of cattle development. India has the largest cattle, buffalo and goat population according to latest census. There are about 200 million cattle, 50 million buffaloes and 90 million goats in the country. About one sixth of the cattle, about half of buffalo and one fifth of goat population in world are in India. Animal husbandry plays an important role in the national life and accounts for about 10% of the national income. In particular the contributor of the cattle and buffalo to the economy is considerable. They are the main source of drought power in agricultural operations and rural transportation they provide essential, foods like milk and meal. Few Major Players are as under:- Advanced Bio-Agro Tech Ltd. Advanced Enzyme Technologies Ltd. Agribiotech Industries Ltd. Agro Tech India Ltd. Allana Cold Storage Ltd. Amrit Feeds Ltd. Andhra Sugars Ltd. Anirudh Foods Ltd. Annam Feeds Ltd. Anupam Extractions Ltd. Arambagh Hatcheries Ltd. Aries Agro Ltd. Aries Marketing Ltd. Bala Industries & Entertainment Pvt. Ltd. Balaji Foods & Feeds Ltd. Baramati Agro Ltd. Brooke Bond Lipton India Ltd. C & M Farming Ltd. C P Aquaculture (India) Pvt. Ltd. Damania Pharma Ltd. Dhanalaxmi Roto Spinners Ltd. Gajanan Extraction Ltd. Genomics Biotech Ltd. Godrej Agrovet Ltd. Goldmohur Foods & Feeds Ltd. Graintec India Ltd. Hanuman Minor Oils Ltd. Haryana Agro Inds. Corp. Ltd. Hatsun Agro Products Ltd. Indian Potash Ltd. Indo Euro Indchem Ltd. Induss Food Products & Equipment Ltd. Intercorp Biotech Ltd. Japfa Comfeed India Pvt. Ltd. Jupiter Biotech Ltd. Kapila Krishi Udyog Ltd. Kerala Feeds Ltd. Khandesh Extraction Ltd. Kirti Dal Mills Ltd. Kumar Food Inds. Ltd. Kwality Dairy (India) Ltd. Kwality Feeds Ltd. Lakshmi Energy & Foods Ltd. Laxmi Starch Ltd. Lipton India Ltd. Maharashtra Agro-Inds. Devp. Corp. Ltd. Maheshwari Solvent Extraction Ltd. Mapro Industries Ltd. Nova Chemie (India) Ltd. Origin Agrostar Ltd. Parakh Foods Ltd. Piccadily Agro Inds. Ltd. Pioneer Feeds & Poultry Products Pvt. Ltd. Pranav Agro Inds. Ltd. Prima Agro Ltd. Puri Oil Mills Ltd. Rainbow Agri Inds. Ltd. S K M Animal Feeds & Foods (India) Ltd. S O L Ltd. Sakthi Beverages Ltd. Schreiber Dynamix Dairies Ltd. Shalimar Pellet Feeds Ltd. Snam Vijaya Feeds Ltd. Sona Oil & Chemical Inds. Ltd. Sonitpur Solvex Ltd. Sree Tulasi Solvent Extractions Ltd. Suguna Foods Ltd. Suguna Poultry Products Ltd. Superhouse Ltd. Swastika Feeds Ltd. Tara Health Foods Ltd. Tata Oil Mills Co. Ltd. Tinna Oils & Chemicals Ltd. Tubal Feeds Pvt. Ltd. Vegepro Foods & Feeds Ltd. Venky'S (India) Ltd. Venky'S (India) Ltd. [Erstwhile] Vijay Agro Products Pvt. Ltd. Zeus Biotech Ltd.
