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

Bangladesh representing a potential market in itself (and potential access to the much larger South Asian market) Bangladesh also offers considerable potential as a base for labor-intensive manufacturing. Low-cost labour is the factor most often cited by the private as well as the public sector in Bangladesh when asked to name the most attractive features of the country. In addition to its large population and low-cost labour, Bangladesh offers major reserves of natural resources, in particular natural gas.

Bangladesh is a moderate, secular and liberal democracy with immense potentials. It has earned global reputation in poverty alleviation, primary school enrollment, women empowerment, family planning, infant, under-five mortality rate and maternal mortality ratio reduction, lowering number of communicable diseases and child immunization.

Bangladesh is in the process of a transition from a predominantly agrarian economy to an industrial and service economy. The private sector is playing an increasingly active role in the economic life of the country, while the public sector concentrates more on the physical and social infrastructure. Bangladesh has great ambitions that offer great opportunities in the energy, Agriculture, transportation and environmental sectors for the best domestic as well as international enterprises.

Business Sectors and Thrust Areas in Bangladesh

Agriculture Sector

Bangladesh is well known for its progress in human development. The economy of Bangladesh is primarily dependent on agriculture. About 84% of the total population lives in rural areas and are directly or indirectly engaged in a wide range of agricultural activities. Bangladesh has the essential attributes for successful agri-based industries namely rich alluvial soil, a year-round frost-free environment, available water and an abundance of cheap labor. Increased cultivation of vegetables, spices and tropical fruits now grown in Bangladesh could supply raw materials to local agribusiness industries for both domestic and export markets.

Agriculture plays a key role in Bangladesh’s economic growth. Bangladesh’s rural economy, and specifically agriculture, have been powerful drivers of poverty reduction in Bangladesh.

There may be investment opportunities in:

  • Fresh produce production for local and export markets;
  • Production of fertilizers and seeds;
  • Eco-friendly jute production, supported by the jute technology development institute;
  • Aquaculture and Processed fish;
  • Halal foods;
  • Milk and dairy products;
  • Cold storage facilities;
  • Agricultural products for export markets, including herbs, spices, nuts, and pulses;
  • Canned juice and fruits

 

Transportation Sector

Bangladesh's transport and logistics sectors offer immense opportunities for investors, as the country is found most wanting in the area. Improvements in ports, road, rail, and air services are all essential for a country that is in the midst of historic growth.

As of we are a developing country the main development issue is on building the infrastructure to enhance the economic growth as well as achieve the economic freedom. Bangladesh ever since the independence has focused on constructing roads & highways. In last three decades transportation sector & construction of roads has been the top priority of government. Private sector, are ready to invest, in Bangladesh's transport infrastructure and trade logistics, towards Bangladesh's growth. Invest in the country. The government will provide the policy support and security.

Opportunity

  • Replacement and up gradation of old signaling and interlocking system
  • Replacement and up gradation of old signaling and interlocking system.
  • Rehabilitation of old Line.
  • Construction of Railway line from Khulna to Mongla.
  • Procurement of trains for introduction commuter Trains
  • Studies for strengthen/reconstruction of existing Bridges.
  • Construction of missing links in the rail corridor between Bangladesh India border

Transportation sector business is a profitable business. Ever since independence this sector has been dominated by private owners.

 

Power and Energy Sector

Bangladesh has experienced rapidly rising energy consumption over the past two decades. This trend will intensify further in the coming years as economic growth and development efforts accelerate—Bangladesh strives to become a middle-income country by 2021.

Electricity is the major source of power for most of the country's economic activities. Noncommercial energy sources, such as wood fuel, animal waste, and crop residues, are estimated to account for over half of the country's energy consumption. Bangladesh has small reserves of oil and coal, but very large natural gas resources. Commercial energy consumption is mostly natural gas (around 66%), followed by oil, hydropower and coal.

Planned and appropriate use of electricity is fundamental to the economic progress of Bangladesh. There is a huge demand for electricity for all sectors of the economy including agriculture, industry and service sectors. Other than household use of electricity in rural areas, the scale of demand for electricity in agricultural, SMEs and income generating activities is going up.

