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Best Business Opportunities in Sikkim - Identification and Selection of right Project, Thrust areas for Investment, Industry Startup and Entrepreneurship Projects

Sikkim is an Indian state situated in the Himalayas and is known to be landlocked. It is the least populous state in the country and the second smallest in area after Goa. In the past few years, the Sikkim Government has tried its level best to promote tourism in the state and has been successful in its task as well. The world's third highest mountain, Mt. Kanchenjunga, dominates this tiny Himalayan State with its beauty and majesty. The State is one of the 18 biodiversity hotspots in the world. It includes nearly one third of the total species of angiosperm found in the country; around 4,000 species of flowering plants; 300 species of ferns and allies; 144 species of mammals; 500 to 600 species of birds and so on. Rare Blue Sheep, Tibetan Mastiff, Yaks and Red Pandas are also found here. Such natural beauty along with ideal climatic condition of the State augurs well for the tourism industry. The green image of the State has made it an attractive investment destination.

It is a popular tourist destination owing to its culture, scenery and biodiversity. Kanchenjunga the world’s 3rd highest peak is the state’s highest point. The state’s economy is largely agrarian based on the terraced farming of rice, it also produces more cardamom than any other Indian state and is home to the largest cultivated area of cardamom. It lacks a large scale industrial base, brewing, distilling, tanning and watch making are the main industries. Noodle based dishes such as thukpa and chowmein are common, it is also the 3rd highest per capita alcoholism rate amongst all Indian states.

In Sikkim, agriculture is the main occupation of the inhabitants. Agriculture in Sikkim seems to be the basis of the socio-cultural pattern of the territory.

Sikkim is blessed by a fertile land that largely supports agriculture. The topography and the climatic condition of Sikkim is favorable for agriculture at Sikkim. Therefore, Sikkim witnesses a high yield every year. Among the chief crops grown in Sikkim are:

Wheat

Paddy

Maize

Barley

Buck wheat

Cardamom

Potatoes

Tea, etc.

It is noteworthy that Sikkim produces the highest amount of Cardamom in India. Sikkim is also known for housing the largest area of Cardamom field within the territory. Cardamom is among the two cash crops of Sikkim, besides potato. Sikkim is known for producing a special variety of tea that is known for its taste and quality throughout the world. One might come across a number of tea estates in Sikkim that form an integral part of Sikkim agriculture.

The important mineral resources of the state are copper-lead-zinc and silver reported in Bhotang, Rangpo and Dikchu in East Sikkim district. Occurrences of other minerals like dolomite, quartzite and steatite are reported in West Sikkim district. Limestone in North Sikkim district and Marble in East Sikkim and North Sikkim districts.

·         Bamboo and Cane Craft are deep rooted in traditional culture of the state.

·         Producer of Carpets of varied designs and high quality.

·         Handloom Products are famous for their beauty and intricate design.

·         Apparel and Garment making Unit at Barfok.

·         Carpet weaving at Makha.

·         Candle making at Namchi.

The above mentioned points proves that Northeast India has the potential to produce the country’s finest silk products, the same of which can be exported outside the country, elevating the economic standard and status of the Northeastern states besides putting Northeast in the cultural map of the world.

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WHEAT FLOUR MILL - 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