Plant capacity: 14400 MT/annumPlant & machinery: Rs. 23 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 202 Lakhs
Return: 30.00%Break even: 66.00%
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Copper Sulphate - 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

Copper (II) Sulfate is a chemical compound with the formula CuSO4. It occurs in nature as mineral hydrocyanite. It is gray to white and has rhombic crystal morphology. It decomposes to green basic copper (II) sulphate at 340 deg C and at 600-650 deg C it decomposes to copper oxide. It is generally prepared by controlled heating of Copper Sulphate Pent-hydrate, CuSO4.5H2O. Copper sulphate term is generally used to describe pent hydrate compound of copper sulphate which is also known as blue stone, blue vitriol etc. It is best known and the most widely used of the copper salts. Indeed it is often the starting raw material for the production of many of the other copper salts. Today the world's consumption is around 250,000 tons per annum of which it is estimated that approximately three-quarters are used in agriculture, principally as a fungicide. Uses & Application Anhydrous Copper sulphate has limited commercial use. • It is used as a desiccant for removing water from organic solvents. • It acts as a sensitive indicator of the presence of moisture in organic solvents. Copper sulphate pentahydrate is a very versatile chemical with as extensive a range of uses in industry. • It is used as an algaecide, an herbicide in irrigation and municipal water treatment systems, and as a molluscicide, a material used to repel and kill slugs and snails. • The metal industry uses large quantities of copper sulphate as an electrolyte in copper refining, for copper coating steel wire prior to wire drawing and in various copper plating processes. • The mining industry employs it as an activator in the concentration by froth flotation of lead, zinc, cobalt and gold ores. • The printing trade takes it as an electrolyte in the production of electrotype and as an etching agent for process engraving. • The paint industry uses it in anti-fouling paints and it plays a part in the coloring of glass. • Copper sulphate is a fungicide used to control bacterial and fungal diseases of fruit, vegetable, nut and field crops. It is used in combination with lime and water as a protective fungicide, referred to as Bordeaux mixture, for leaf application and seed treatment. • Copper deficiency in plants or animals can be corrected very simply either by applying 50 kg copper sulphate per hectare in the form of a fertilizer before sowing or by spraying the foliage of the young cereal plants. Market Survey The Market Survey on Copper Sulphate is of topical interest in the sense that copper is important metal used in India from ancient times. In fact, one age of human civilization is named after copper. Copper is also used in the alloy form as brass and bronze because of the added advantages. Copper was a scarce metal with respect to India but recent setting up of copper smelters has entirely changed the scenario of copper production/availability in the country. However, these copper smelters, except that of HCL, are producing copper based on the imported concentrates. This has opened a new path for the chemical manufacturing companies for producing copper based chemicals in the country. With numerous copper mines in the country, Copper compounds manufacturing has taken a good shot in last few years. Many Companies are setting their projects at different places in India. They produce environment friendly copper sulphate fertilizer, Copper Sulphate Electroplating Grade, Copper Sulphate Feed grade having 98% Copper content. Copper sulphate is widely used as fungicide in agricultural field. Therefore demand of copper sulphate directly depends upon the usage and development of agriculture in a country. In India, the total installed annual capacity of 43 technical grades of pesticides and fungicide is estimated at 148,000 tonnes of which only four grades (Mancozab 20,700 tonnes, Monocrotophos 14,000 tonnes, Malathion 11,800 tonnes and Endo-sulphan 10,100 tonnes) account for over 38% of the aggregate installed capacities. ? India is one among the most dynamic generic pesticides & fungicides manufacturing countries. And yet, India's own average consumption of it is low, below 500 gms per ha. Crop protection has assumed special importance since the food grains demand in the country is supposed to reach an estimated 343 mn tonnes by 2020. The agrochemical industry allocates an average of about 10% of its total sales turnover for research and development. This amounts to Rs 3.5-4.0 bn. The agrochemical industry is spread over around 200 large and medium sized manufacturers and 600 formulators producing about 60 technical grades of pesticides. Other important players in the sector include 10 multinational companies operating for quite some time. While the organized sector contributes 55% to the industry's output, the small scale sector makes up for the balance. The Indian industry has been focusing on integrated crop management (ICM), increasing exports of genuine pesticides & fungicide and concentrating on farmer-friendly activities. With the global market rising, there are encouraging prospects for the Indian industry. The pesticide industry is targeting a 10% share of global pesticides market and has been working on the ICM program to introduce safer applications, spray devices and crop protection through balanced use of biological and chemical pesticides. The exports cover pesticide intermediates. Pesticides and fungicide exports from India were growing at the rate of 15% and are expected to witness a more accelerated growth. Demand of copper sulphate is increasing rapidly for its use as a natural growth stimulant in animals, as well as in prevention of E.coli and listeria. The food-grade Copper Sulfate industry is a $1.2 billion industry growing at approximately 15% per year.
