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

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Transmission Towers & Tele Communication Towers With Galvanizing Plant - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study

A transmission tower (colloquially termed an electricity pylon in the United Kingdom and parts of Europe, an ironman in Australia, and a hydro tower in English Canada) is a tall structure, usually a steel lattice tower, used to support an overhead power line. They are used in high voltage AC and DC systems, and come in a wide variety of shapes and sizes. Typical height ranges from 15 to 55 metres (49 to 180 ft), though the tallest are the 370 m (1,214 ft) towers of a 2700 metres long span of Zhoushan Island Overhead Powerline Tie. In addition to steel, other materials may be used, including concrete and wood. The products of the Proposed Fabrication units are covered by well designed and fabricated structures for a. state electricity boards for the purposes of electricity supply (i,e) a) power transmission Towers, TV and Radio Towers, Telecommunication Towers, b) Railway and Highway bridges etc. c. Industrial structures etc. Some transmission towers combine these basic functions. Transmission towers and their overhead power lines are often considered to be a form of visual pollution. Methods to reduce the visual impact include undergrounding. Tower structures can be classified by the way in which they support the line conductors. Suspension structures support the conductor vertically using suspension insulators. . Strain structures resist net tension in the conductors and the conductors attach to the structure through strain insulators. Dead end structures support the full weight of the conductor and also all the tension in it, and also use strain insulators. Where the conductors are straight, a tangent tower is used. Angle towers are used where a line must change direction. Structures are classified as tangent suspension, angle suspension, tangent strain, angle strain, tangent dead end and angle dead end.
Plant capacity: 144 MT /day Plant & machinery: 11576 Lakh
Working capital: -T.C.I: Cost of Project : 15505 lakh
Return: 22.45%Break even: 42.26%
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ALUMINIUM FOIL - 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 Economic

Aluminium foil is one of the most versatile packaging medium. The growth of this industry has been in the recent past, owing to the growing application of foil in a variety of products. Aluminium foil is regarded as unique material amongst flexible packaging materials. This is because of the characteristic of the foil to retain all metallic characteristics of aluminium. Aluminium foil is a thin sheet of metal. As such it can be an absolute barrier to moisture, gases, odours, bacteria and moulds. The high reflectivity of aluminium ensures good protection against radiant heat, whilst its opacity is important in preventing deterioration of a very large range of foods and drinks which are affected by light. Examples of changes caused by light, and prevented by foil packaging, are the destruction of vitamins and rancidity of fats and oils. Aluminium foils thicker than 25 µm (1.0 mil) are impermeable to oxygen and water. Foils thinner than this become slightly permeable due to minute pinholes caused by the production process. Aluminium foil has a shiny side and a matte side. The shiny side is produced when the aluminium is rolled during the final pass. It is difficult to produce rollers with a gap fine enough to cope with the foil gauge, therefore, for the final pass, two sheets are rolled at the same time, doubling the thickness of the gauge at entry to the rollers. The reflectivity of bright aluminium foil is 88% while dull embossed foil is about 80%. The applications of Foil could be divided into two major groups i.e. packaging applications and non packaging applications. Packaging applications include the products given above for these products, the requirement of packaging is such that it should protect the product from physical and chemical changes and climatic hazards Non packaging applications include heat exchangers tube fins in air conditioners, capacitors and cable wraps, in which specific properties of the foil such as conductivity are used. Major markets are Pharmaceutical, Cigarettes, Tea industry, Tagger foil, Food Products, Dairy Products, Multi ply Laminates, Electrical/ Power Application, Decorative Laminates etc. One of the largest applications of aluminium foil is flexible packaging, which includes aseptic beverage cartons, confectionery, bakery and other oven cooked products, coffee, tea and chocolate drinks, tobacco products, and pharmaceutical packaging. Other large applications of Aluminium Foil include aluminium foil containers, where aluminium foil properties offer a great range of solutions for food packaging, and Household foil, which became in many countries an essential part of modern life, for cooking, or for many uses at home, or in commercial kitchens (restaurants, hospitals, schools, canteens). Approximately 75% of aluminium foil is used for packaging of foods, cosmetics, and chemical products, and 25% used for industrial applications (e.g. thermal insulation, cables and electronics). The construction and automotive markets are responsible for nearly 25% of the total demand on the aluminium foil market. Aluminium is used in construction of commercial buildings and homes, most commonly in heating and ducting. In the auto industry, aluminium is gaining popularity and merit as a material used in car manufacturing. Due to its intrinsically lightweight, versatile properties, aluminium components improve a vehicles’ efficiency.
Plant capacity: 12 MT/DayPlant & machinery: 423 Lakh
Working capital: -T.C.I: Cost of Project : 1172 Lakh
Return: 44.13%Break even: 32.29%
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Vacuum Distillation of Crude Coal Tar(SPECIFICALLY CREOSOTE OIL) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study