 

Textile Industry

From spinning to weaving, from knitwear to leisurewear and high street fashions, the textiles and clothing industry is Bangladesh’s biggest export earner. This rapidly growing sector of the Bangladeshi economy offers a unique competitive edge that supports profitable expansion into new strategic markets.

As global demand for cheap clothing rises rapidly, Bangladesh’s position as the second biggest exporter in the world continues to hold strong, which is mainly due to its large population and low labour costs. Bangladeshi manufacturers will be forced to enhance productivity levels in order to maintain their competitive advantage.

The phenomenal growth in the readymade garment (RMG) sector in the last decade created many new factories and employment opportunities. Yet, even with these challenges ahead, as global trade picks up in the coming years, demand for Bangladeshi garments is also expected to increase, thereby prompting much-needed economic growth for the developing state. Enormous investment opportunities exist in this sector. In the RMG industry demand for fabric significantly exceeds local supply and so is currently being met by imports.

The importance of the textile industry in the economy of Bangladesh is very high. The growing trend in the textile and the RMG sector means that Bangladesh is favorably positioned to appeal to foreign investors.

Sector highlights:

  • Low-cost and high-quality products that are produced on time, reliably and very competitively with a skilled work force;
  • A unique regional location for expansion into key Asian and other markets;
  • Privileged trading status with Canada, the EU and Japan;
  • Clusters of companies providing a local supplier base with depth in skilled labour, training, and technical development facilities.

There may be investment opportunities in:

  • Carding Cloth
  • Silk Reeling Unit
  • Jeans, Cotton Casuals & Shirts
  • Implantable Surgical Suture (Biomedical Textile)
  • Acrylic Blanket for Warming Human Coverage Purpose
  • Viscous Rayon
  • Readymade Garments (T-Shirt)
  • Sanitary Napkins
  • Jeans Manufacturing Unit

 

Jute Sector

Jute is a vital sector from economical, agricultural, industrial, and commercial point of view in Bangladesh. Once upon a time jute was called the ‘Golden Fibre’ of Bangladesh. It is one of the cheapest and the strongest of all natural fibers and considered as fibre of the future. Jute is second only to cotton in world's production of textile fibers. The jute trade is centered mainly on Bangladesh and the Indian State of West Bengal. The major producing country of jute is Bangladesh, due to its natural fertile soil. Being a major player in the long history of jute trade and having finest natural fiber, Bangladesh has always had an advantage in raw jute trading. Bangladesh is still the largest producer and exporter of raw jute in the world. After the emergence of Bangladesh as an independent state the contribution of the industry to the nation's GDP and in the field of employment declined (in absolute and relative terms). But Still the jute industry must be said to be playing an important role in the national economy: it provides direct employment to about 150 lakh people even after the closure of 40 per cent of its production capacity, pays over Tk 100.00 crores for insurance and similar amount as cost of internal transport of raw jute, earns about Tk 150.00 crores worth of foreign unchanged and consumes 30 lakhs of raw jute, thereby benefiting millions of jute cultivators.

There may be investment opportunities in:

  • Jute Garments
  • Coir Pith
  • Jute Twine (Jute Rope) & Gunny Bag from Raw Jute
  • Jute Yarn, Jute Sutli & Hessian Cloth Weaving Integrated Unit
  • Jute Shopping Bags
  • Jute Ropes/Sutli
  • Jute Mill (With Spinning & Weaving)
  • Activated Carbon Powder from Jute Sticks


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• Our research reports broadly cover Indian markets, present analysis, outlook and forecast for a period of five years.

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Each detailed project reports cover all the aspects of business, from analysing the market, confirming availability of various necessities such as plant & machinery, raw materials to forecasting the financial requirements. The scope of the report includes assessing market potential, negotiating with collaborators, investment decision making, corporate diversification planning etc. in a very planned manner by formulating detailed manufacturing techniques and forecasting financial aspects by estimating the cost of raw material, formulating the cash flow statement, projecting the balance sheet etc.