Plant capacity: 600 Nos. /annumPlant & machinery: 43 Lakhs
Working capital: -T.C.I: Cost of Project: 238 Lakhs
Return: 24.00%Break even: 60.00%
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Potato Starch

Potato is widely consumed as food all over the world. It contains the starch as a major carbohydrate. Surplus and cull potatoes are used as feed for livestock and also as raw material for the manufacture of starch, ethyl alcohol and a few other industrial products like, dextrose, liquid Glucose etc. The potato contains approximately 18-21% of carbohydrates. The major carbohydrate is starch. This starch comprises 65-80% of the dry weight of the tuber, is calorifically the most important nutritional component. Potato starch is starch extracted from potatoes. The cells of the root tubers of the potato plant contain starch grains (leucoplasts). To extract the starch, the potatoes are crushed; the starch grains are released from the destroyed cells. The starch is then washed out and dried to powder. Potato starch is a very refined starch, containing minimal protein or fat. This gives the powder a clear white color, and the cooked starch typical characteristics of neutral taste, good clarity, high binding strength, long texture and a minimal tendency to foaming or yellowing of the solution. Potato starch contains approximately 800 ppm phosphate bound to the starch; this increases the viscosity and gives the solution a slightly anionic character, a low gelatinization temperature (approximately 140 °F (60 °C)) and high swelling power. Starch is a tasteless, odorless, white amorphous powder, insoluble in water. All green plants store starch as nourishment for the future. Starch is one of the fundamental substances in the vegetable kingdom and is in existence abundantly in the natural world. Uses Starch is mainly used as material both in the manufacture of food and non-food products. In food processing a lot of starch is converted to starch hydrolysate. It is also used as a thickener in soups and gravies. Pre-gelatinized potato starch is used in considerable quantities in instant puddings, in which its properties are preferable to those of cereal starches. It is used in confectionery industry as a medium for molding cast candies such as jelly beans and gum drops, as a thickening agent in synthetic jellies, for sauces, soups, and stews. Potato starch tolerates higher temperatures than cornstarch when used as a thickener. It's a natural way to add moistness to many baked goods and as a dusting agent mixed with powdered sugar, for candy gums, chewing gums etc. It is also used in producing adhesives and dextrin’s, as a fermentation raw material, binder for tablets, and binder and extender for sausages. Starch derivatives are used in many recipes, for example in noodles, wine gums, cocktail nuts, potato chips, hot dog sausages, bakery and instant soups and sauces, in gluten-free recipes in kosher foods for Passover and in Asian cuisine. In pastry, e.g. sponge cake, it is used to keep the cake moist and give a soft texture. It is also occasionally used in the preparation of pre-packed grated cheese, to reduce sweating and binding. Market Survey Potato is a starch rich material with about 12-25 per cent starch in Indian varieties. In India, production of starch from potatoes is limited due to availability of cheaper sources of starch such as maize and tapioca. The pattern of world potato utilization indicates that over 2.8 per cent potato is used for starch extraction. The enormous amount for waste potatoes available, if used for starch production would not only result in value added products, but will also generate employment and save foreign exchange, it will also reduce cost of starch production from potatoes. The global starch consumption is expected to grow from 13.6 million tons in 2012 to 16.28 million tons by 2017, at an estimated CAGR of 3.5% from 2012 to 2017. The North America region is expected to continue its dominance on the global modified starch consumption, however, due to the increasing impact for demand of convenience health food, functional food, and the need to focus on alternate sources of starch, the Asian sub-continent is expected to drive the growth of the industry for the next few years. China and India are the leaders in the APAC market, driving the demand for modified starch because of the changing lifestyles and growing economies, boosting the need for convenience food sector. A second large consumer of starch hydrolysis products is the fermentation industry. Many fermentation processes run on starch hydrolysate. This is partly for cost reasons and partly because the organisms in use have been trained to prefer glucose to saccharose. The only exception is yeast, which traditionally grows best in molasses. Markets for virtually all fermentation-derived products, whether they are penicillin based, citric acids or amino acids, expand at high rates and add to the demand for starch hydrolysis products. Minor applications of starch syrups include their use in the manufacturing of sugar alcohols, particularly of Sorbitol; low calorie content and high degree of sweetness make sorbitol ideal for a number of different foods. Overall, the markets for starches and derivatives are expected to expand on a global scale at a substantial rate. Few Indian Major Players are as under Amaravati Agro Ltd. Bharat Starch Inds. Ltd. E I C L Ltd. Gayatri Bioorganics Ltd. Gujarat Ambuja Proteins Ltd. Gulshan Polyols Ltd. Hindustan Maize Products Ltd. Indian Maize & Chemicals Ltd. International Bestfoods Ltd. Jayant Vitamins Ltd. K G Gluco Biols Ltd. Kamala Sugar Mills Ltd. Laxmi Starch Ltd. Origin Agrostar Ltd. Rai Agro Inds. Ltd. Riddhi Siddhi Gluco Biols Ltd. Santosh Starch Ltd. Santosh Starch Products Ltd. Sayaji Industries Ltd. Starch & Chemicals Ltd. Sukhjit Starch & Chemicals Ltd. Tan India Ltd. Tirupati Starch & Chemicals Ltd. Unicorn Organics Ltd. Unique Sugars Ltd. Universal Starch-Chem Allied Ltd. Wockhardt Health Care Ltd.