Vacuum distillation is the distillation process of separating liquids boiling above 150°C at 1 atm from Nonvolatile impurities. Another liquid is boiling at least 25°C higher than the first. For vacuum distillation of crude coal tar, (specifically creosote oil), the crude coal tar is produced from coke ovens of steel plant, 50% of this crude coal tar in pitch. Coal tar is essentially the thick & black viscous liquid which is obtained by the carbonization of coal, and is a by product in the ordinary manufacture of coal gas. It should be differentiated from all the other forms of tar. Its composition varies enormously according to the mode of its formation in the gas or coke works. Properties: Coal tars are by-products of the destructive distillation (carbonization) of coal to produce coke or gas. The composition and properties of a coal tar depend primarily on the temperature of the carbonization and to a lesser extent on the nature (source) of the coal used as feedstock. In general, coal tars are complex combinations of hydrocarbons, phenols, and heterocyclic oxygen, sulfur, and nitrogen compounds. Coal tars typically are black or almost-black viscous liquids or semisolids with a characteristic naphthalene like odor. They are slightly soluble in water, partially soluble in acetone, carbon disulfide, chloroform, diethyl ether, ethanol, methanol, petroleum ether, and sodium hydroxide, and soluble in benzene and nitrobenzene. Low-temperature coal tars (formed at temperatures below 700°C) are black, viscous liquids that are denser than water and contain a lower percentage (40% to 50%) of aromatic compounds than high-temperature coal tars. Coal tars are highly flammable and corrosive, and toxic gases may be released when they burn. Their vapors can form explosive mixtures with air. Uses & Applications:Coal tars and coal-tar pitches have many uses in industry and in consumer products. Coal tars are used primarily for the production of refined chemicals and coal-tar products, such as creosote, coal-tar pitch, and crude naphthalene and anthracene oils from the distillation of crude coal tar. Coal tar has been used as a fuel in open-hearth furnaces and blast furnaces in the steel industry, as a binder and filler in surface-coating formulations, and as a modifier for epoxy resin surface coatings. Coke oven pitch is used to produce pitch coke, which is used as the carbon component of electrodes, carbon brushes, and carbon and graphite articles. Distillation fractions and residues from high temperature coal tars are used for road paving and construction and in the production of naphthalene, recovery of benzene, production of anthracene paste, briquetting of smokeless solid fuel, impregnation of electrodes and fibers, and manufacture of electrodes and graphite. Market Scenario: The downstream markets of coal tar mainly include coal tar deep-processing (phenol, anthracene, industrial naphthalene, and coal tar pitch), carbon black, substitute for heavy oil and exportation. Among these applications, coal tar consumption for deep processing ranked No.1 with 66.4% of the total consumption volume in 2009, followed by carbon black raw oil sharing 28.1% of the total. During 2005-2011, China's coal tar deep processing capacity increased from 5.4 million tons to 16.35 million tons, with a CAGR of 20.3%. From 2010 to Q1 2012, the capacity of the coal tar deep-processing projects planned or construction totaled 8.50 million t/a.
Plant capacity: Creosote Oil 1875 MT/Annum,Phenolic or Carbolic Oil 300 MT/Annum,Naphthalic Oil 900 MT/Annum,Wash Oil 600 MT/Annum,Light Oil 75 MT/Annum, Medium Soft Pitch 3750 MT/AnnumPlant & machinery: 149 Lakhs
Working capital: -T.C.I: 323 Lakhs
Return: 26.00%Break even: 33.00%
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ERW 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, Plant Layout