Wheat is a grass, originally from the Fertile Crescent regions, but now cultivated worldwide. In 2007 world production of wheat was 607 million tons working it the third most produced cereal after maize (784 million tons) and rice (651 million tons). Globally, wheat is the leading source of vegetable protein in human food having higher protein content than either maize (corn) or rice, the other major cereals. In terms of total production tonnage used for food it is currently second to rice as the main human food crop and ahead of maize after allowing for maize’s more extensive use in animal feeds. Wheat is planted to limited extent as a forage crop for livestock, and its straw can be used as a construction material for roofing thatch. The whole grain can be milled to leave just the endoperm for white flour. The products of this are bran and germ. The whole grain is a concentrated source of vitamins, minerals, and protein white the refined grain is mostly search 100 grams of protein 1.5 grams of total fat, 71 grams of carbohydrate, 12.2 grams of dietary fiber an 3.2 mg iron the same weight of hard red spring. Wheat contains about 15.4 grams of protein, 1.9 grams of total fat 68 grams of carbohydrate (by difference) 12.2 grams of dietary fiber and 3.6 mg of iron. Wheat flour is a powder made from the grinding of wheat used for human consumption. More wheat flour is produced than any other flour. Wheat varieties are called clean white or brown if they have high gluten content and they are called soft or weak. Flour if gluten content is low. The most common physical and chemical tests used to determine wheat quality. The wheat and flour tests are standardized testing procedures commonly used for quality control purpose. A wheat flour milling process for producing whole grain wheat flour which has the full nutritional value of wheat kernels While retaining the texture of refined wheat flour and an appearance similar to refined wheat flour and the products which can be made from the grain wheat flour. There is a very good scope in this sector and new entrepreneurs should venture into this field.
Plant capacity: 30000 MT/AnnumPlant & machinery: 240 Lakhs
Working capital: -T.C.I: Cost of Project : 736 Lakhs
Return: 41.00%Break even: 63.00%
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MODIFIED POTATO STARCH - 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

PRODUCT PROFILE 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 essential as a universal binding and food thickening agent. Leveraging on potato starch production and producing modified potato starch that is specially customized for various applications in food, textile and paper manufacturing industries. Product characteristics Appearance - powder a clear white colour Surface of starch granules app. 30 ha/g Specific density app. 1.55 g/ml Specific heat 1.22 J/g Bulk weight of starch 80% DS app. 0.7 g/ml DS of moist centrifuge app. 0.6 g/ml Brightness (MgO2 = 100%) app. 95 % Size ranges between 5 and 100 ?m Applications Starch and modified starches have a broad range of applications both in the food and non food sectors. The largest users of starch in the EU (30%) are the paper, cardboard and corrugating industries. Other important fields of starch application are textiles, cosmetics, pharmaceuticals, construction and paints. In the medium and long run starch will play an increasing role in the field of “renewable raw materials” for the production of biodegradable plastics, packaging material and moulds. The powder has very consistent as the major raw materials are available in house with very good quality. The best value provided by the modified starch over native starch is the reduction in downtime and improvement in paper quality. Additional benefits offered by the modified starches are improvement in wastewater discharge quality with charged starches, elimination of chemical and equipment for on site conversion of native starches, reduction in labor costs due to the simplicity of cooking and using modified starches etc. Global demand Starch, one of the most present biomaterials has witnessed significant developments over the years. After witnessing a temporary dip in growth in the year 2008 and 2009, the world market for starch, by consumption is expected to recover and register healthy growth to reach 80 million metric ton by 2015. The Global starch market is likely to get respite from deceleration in its market growth, with growth poised to receive a new lease of life in the next few years, thanks to the growing consumption of liquid starches and modified starches. The modified starch market is projected to be the fastest growing segment over the period 2007-2015. The US represents the largest geographic market for starch, having accounted for a share of about 51% in the total volume of starch consumed in 2009. Given the countrys large per capita income, the demand for starch in the US has been steadily on the rise. Asia Pacific represents the fastest growing market over the period 2007-2015. Growing employment opportunities, and subsequent increase in per capita income over the last few years, particularly in China and India, have been driving the growing demand for starch in the region. The demand of the product in the market is immense and therefore its market position is splendid. Hence it is an excellent field to venture.
Plant capacity: 45000 MT/AnnumPlant & machinery: 654 Lakhs
Working capital: -T.C.I: Cost of the project: 1618 Lakhs
Return: 43.00%Break even: 50.00%
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Lead Acid Battery - 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