Plant capacity: 4500 MT/AnnumPlant & machinery: Rs. 517 Lakhs
Working capital: -T.C.I: Cost of Project: Rs 899 Lakhs
Return: 26.00%Break even: 47.00%
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M.S. & H.T. Nuts & Bolts - 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

Fasteners have played a major role in the advancement of the human race since prehistoric days when the caveman used thongs to hold a rock into the split end of a stick to make the first axe. Since that day, the progress of fastening methods and devices includes: wooden pegs; wedges; the first iron nails; glue; rivets; welding; and today, a multitude of highly specialized fasteners that range from simple wooden clothespins to cap screws made from specialized materials for our space programs. Few of us realize the importance that fasteners play in our way of life. Less than $100 worth of fasteners represents the difference between a useless pile of parts and a finished automobile. A $75,000 crawler tractor would be nothing but scrap iron without a few hundred dollars worth of nuts and bolts. Without the variety of fastening devices available to industry, we would have to do without electricity, city water, natural gas, telephone, radios, television, refrigeration, transportation, canned and frozen foods, clothing, shelter, and in fact, almost every necessity and convenience we take for granted. Each year, the fastener industry uses over two million tons of steel to produce more than 200 billion fasteners in over two million different shapes and sizes. To keep pace with the rapidly expanding market and increasing demands for absolute reliability as well as availability, the fastener industry must continually develop new materials, improve its manufacturing and distribution techniques, invent ingenious new parts and gain prestige in the industrial world. All of these factors compile to make this one of the most complex industries that exist in the world today. Market Survey Fasteners Fasteners mainly cover nuts, bolts, screws, studs and rivets and are segmented between MS (mild steel) and HT (high tensile) fasteners. These fasteners are used in engineering systems. All types of fasteners, except high tensile and special type fasteners, are reserved for the SSI sector. MS fasteners are thus produced mostly in the unorganized sector, while HT fasteners are produced by the organized sector, as these require superior technology which SSI unorganized sector can ill afford. HT fasteners are either standard fasteners or specialized fasteners, the latter being made to meet specific customer requirements. The industry has been opened for FDI through direct route, if the products to be produced are not reserved for the SSI sector. The overall fasteners market is estimated at about Rs 28 bn. While the organized sector (HT fasteners) has a share of 65%, the balance of 35% is shared by unorganized sector and imports. The imports in 2006-07 were Rs 8 bn, leaving Rs 2 bn or 7% as the market for the unorganized sector in value terms. The market is heavily dependent on imports which have been growing at close to 28.5% in recent period. General application fasteners are catered to by the unorganized sector where brand and quality have little meaning and price is the main criteria for selection of the supplier. On the other hand, high tensile fasteners are used in engineering applications, such as in the automobile, industrial and other sectors. The varied applications include construction, railways and the domestic sectors. The market is made up of OEM or bulk market; and the replacement market (the retail market). Inspired by the phenomenal growth in the recent years, the leading companies in the organized market have regularly been expanding their capacities. The boom has been due mainly to the upswing witnessed by the automobile sector, the main end-user industry, accounting for almost half of the demand for fasteners. The four major companies in the industry are Sundaram Fasteners (turnover Rs 12 bn), the leader; Lakshmi Precision Screws (Rs 1.9 bn), Mahindra Fasteners (Rs 408.5 mn) and Sterling Tools (Rs. 1.4 bn). Other units, among the major players, are Guest Keen Williams (GKW) (Rs 1.1 bn), and Precision Fasteners (Rs 770 mn). Sundaram Fasteners (SFL) is a highly rated company and receives orders from overseas markets including those from the US (General Motors, in particular). The preferred products are radiator caps and powder metal parts. Sundaram also supplies cold extruded parts to Delphi Automotive Systems. Due