Electric Resistance Welded Pipe that is also known as ERW pipe and it is made of strips of steel that is hot rolled and passed through forming rolls and finally welded together. It is used for usually high diameter. ERW steel pipes and tubes are used in various engineering purposes, fencing, scaffolding, line pipes etc. ERW steel tubes are comparatively economical and possess high dimensional accuracy, and can also be produced with thinner wall thicknesses. Owing to these advantages, use of ERW steel tubes had risen steadily in recent years. However, as the properties required for steel tubes used in automobile parts have become stricter, development of a new steel tube which possesses both high strength and excellent formability has been desired. High performance ERW steel pipes and tubes possess high corrosion resistance, high deformability, high strength and high toughness. These pipes are used in fencing, lining pipes, oil country tubular, scaffolding, water and gas conveyance, structural, engineering purposes, etc. There has been tremendous increase in the production of ERW steel pipes due to higher demand in oil and gas industry, infrastructure and automobile uses. There are large numbers of units in the SSI sector. The industry has been de licensed and is eligible for automatic approval up to 100 per cent FDI. APPLICATION: ERW Stainless Steel Pipes are extensively used for conveyance of fluids intended for critical high temperature and general. Seamless SS Tubes are used in under similar service conditions in heat transfer process equipments like boilers, super heaters, heat exchangers, condensers etc. Steel line pipe made with fusion weld zones has the strength of around 70% of the parent material used, and in this way, ERW pipe is superior ERW steel pipes find its usage in diverse fields. They are used in various structural and engineering purposes, fencing, line pipes, and scaffolding. For the purpose of oil country tubular, water and gas conveyance ERW steel pipes are widely used. There has been a tremendous increase in the use of ERW steel pipes in the sector of automobiles and in the sector of agriculture. They are equally used for drinking water in housings, in collieries for extraction of Water, Thermal Powers, Hand pumps for deep boring wells, and also as strong protection for cables by Telecom Department. ERW is used for transporting oil, gas and other vapour liquid objects and can meet the requirements of high and low pressure. MARKET SCENARIO: ERW steel pipes and tubes are used in various engineering purposes, fencing, scaffolding, line pipes etc. In 2010 to 11, the Indian steel industry's demand to capacity ratio is estimated to have been at 88 per cent. However with higher capacity additions expected in 2011 to 12, 2013 to 14 and 2015 to 16, the demand to capacity ratio is expected to moderate from 2013 to 14 onwards. About 55 to 60 million tonnes of crude steel capacity additions have been announced over the next 5 years.
Plant capacity: 180000/annumPlant & machinery: 838 Lakhs
Working capital: -T.C.I: Cost of Project : 3044 Lakhs
Return: 67.25%Break even: 31.83%
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ELECTROLYTIC MANGANESE DIOXIDE - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

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

A transmission tower (colloquially termed an electricity pylon in the United Kingdom and parts of Europe, an ironman in Australia, and a hydro tower in English Canada) is a tall structure, usually a steel lattice tower, used to support an overhead power line. They are used in high-voltage AC and DC systems, and come in a wide variety of shapes and sizes. Typical height ranges from 15 to 55 metres (49 to 180 ft), though the tallest are the 370 m (1,214 ft) towers of a 2700 metres long span of Zhoushan Island Overhead Powerline Tie. In addition to steel, other materials may be used, including concrete and wood. Uses & Applications The products of the Proposed Fabrication units are covered by Well designed and fabricated structures for a. state electricity boards for the purposes of electricity supply (i,e) a) power transmission Towers, TV and Radio Towers, Telecommunication Towers, b) Railway and Highway bridges etc. c. Industrial structures etc. Four major functions of transmission towers are in use: Suspension Towers, Terminal Tower, Tension Towers & Transposition Tower. Market Survey The Indian market has also the potential to generate 150,000 MW of hydro power. The Vadodara facility received fresh investments of about USD 30 mn with a scalable manufacturing capacity that currently stands at 1500 MW per annum. The Vadodara facility is one of the three largest hydro equipments facilities in the world. With the fast development of cellular telephones, a completely new segment of tower industry has emerged. The demand has increased precipitately in sympathy with the galloping expansion of cellular telephones.
Plant capacity: 24000 Mt/ Annum Plant & machinery: 163 Lakhs
Working capital: -T.C.I: Cost of Project : 833 Lakhs
Return: 45.00%Break even: 43.00%
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ALUMINA REFINERY - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Layout