Profile: The lead-acid storage battery, an important energy storage device, is the most widely used secondary storage cell by automobile and other industries. Storage cells are devices which release a flow of electron through an external circuit as a result of reactions occurring between the active electrode materials and ions transported by the electrolyte. The cells in which the reactions are reversible are called secondary cells. In these cells the active materials can be returned to their original state by applying electrical current from an external source in the opposite direction to the flow of the cells discharge current. We are dependent on lead acid batteries for many uses in our lives that can be subdivided into four broad categories: engine starting, motive power and standby power, valve regulated battery. There are two distinct designs of recombination battery currently use: Absorbed electrolyte and Gelled electrolyte. Lead acid battery industry is divided into three main sectors: SLI batteries, industrial batteries and transaction batteries. SLI batteries are primarily used in motor vehicle. Industrial batteries include those used for uninterrupted power supply and transaction batteries are used to power electric vehicles such as forklifts. Characteristics: The lead battery uses lead oxide as the active material of the positive electrode and metallic lead in a high surface area porous structure, as the negative material. The physical and chemical properties of these materials are listed below: • Typically a charged positive electrode contains both variations, ? PbO2 (Orthorhombic) and ? PbO2 (Tetragonal) • The equilibrium potential of the ? PbO2 is more positive than that of ? PbO2 by 0.01V. • The cured plate consists of lead sulphate, lead oxide and some residual lead (?5%). • The electrolyte is a sulfuric acid solution, about 1.28 specific gravity or 37% acid by weight in a fully charged condition. • As the cell discharges, both electrodes are converted to lead sulfate and the process reverses on charge. Application: The lead acid battery is used in a wide variety of applications, and in the past few years many new applications have arisen: • The most common use of the lead acid battery is for starting, lighting, and ignition in automobiles and other vehicles with internal combustion engines. • Lead acid batteries are used as the power source in off the road vehicles such as golf carts, forklift trucks, mining vehicles, and construction and industrial equipment. • It also has applications in DC Power System which includes a battery charger (rectifier/charger) which has a sufficient capacity to recharge the batteries at the proper voltage while simultaneously supplying power to the dc load. • In Static uninterruptible AC Power System (UPS) a storage battery is linked to the utility power to provide a continuity of service in the event of an interruption of the utility power. • Valve regulated batteries are used for standby applications such as in telephonic systems, uninterruptible power systems, burglar, fire alarms and emergency lighting. Global Scenario Lead acid batteries are considered to have one of the fastest global growth rates. Usage of lead acid battery is expected to grow further with technological advancements in the electric vehicles market. Although efforts are on to develop a miracle battery for electric vehicles, lead acid batteries are one of the few battery technologies that are considered as the workhorses of today’s Electric Vehicle fleet. The influx of cutting edge technology has brought forth a new genre of long lasting, lead acid batteries featuring smaller size and lightweight attributes. The global market for Lead Acid Batteries (Automotive) is forecast to reach US$15.4 billion by the year 2015, charged by sustained demand from automobiles industry, specifically the aftermarket/replacement market. Emergence of next generation electric vehicles (EVs) and hybrid electric vehicles (HEVs) will further drive the market. Since there is a huge demand for Lead acid battery in market therefore the entrepreneur venturing in this field expects an enormous success.
Plant capacity: 300000 Nos./AnnumPlant & machinery: 416 Lakhs
Working capital: N/AT.C.I: Cost of project : 1327 Lakhs
Return: 44.00%Break even: 56.00%
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Maize Wet Milling Process - 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