to better product-mix in exports and increased sales volume, TVS group's blue chip, SFL has emerged as a strong player in the high-tensile fasteners market. Sundaram Fasteners invested Rs 250 mn for setting up of a greenfield manufacturing facility in China. The company's revenues from the Chinese operations account for 25% of its total exports. The manufacturing unit has an installed capacity of 6,000 tpa. Precision Fasteners leads in the industrial fastener segment. The company started manufacturing a wide range of Unbrako high-tensile fasteners' forged components in collaboration with SPS Technologies Inc of the US. Precision Fasteners had plans to enter the automotive fasteners market and was to target mainly the replacement segment. Its Silvasa plant capacity was being increased two-fold. Laxmi Precision Screws manufactures industrial as well as automotive fasteners. The company is reported to be developing indigenously cold-heading quality alloy steel wire which will improve the margins enabling it to compete globally. The company' turnover has progressively gone up from Rs 826 mn in 2000-01 to over Rs 1.90 bn in 2006-07 and to Rs 2.0 bn in the following year. The latter represents a growth of over 13.5% in 2006-07 and 5.8% in the following year. Few Indian Major Players are as under Agarwal Bolts Ltd. Atul Fasteners Ltd. Caparo Engineering India Pvt. Ltd. Coventry Spring & Engg. Co. Ltd. Dev Fasteners Ltd. G K W Ltd. G S Auto International Ltd. Indian Fasteners Ltd. Jaico Steel Fasteners Ltd. Lakshmi Precision Screws Ltd. Mohindra Fasteners Ltd. Patton Electro Ltd. Pooja Forge Ltd. Precision Fasteners Ltd. Quick Thread Pvt. Ltd. Rockfort Fasteners Ltd. Small Tools Mfg. Co. Of India Ltd. Sterling Tools Ltd.
Plant capacity: 600 MT/AnnumPlant & machinery: Rs. 207 Lakhs
Working capital: -T.C.I: Cost of Project: Rs 441 Lakhs
Return: 25.00%Break even: 54.00%
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Maize Processing Unit - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Maize is one of the cereal grains which has been produced throughout India and is placed 3rd position in agricultural base production. Maize is constituted by hull, germ, protein, starch and moisture. There is dry and wet milling process of manufacturing of starch, zein, germ and hulls. Starch is the basic constituent of maize and it is converted to liquid glucose by adopting series of digestion steps on starch. It will be basically enzyme and acid digestion system. It may be enzyme - enzyme system or only acid digestion system. In the production of liquid glucose there is some production of dextrose anhydride. Starch is a tasteless, odorless, white amorphous powder, insoluble in water. All green plants store Starch as nourishment for the future. Starch is one of the fundamental substances in the vegetable kingdom and is in existence abundantly in the natural world. Starch is produced from various sources such as corn (maize), tapioca etc. Starch is a mixture of two polymers namely amylase and amylopectine. Uses Pure Starches can be physically modified into various products of varied characteristics. Starch can be potentially used in large number of preparations. Its major applications are in textiles and paper manufacture and in food and pharmaceutical industries. Starch is used in the manufacture of number of products such as starch esters, starch phosphates, glucose, dextrose, sorbitol, ethyl alcohol etc. Glucose syrup is used in hard boiled sweets and many dairy products, as a granulating agent for tablet coating and as a vehicle for orally administered medical syrups in pharmaceuticals. Glucose syrup is used in the manufacture of canned foods, confectionery, bakery products, ice-creams, chewing tobacco, shoe polish and leather chemicals. Sorbitol is used as raw material for the manufacture of Vitamin-C and also as basic additive material in toothpaste, creams, cosmetics, paper and numerous food products. It can also be used as stabilizer and antioxidant in PVC resins, protective coatings, urethane rigid foams, elastomers etc. Market survey Maize (Corn) contains about 70% starch, other components being protein, fibers and fat. The basis of the maize milling process is the separation of the maize kernel into its different parts. Maize starch is produced by the wet milling process, which involves grinding of softened maize and separation of corn oil seeds (germs), gluten (proteins), fibers (husk) and finally pure starch. Karnataka, AP, Bihar, MP. UP and Rajasthan are the main maize producing areas. It