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

A beverage can is a metal container designed to hold a fixed portion of liquid such as a carbonated soft drink, alcoholic beverage, fruit juice, herbal tea etc. Beverage cans are made of aluminium (75% of worldwide production) or tin plated steel (25% worldwide production). Worldwide production for all beverage cans is approximately 52 billion units. Aluminium recycling is the process by which scrap aluminium can be reused in products after its initial production. The process involves simply re melting the metal, which is far less expensive and energy intensive than creating new aluminium through the electrolysis of aluminium oxide (Al2O3), which must first be mined from bauxite ore and then refined using the Bayer process. Recycling scrap aluminium requires only 5% of the energy used to make new aluminium. For this reason, approximately 31% of all aluminium produced in the United States comes from recycled scrap. Used beverage containers are the largest component of processed aluminium scrap, with most UBC scrap manufactured back into aluminium cans. Ingot and billet play an integral part in the production of many aluminium products. Plate, sheet, foil, wire, rod, and bar products are all produced by pressing or rolling ingot and billet. Ingot and billet are cast from molten aluminium. In the cast house, crucibles of molten aluminium empty their silvery liquid either directly into molds or into a holding furnace where the metal is kept molten at temperatures between 1,200 and 1,500 degrees Fahrenheit. Alloying elements are then added. Most metal is cast by the direct chill (DC) process, which produces huge sheet ingot for rolling mills, round log like billet for extrusion presses, or square billet for production of wire, rod, and bar. Advantages The recycling of aluminium generally produces significant cost savings over the production of new aluminium even when the cost of collection, separation and recycling are taken into account Over the long term, even larger national savings are made when the reduction in the capital costs associated with landfills, mines and international shipping of raw aluminium are considered. Aluminium recycling is economically beneficial to both the aluminium and recycling industry. The capital cost for the production of recycled aluminium is already recognized to be far lower than making new aluminium. The financial benefit has also spurred the development of the recycling program. The price of scrap aluminium has fluctuated in the market but its traditionally high value has generated enough income. Aluminium cans are the poster child of the recycling movement. This is by far the most valuable component in the solid waste stream. The aluminium can is also the most recognized recyclable item among household waste. The aluminium beverage can is 100 percent recyclable into new beverage cans indefinitely demonstrating recycling at its finest. Aluminium can recycling helps fund the entire collection system. The aluminium can is the only packaging material that more than covers the cost of collection and re processing for itself. It also helps subsidize the collection of other recyclable materials. Market Survey 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. However, internationally, the pattern of consumption is in favour of transportation, primarily due to large scale aluminium consumption by the aviation industry. White goods account for nearly 5% of aluminium consumption in the country. The products include electric fans, air conditioners, refrigerators and coolers. The white goods industry uses both extruded products and flats. In the transportation sector, aluminium is used for panelling, floors and windows. So far, it is not used for structural parts and bodies of automobiles. An Indian car uses only about 54 kg of aluminium against a global average of 100 to 110 kg. This sets the high potential for growth with the increase in the automobile sector. 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.
Plant capacity: 1000 Kg /dayPlant & machinery: 109 Lakhs
Working capital: -T.C.I: Cost of Project : 298 Lakhs
Return: 24.00%Break even: 51.00%
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Aluminium Foil Container - 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