Profile Maize is third important cereal/crop after wheat and rice and has a great potential of processing due to its high nutritive value and commercial uses. Maize (also known as corn) is common name for a cereal grass widely grown for food and livestock fodder. Maize ranks with wheat and rice as one of the world’s chief grain crops. Starch is produced from maize than any other crop. Maize is the most important raw material for industrial starch. Other products are germ; corn gluten and fiber. There is basic series of dry milling or wet milling process required for getting optimum quality products. Both the milling processes have merits and demerits of the quality of products and cost effectiveness. In case of wet milling there is series step for cleaning, steeping wet grinding centrifuging, drying and packaging. The whole wet milling process required large amount of demineralized water. There is also larger amount environmental pollution problem, which should be neutralized by preliminary treatment to get neutral effluent. There is larger amount of raw material available in India, which can exploit by manufacturing different available product in the maize. Manufacturing process technology is available in India, for the manufacturing of maize base products. Major plant and machineries are available in India. Few of them require to import. All the products manufactured from maize are food base product so it has very good market demand now as well as it will be stay in future also due to rapid population growth. As a whole the project is good one. Properties Starch: It is white, amorphous non crystalline powder, it can be acid hydrolyzed to form dextrose or it may be enzymatic hydrolysis to form dextrose. It is insoluble in water and forms irreversible gel in the hot water. It swells water at room temperature Zein/Maize Protein: White to slightly yellow powder; odorless, nontoxic protein of the prolamine class, derived from corn; contains 17 amino acids; tasteless; free of cystine, lysine, and tryptophane. A resinous material dispersible in water with neutral sulfonated castor oil; soluble in dilute alcohol; insoluble in water, dilute acids, anhydrous alcohol, turpentine, esters, oils, fats; d 1.226 Combustible. Germ: It is yellowish solid product & Content mostly total part as fat. Fiber: It is bright yellow crystal powder, ash content about 5% ? Applications Maize has several kinds of applications in the form of maize starch, maize fiber, germ, corn etc. Maize starch forms viscous, relatively short and opaque paste with cereal flavor. Its paste sets to stiff gels. It is widely used for thickening sauces, gravies, puddings and pie fillings. Maize starch finds numerous uses in the bakery industry for the production of cakes, cookies, in ice cream preparations etc. In Paper industry a large quantity of starch is consumed as a surface sizing agent, as a binder, as a paper coating agent etc. In textile industry, starch is used in sizing to strengthen the warp yarn, in finishing and changing the appearance of fabric after it is bleached, dyed or printed, in printing and increase the consistency of printing pastes. Also starch is used as a component in finishing agent to glaze and polish sizing thread. Maize Fiber can be used for the preparation of cattle feed production, manufacturing of non caloric high fiber food products, essential chemicals, vitamins and for making of natural food colour. Germ is used for making corn oil; maize (corn) protein is used for manufacturing of gluten, preparation of glutanic acid as well as other available amino acids. It may also be used for the protein substitute in the different food products. Market Scenario The production of maize is likely to go up by 19 per cent to touch 21 million tons in 2010 11. India is estimated to generate an annual demand of nearly 23 million ton of corn by 2011-12. According to Vision 2025, released on Thursday by Indian Maize Development Association (IMDA), India's demand for maize is likely to be 22.73 million tons in 2011-12, out of which 19.66 million tons would be for non-food uses like poultry and cattle feed. IMDA also said that total production of maize is estimated to rise to 42 million tons in 2025 from a projected 22 million tons in 2010, if the output increases by 6 to 7 million ton in every five year. India, Asia’s second-largest grower of corn after China, generally sells around two to three million tons of corn a year in global trade of about 90 million tons. Cost Estimation: Capacity : Maize Starch: 69300 MT/Annum Maize Zein/Protein: 5940 MT/Annum Maize Fiber Flour: 7920 MT/Annum Maize Germ: 7920 MT/Annum
Plant capacity: -Plant & machinery: 2531 Lakhs
Working capital: -T.C.I: Cost of project : 4639 Lakhs
Return: 46.00%Break even: 44.00%
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Potato French fries - 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

Profile French fries are among the highest saleable potato products. This is the most abundant processed potato and can be found in many varieties such as lattice cut, wedges, curly, batter dipped, seasoned, or straight cut including French Fries on menu is one of the easiest ways to increase sales and profits for the companies.Potato French fries are basically used for snacks purposes. They are produced by rapid dehydration of potato slices by direct contact with hot oils. Its crispness and special palatability make it the favourite of people of all age groups. Different varieties of potatoes are usually used for French fries. Application • It is used for the preparation of food directly. • It can be used for the production of chips. • It is largely used in the 3 star to 5 star hotels. Steps Involved in the Manufacturing of French Fries: • Peeling & Trimming • Cutting & Sizing • Blanching • Drying • Frying & Par-Frying • Freezing & Packing. Market Potential The frozen French fries market in India is in a nascent stage but is growing at the rate of about 25% per year. The percent organized market for frozen French – fries in India is estimated at over 3500 tons/ annum, mostly contributed by imported French fries. The estimated domestic production of French fries is about 500 MT. Indian fast food sector is growing at 25 to 30 % annually due to rapid growth of fast food chain both Indian and international. French fries are among the highest saleable potato products. This is the most abundant processed potato and can be found in many varieties such as lattice cut, wedges, curly, batter dipped, seasoned, or straight cut including French Fries on menu is one of the easiest ways to increase sales and profits for the companies
Plant capacity: 8 MT/day Plant & machinery: 606 Lakh (12.11 Lakh USD)
Working capital: -T.C.I: 2400 Lakh (48 Lakh USD)
Return: 18.00%Break even: 62.00%
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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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CEMENT PLANT - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics

Cement is a material with adhesive and cohesive properties which make it capable of bonding minerals fragments into a compact whole. It can be defined as any substance, which can join unite two or more pieces of some other substance together to form a unit mass. Cement, as used in construction industries, is a fine powder which when mixed with water and allowed to set and harden can join different components or members together to give a mechanically strong structure. Thus cement can be used as bonding material for bricks or for bonding solid particles of different sizes (rubber masonry) to form a monolith. The name Portland cement is given originally due to the resemblance of the color and quality of the hardened cement to Portland stone Portland Island in England. The most common type of cement used by concrete manufacturers is Portland cement, which is prepared by igniting a mixture of raw materials mainly composed of calcium carbonate or aluminium silicates. According to ASTM standard specification C 150, Portland cement is defined as a hydraulic cement produced by pulverizing clinker consisting essentially of hydraulic calcium silicates, usually containing one or more of the forms of calcium sulfate as an inter ground addition . The phase compositions in Portland cement are shown below and they are denoted as tri calcium silicate (C3S), di calcium silicate (C2S), tri calcium aluminate (C3A), and tetra calcium alumino ferrite (C4AF) Uses & Applications The most common use for cement is in the production of concrete. Concrete is a composite material consisting of aggregate (gravel and sand), cement, and water. As a construction material, concrete can be cast in almost any shape desired, and once hardened, can become a structural (load bearing) element. Users may be involved in the factory production of pre cast units, such as panels, beams, road furniture, or may make cast in situ concrete such as building superstructures, roads, dams. Market Survey Indian cement industry, a leading manufacturing sub-sector in India, entered a new era after the partial decontrol in 1982 and near total free market in 1989, ahead of the dawn of the liberalisation era in the country. The industry was totally delicensed in 1991 under the Industries Development and Regulation Act. India is the second largest producer of cement in the world after China. It is followed by Japan and the USA. The overall turnover of the industry is placed at Rs 600 bn. India accounts for a share of about 6% against China's 37% and the USA's 5% of global production. The demand for cement mainly depends on the level of development and the rate of growth of the economy. There are no close substitutes for cement and hence the demand for cement is price inelastic.
Plant capacity: 6000 MT/AnnumPlant & machinery: 777 Lakhs
Working capital: -T.C.I: Cost of Project : 1253 Lakhs
Return: 48.00%Break even: 39.00%
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Lead Acid Battery Recycling

Lead acid batteries are rechargeable batteries made of lead plates situated in a ‘bath’ of sulfuric acid within a plastic casing. They are used in every country in world, and can commonly be recognized as car batteries. The batteries can be charged many times, but after numerous cycles of recharging, lead plates eventually deteriorate causing the battery to lose its ability to hold stored energy for any period of time. The world is getting increasingly aware of the need to limit the consumption of nonrenewable resources and the production of waste. This requirement is accomplished by taking advantage of recycling technologies and re using the materials at the end of their useful life. The manifold increase in the automotive vehicles on roads as well as in various other applications has increased the demand for lead acid batteries. With so many batteries in use, their disposal and recycling is of paramount importance. The spent battery is 99% recyclable, if processed in proper facility and under environmental friendly conditions. The lead is the most recycled metal and more than 50% world demand is met by the secondary lead itself. Uses and Application The major uses of lead are: Storage batteries, Building Construction, Cable sheathing, Radiation screening, Ammunition and Lead Alloys. Lead is a very useful material found in many different products, with approximately six million tons used annually across the world, though much of this lead is recycled and reused. Market Survey India has very limited domestic lead production capacity. Most of the lead scrap that is generated locally from melting down lead batteries must be refined at a second smelter to improve its purity before it can be used in making new lead batteries.As the automotive industry continues to expand in China, increasing in both production and domestic consumption, the battery market will grow to meet this demand. China is currently the largest car manufacturing and consuming country in the world, producing 18.3 million cars in 2010. Approximately 60% to 70% of current lead battery production is used in newly manufactured vehicles, while the remaining 30% to 40% are sold as replacement batteries. ? Few Indian Major Players are as Under: to Chloride Alloys India Ltd. Chloride Metals Ltd. D D Agro Inds. Ltd. Hindustan Zinc Ltd. Leadstone Energy Ltd. Nile Ltd. Shiva Metalloys International Ltd.
Plant capacity: 40 MT/DayPlant & machinery: 316 Lakhs
Working capital: -T.C.I: Cost of Project : 696 Lakhs
Return: 32.00%Break even: 50.00%
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Paper from Bamboo - 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