is also produced in Assam, Chhattisgarh, Haryana, Jharkhand, Tamil Nadu, Uttarakhand, Gujarat, HP, Jammu Kashmir, and Orissa. Punjab, West Bengal etc. Expiry rate of maize is fixed according to Nizamabad mandi. Apart from Nizamabad, Karimnagar in AP is also a delivery centre. In Maharashtra, Jalna and Jalgaon are the delivery centres while in Karnataka, Davengere is a delivery centre. Nimbaheda in Rajasthan, Ratlam in MP and Bahraich in UP are the delivery centres which are approved by the NCDEX. Maize is also produced in Assam, Chhattisgarh, Haryana, Jharkhand, Tamil Nadu, Uttarakhand, Gujarat, HP, Jammu & Kashmir, Orissa, Punjab and West Bengal. Starch is the key ingredient in Food Industry, Pharma Industry, Cattle Feed, Paper and Textile Industry. Starch market is driven mainly by the dynamics in Pharma, Food, Paper and Textile Industries. Apart from the above, starch and starch derivates are increasingly used in manufacture of ethanol to be blended with petroleum products. The wet milling industry in India is limited to certain pockets such as Gujarat, Maharashtra, Madhya Pradesh, Punjab, Karnataka and Chattisgarh. There are about 17 wet milling units with a crushing capacity of about 3400 MT of maize/day. The average processing capacity of the units in India is 200 MT of maize/day. There are plants with as high crushing capacity as 400 MT/day. The starch is the main product of a maize processing unit, which is consumed in various other industries like food, pharmaceuticals, textiles, paper, hotels and restaurants, etc. The other products include Gluten, Germ, Fibre (husk) and Corn Steep Liquor. Gluten has great demand in animal feed industry because of its high protein content (70%). Germ is expressed to extract germ oil which is a low cholesterol containing edible oil. Fibre, mainly the husk, is used by animal feed manufacturers. It has demand in wet form itself for animal feed. Corn Steep Liquor is one of the substrates for culture media for manufacturing of antibiotics and other microbial production systems. In India, Mumbai, Delhi, Ahmedabad and Kolkata are the major markets for processed maize products. Other important markets include Bhopal, Hyderabad, Chandigarh, Lucknow, Bangalore etc. Hence, Ahmedabad and Mumbai are the major trading centres for corn starch in India. As the supply demand gap is about 60% the starch can very easily be marketed in the Country and also Starch and Gluten have good Export Potential as well. India exports these products to Sri Lanka, South East Asian countries, Bangladesh and South Africa. The husk can be sold locally, the steep liquor which produce antibiotics and microbial products and corn oil can be marketed outside the state as there is good demand for it. Hence the maize processing unit if set up in the State, will flourish and catch up the market very easily. Glucose and Dextrose are the most important end uses of the product. The growth of liquid glucose in terms of its production has been at an annual compound growth of 6.3%. As regard Dextrose, the production of the same registered an annual compound growth rate of 8%. With such as appreciable growth rate of production of dextrose it is expected that the demand for starch would also substantially go up in the future. The paper industry also accounts for about 10% of the total consumption of starch. In this respect the growth of paper, and paperboard and also paper grade pulp in terms of installed capacity production and capacity utilization have been as under. Apart from these, food products industry is also growing appreciably over a period of time, which would also an increasing demand for starch. Few Indian Major Players are as under Amaravati Agro Ltd. Bharat Starch Inds. Ltd. E I C L Ltd. Gayatri Bioorganics Ltd. Gujarat Ambuja Proteins Ltd. Gulshan Polyols Ltd. Hindustan Maize Products Ltd. Indian Maize & Chemicals Ltd. International Bestfoods Ltd. Jayant Vitamins Ltd. K G Gluco Biols Ltd. Kamala Sugar Mills Ltd. Laxmi Starch Ltd. Origin Agrostar Ltd. Rai Agro Inds. Ltd. Riddhi Siddhi Gluco Biols Ltd. Santosh Starch Ltd. Santosh Starch Products Ltd. Sayaji Industries Ltd. Starch & Chemicals Ltd. Sukhjit Starch & Chemicals Ltd. Tan India Ltd. Tirupati Starch & Chemicals Ltd. Unicorn Organics Ltd. Unique Sugars Ltd. Universal Starch-Chem Allied Ltd. Wockhardt Health Care Ltd.
Plant capacity: 60,900 MT/AnnumPlant & machinery: Rs. 420 Lakhs
Working capital: -T.C.I: Cost of Project: Rs 1229 Lakhs
Return: 28.00%Break even: 59.00%
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