Aluminum is the most widely used non ferrous metal and is extensively used in packaging materials. It is an excellent material for creating all types of containers. However, despite the fact that about seven billion aluminum foil containers are produced annually, most packaging engineers and packaging users know very little about the advantages that these containers bring to the packaging and food service industries. Aluminum foil containers are formed by combining mechanical and air pressure to force light gauge aluminum foil into a shaped die cavity. Esthetically appealing aluminum foil containers are ideal for table ready service after the container has functioned first as a package and a heating utensil. Foil containers also come in a variety of colors and special purpose coatings. Aluminium foil containers are used to prepare, freeze, store, transport, cook and serve a variety of foods. Containers made from aluminium foil are the only containers that can be used in all types of ovens such as microwave, conventional, convection and broiler. Use & Applications Aluminium Foil Containers greatly used in day life,it also used in the kitchen, principally for the commercial preparation, packing and conveyance of food . Used in baking industry to contain food during the production and cooking phase. The food is subsequently conveyed and sold in the foil container. Aluminium foil containers are perfect for take home and delivery meals. Designed with a leak proof metal wall, they will not absorb moisture or grease, promoting freshness, increasing shelf life, and maintaining flavor. Then there is the added convenience – foil containers are rigid enough to transport and stack easily. Market Survey Aluminium one of the best material on Earth .Aluminium foil containers serve a number of markets. A wide range of container designs are available in the retail market. Baking pans, roasting pans, muffin pans, pizza pans, cookie sheets, carryout containers, etc., are widely available to the Indian consumer. Generally, these containers also come in a variety of sizes, depending on the specific consumer needs. Aluminium foil container growth has been over 40% in the past ten years. This rapid growth can be attributed, at least in part, to the U.S. consumer’s preference for easy to prepare foods, whether in the supermarket freezer or purchasing take home entrees or complete meals from restaurants and other retail outlets.
Plant capacity: 147,5000 NOS./dayPlant & machinery: 55 Lakhs
Working capital: -T.C.I: 2018 Lakhs
Return: 53.00%Break even: 21.00%
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Aluminium Conductors - 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

Aluminium Conductors (i) All Aluminium Conductors (AAC) (ii) All Alloy Aluminium Conductors (AAAC), and (iii) Aluminium Conductors Steel Reinforced (ACSR) are used in Transmission and Distribution system to carry the generated electrical energy from generating station to end user. The Electrical energy is normally generated at the power stations far away from the urban areas where the consumers are located. There is a large network of conductors between the generating stations and the consumer. The network is called the Transmission and Distribution system. The Transmission system is to deliver bulk power from power stations to the load centres and large industrial consumers beyond the economical service range of the regular primary distribution lines where as distribution system is to deliver power from power sector . Uses and Applications Aluminium has many advantages for electrical applications. It is lightweight, strong, corrosion resistant, and a highly efficient conductor (aluminium has twice the conductivity, per pound, of copper)—rendering it the material of choice for transmitting power from generating stations to homes and businesses. It is also infinitely recyclable, making it a perfect fit for today’s environment. In 2010, electrical market applications rose 13.1 percent, to 1.472 billion pounds. Shipments of ACSR, bare cable, and insulated wire and cable products totaled 631 million pounds, off 11 million pounds from the previous year. The North American electrical market was the fourth largest for aluminium, accounting for 7.3 percent of all aluminium shipments during the year. Market Survey India is a big aluminum producer in the world. It also houses a number of aluminum plants which includes aluminum smelting plants, aluminum extrusion plants, alumina refineries, FRP plants, wire rod plants, and aluminum foil plants. India holds the rank of the eighth biggest primary aluminum producer in the world. Following Australia, Guinea, Brazil, and Jamaica, India ranks as the fifth biggest alumina producer in the world. The aluminum production of the country represents approximately 5% of the overall amount of aluminum produced in the world. The country is also a big storehouse of bauxite reserves and the bauxite reserves of the country are projected to remain for more than 350 years The market for power conductors is set to boom in the XII Plan period thanks to a much higher power transmission outlay. With private sector companies lending a supporting hand in mega transmission lines, demand for power conductors is expected to soar. Aluminum conductors have been successfully utilized in the electrical industry for over 100 years. Electricity is transmitted from the utility power plant to point of use meters using aluminum wiring almost exclusively. The Indian market for power conductors is by and large an organized one, with three players dominating the market. Sterlite Technologies Ltd is by far the industry leader, followed by Apar Industries Ltd and Diamond Power Infrastructure Ltd. These three companies together account for 70 per cent of India's power conductor market, with the remaining 30 per cent shared by a large number of smaller players spread nationwide. As of today, the power conductor market is estimated at some 5,600 crore. Few Indian Major Players are as Under:- Aluminium Industries Ltd. Apar Industries Ltd. Aravali Infrapower Ltd. Birla Ericsson Optical Ltd. C M I Ltd. Cable Corpn. Of India Ltd. Central Cables Ltd. Concepta Cables Ltd. Crystal Cable Inds. Ltd. Cybele Industries Ltd. Diamond Power Infrastructure Ltd. East India Udyog Ltd. Finolex Cables Ltd. Fort Gloster Inds. Ltd. G R Cables Ltd. G T C L Mobile Com Technology Ltd. Galada Power & Telecommunication Ltd. Gammon India Ltd. Gem Cables & Conductors Ltd. Gujarat Optical Communication Ltd. Gujarat Telephone Cables Ltd. Gwalior Transmission System Ltd. H G S (India) Ltd. Haryana Telecom Ltd. Hindustan Cables Ltd. Hindusthan Vidyut Products Ltd. Hirakud Industrial Works Ltd. Incab Industries Ltd. Indo Power Cables Ltd. Industrial Cables (India) Ltd. Kei Industries Ltd. Lunkad Aluminium Ltd. M P Telelinks Ltd. Madhya Pradesh Electricals Ltd. Marine Cables & Wires Pvt. Ltd. Murarka Cables & Conductors Ltd. Nicco Corpn. Ltd. Nicco Corporation Ltd. [Erstwhile] Nicco Industries Ltd. Omega Cables Ltd. Opal Industries Ltd. Optel Telecommunications Ltd. Paramount Communications Ltd. Paramount Wires & Cables Ltd. Pashupati Cables Ltd. Pawan Power & Telecom Ltd. Pennar Aluminium Co. Ltd. Plasmac Machine Mfg. Co. Ltd. R P G Cables Ltd. R R Kabel Ltd. S G N Telecoms Ltd. Savant Infocomm Ltd. Shashi Cables Ltd. Skytone Electricals (India) Ltd. Smita Conductors Pvt. Ltd. Spectra Punjab Ltd. Sterlite Technologies Ltd. Sterlite Telecom Ltd. Sterlite Telelink Ltd. Tamilnadu Telecommunications Ltd. Telelink Nicco Ltd. Telephone Cables Ltd. Torrent Cables Ltd. Torrent Cables Ltd. Traco Cable Co. Ltd. U M Cables Ltd. Uniflex Cables Ltd. Universal Cables Ltd. Upcom Cables Ltd. V H E L Industries Ltd. Vimal Flexsol Ltd. ?
Plant capacity: 4 MT/DayPlant & machinery: 93 Lakhs
Working capital: -T.C.I: Cost of Project : 393 Lakhs
Return: 37.00%Break even: 37.00%
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Information
  • One Lac / Lakh / Lakhs is equivalent to one hundred thousand (100,000)
  • One Crore is equivalent to ten million (10,000,000)
  • T.C.I is Total Capital Investment
  • We can modify the project capacity and project cost as per your requirement.
  • We can also prepare project report on any subject as per your requirement.
  • Caution: The project's cost, capacity and return are subject to change without any notice. Future projects may have different values of project cost, capacity or return.