Bamboo is one of rapidly growing and high yielding woody plants. It produces a large biomass per unit area as compared to many other plants. Bamboos comprise about 30 genera and 550 species of which about 138 species occur in Ind. The main species used for papermaking is Dendrocalamus strictus. The other species used are Melocanna bambusoides, Bambusa tulda, B. balcooa, B. vulgaris, d. hamiltonii, Oxyenanthera monostigma, and Bambusa nutans, Ochlandra rheedii, and O. travancorica. About 4,000 years ago, the word paper is derived from the name of the reedy plant papyrus, which grows abundantly along the Nile River in Egypt. However, true paper is made of pulped cellulose fibers like wood, bamboo, cotton or flax. Uses & Applications The use of paper for various purposes is an essential feature of the modern society. Therefore pulp and paper manufacturing is very important part of modern industry. Pulp and paper production is based on the use of bamboo as raw material, but also on the consumption of large scale chemicals, like chlorine, sodium hydroxide, etc It is a well known product, which is the only media of communication through writing. It is then off rital medium for propagation of educations. It is used in every part of life, i.e., education, office, researches, engineering, art, book printing, magazine, newspaper, etc. Market Survey The Indian paper industry has highly fragmented structure consisting of small, medium and large sized paper mills having capacities ranging from 10 to 1150 tons per day. The industry employs wood, agro residues and recycled/waste paper as the major raw material for manufacturing different varieties of paper, paper board and newsprint. The present consumption of wood as raw material for paper making is 9 million tons per annum. About 75% of the wood demand is being met through farm/social forestry sources. Future demand will be additional 12 million tons of wood to meet the projected production targets by the year 2025*. Overall paper consumption in the baseline scenario is projected to increase to 16.5 million tons in 2016 to 17 and reach 25.3 million tons in 2026 to 27. In the alternative scenario, which appears to be more realistic, the consumption increases to 18.4 million tons in 2016 to 17 (the terminal year of the 12th Plan) and to 43.9 million tons in 2026 to 27. Few Indian Major Players are as Under:- Chadha Papers Ltd. Circar Paper Mills Ltd. Coral Newsprints Ltd. Dadrawala Papers Ltd. Danalakshmi Paper Mills Pvt. Ltd. Eggro Paper Moulds Ltd. Ellora Paper Mills Ltd. Gateway Speciality Papers Ltd. Gaurav Paper Mills Ltd. Hindustan Paper Corpn. Ltd. Khanna Paper Mills Ltd. Mukerian Papers Ltd. Mysore Paper Mills Ltd. Nagaland Pulp & Paper Co. Ltd. Nath Pulp & Paper Mills Ltd. R T Paper Boards Ltd. Rajalakshmi Paper Mills Ltd. Rama Paper Mills Ltd. Rohit Tissue Ltd. Sai Rayalseema Paper Mills Ltd. Sangal Papers Ltd. Satia Industries Ltd. Shiva Paper Mills Ltd. Shree Bhawani Paper Mills Ltd. Shree Industries Ltd. Shree Rajeshwaranand Paper Mills Ltd. Shree Vindhya Paper Mills Ltd. Sri Vishnu Annamalaiyar Paper Mills Ltd. Surya Chandra Paper Mills Ltd. Tamil Nadu Newsprint & Papers Ltd. Vidarbha Paper Mills Ltd. [Merged]
Plant capacity: 20 MT/DayPlant & machinery: 777 Lakhs
Working capital: -T.C.I: Cost of Project : 1936 Lakhs
Return: 24.00%Break even: 56.00%
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Ready to Eat Food (Retort Packaging) (Vegetable Pulao, Dal Makhani, Palak, Rajmah, Potato Peas & Mutter Mushroom )- Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process