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About NIIR PROJECT CONSULTANCY SERVICES

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NIIR PROJECT CONSULTANCY SERVICES (NPCS) is a reliable name in the industrial world for offering integrated technical consultancy services. NPCS is manned by engineers, planners, specialists, financial experts, economic analysts and design specialists with extensive experience in the related industries.

Our various services are: Detailed Project Report, Business Plan for Manufacturing Plant, Start-up Ideas, Business Ideas for Entrepreneurs, Start up Business Opportunities, entrepreneurship projects, Successful Business Plan, Industry Trends, Market Research, Manufacturing Process, Machinery, Raw Materials, project report, Cost and Revenue, Pre-feasibility study for Profitable Manufacturing Business, Project Identification, Project Feasibility and Market Study, Identification of Profitable Industrial Project Opportunities, Business Opportunities, Investment Opportunities for Most Profitable Business in India, Manufacturing Business Ideas, Preparation of Project Profile, Pre-Investment and Pre-Feasibility Study, Market Research Study, Preparation of Techno-Economic Feasibility Report, Identification and Selection of Plant, Process, Equipment, General Guidance, Startup Help, Technical and Commercial Counseling for setting up new industrial project and Most Profitable Small Scale Business.

NPCS also publishes varies process technology, technical, reference, self employment and startup books, directory, business and industry database, bankable detailed project report, market research report on various industries, small scale industry and profit making business. Besides being used by manufacturers, industrialists and entrepreneurs, our publications are also used by professionals including project engineers, information services bureau, consultants and project consultancy firms as one of the input in their research.

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