Ready to Eat Meals like already cooked or prepared lunch & dinner are relatively new products which came in market only a few years back and are now sold through retail general stores in especially made sealed aluminum laminates. The retorting or sterilization process ensures the stability of the Ready to Eat foods in retort pouches on the shelf and at room temperature. The retort processed foods do not require rehydration or cooking and can be consumed straight from the pouch with or without prewarming depending upon the requirement of the users and the weather conditions. In order to produce high quality safe Retort Food it is very important to optimize the retort processing. The product should be sterilized properly to make sure that it is safe for consumption. At the same time it should not be over cooked or over processed. Because over sterilization kills the taste and food appeal of the product. Types of Ready To Eat Food The vegetarian food includes Alloo Matar Palak paneer Sarso Ka Saag Karahi Chana Masala Kadi Pakora Cheese Tomato Dal Makhani Rajamah etc. The non vegetarian food includes Chicken Curry Butter Chicken Chicken Mughalai Chicken Mutton Masala Mutton Korma etc. Market Survey The food processing industry has been slated for accelerated growth. It is projected to be a futuristic industry and it is anticipated that, over the years, it will emerge as a leading player in the global markets. As a result the industry is seen to be witnessing feverish activity. The size of the processed food market is estimated to be over Rs 110 bn and is growing at 10 to 15% per annum. The Rs 4000 bn food market in India has been growing at the rate of 6.5% a year. The true potential of the food processing industry is slowly being realised. This is reflected in the fact that the government has classified food processing industry as a thrust area. The popularity of ready to eat packed food now is no longer marks a special occasion. People want value for time money in terms of quality and variety. The food processing industry is one of the largest industries in India. The ready to eat (RTE) sector in the Indian food industry is taking off in no small way thanks to escalating demand from urban Indians with hectic schedules and others looking for convenient choices authentic tastes and entrées on the go. This demand for ready to eat meals is also propelling interest and investment in India’s fledgling food processing sector, with allied businesses in cold chain and logistics also set to grow tremendously. Present Manufacturers Agro Tech Foods Ltd. Energy Products (India) Ltd. Golden Fries Ltd. Haldiram Indian Snacks Ltd. I T C Ltd. Just Desserts Ltd. Kanaiya Foods (India) Ltd. Kohinoor Foods Ltd. M T R Foods Pvt. Ltd. Mount Shivalik Inds. Ltd. Shivdeep Industries Ltd. Tasty Bite Eatables Ltd. Ushodaya Enterprises Pvt. Ltd. Venkatramana Food Specialities Ltd.
Plant capacity: Vegetable Pulao : 3,000 kgs/day,Dal Makhani:2,000 kgs/day,Palak :600 kgs/day, Rajmah:700 kgs/day,Potato Peas:600 kgs/day,Mutter Mushroom:250 kgs/dayPlant & machinery: Rs.595Lakhs
Working capital: -T.C.I: Cost Of Project: Rs.998 Lakhs
Return: 32.00%Break even: 49.00%
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  • One Lac / Lakh / Lakhs is equivalent to one hundred thousand (100,000)
  • One Crore is equivalent to ten million (10,000,000)
  • T.C.I is Total Capital Investment
  • We can modify the project capacity and project cost as per your requirement.
  • We can also prepare project report on any subject as per your requirement.
  • Caution: The project's cost, capacity and return are subject to change without any notice. Future projects may have different values of project cost, capacity or return.

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