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Banana powder - 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

PRODUCT PROFILE Banana powder is a powder made from processed bananas. Banana is one of the most abundant fruit crops in India. It is also one of the sources of income for farmers. Banana powder has a great potential for commercialization. It has a high sugar and low starch content and can be used as a substitute for fresh banana in making traditional cakes or their premixes as well as in the processing of banana snacks, crackers or crisps. The quality of banana powder is determined by the colour, flavour, texture and moisture content. These are affected by the varieties of bananas and processing operations specially blanching process. Good quality powder is produced from the bananas of right variety and degree of ripeness. The dry powder can be used as an additive in confectioneries, milkshakes and baby foods. Banana powder, because of its high concentration of banana essence, has been found to be a major source of carbohydrate and calories. While it is generally low as a source of protein, the beneficial ingredients of the powder are still markedly superior to that of other fruits. Product characteristics Particle size - Below 100 mesh. Appearance - Free flowing powder Advantage - Major source of carbohydrate and calories Shelf life - 1 year State - Solid, Divided solid Applications • The powder has been found to be useful as a general treatment for dyspepsia (indigestion). • Fights Anaemia by stimulating the production of haemoglobin. • Helping regulate blood pressure because of high potassium and low salt levels • Reducing constipation because of high amounts of fibre, assisting learning & alertness by bringing more oxygen to the brain • A banana powder has a mild laxative property and hence is very useful in children’s diseases • Banana powder is helpful to combat diarrhoea and dysentery • Used for the treatment of stomach ulcers, • Banana powder with milk and sugar can be an excellent supplementary or weaning food for children, it is used in the diets of children for treating malnutrition • Experiments have shown that intake of banana powder helps children to retain many mineral nutrients. Global demand National Scenario India is the fruit and vegetable basket of the world. India produces 54% of world’s mango, 23% banana, 24% cashew nuts, 36% green peas and 10% onion production. India is the largest producer of banana in the world. Maharashtra accounts for 25% of banana production in India, followed by Tamil Nadu (20%), Gujarat (15%), Karnataka (10%) and Andhra Pradesh (10%). The major banana producing states of India are Tamilnadu, Maharashtra, Karnataka, Gujarat, Andhra Pradesh, Assam and Madhya Pradesh. In India, Banana is available all through the year all over the country. If it is converted into powder or other form with the help of technology, then not only a massive wastage of this fruit could prevented but more demand for the fruit could also be generated, because demand for individual products can be increased if they are offered before or after the season. International scenarios Bananas are the fifth largest agricultural commodity in world trade after cereals, sugar, coffee and cocoa. India, Ecuador, Brazil and China alone produce half of total bananas of the world. The advantage of this fruit is its availability round the year. The present scenario the productivity of World is 115.20 T/ha where as that of India is 30.63 T/ha. Banana powder and pulp is largely used in the baking and confectionery, and baby food industries. The Indian food industry is estimated to be worth over US$ 200 billion and is expected to grow to US$ 310 billion. By 2015 India is one of the world’s major food producers but accounts for only 1.7 per cent (valued at US$ 7.5 billion) of world trade in this sector this share is slated to increase to 3 per cent (US$ 20 billion) by 2015. Since the applications and demand of banana powder is immense therefore the potential of the product is excellent. It is one of the imperative fields to endeavour.
Plant capacity: 4500 MT/AnnumPlant & machinery: 166 Lakhs
Working capital: -T.C.I: Cost of project: 539 Lakhs
Return: 43.00%Break even: 64.00%
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INSTANT TEA (Without Premix of Milk & Sugar)- Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

PRODUCT PROFILE Instant tea is a form of tea that is derived from brewed tea. Its dried granulated form can be made into a beverage with the addition of cold or hot water. Instant tea is typically lower in antioxidants than traditional tea and comes in a variety of flavors. Instant tea may be formulated for use in making either hot or iced tea. It quickly dissolves in water. Some instant teas contain sweeteners. Tea is the second most consumed beverage in the world, playing second fiddle only to water. It is in almost every culture, and there are literally thousands of varieties. Instant tea comes in many flavors. Popular instant tea flavors include lemon, cinnamon, fruit juice and other flavorings. Green, black, white and herbal teas are all available in instant form. There are four main types of tea which are, white, green, oolong, and black, all which are born from the same species of plant. Product characteristics Description -Reddish brown free flowing powder Solubility in Water In water at 70 Â °C Rate of Solution 0.6 to 0.7 gm in 100 ml water at 7° C. Clarity Clear (at 70°C) - Clear Benefits • Promotes a healthier immune system and can help ward off infection. • Is good for the heart by lowering blood pressure and cholesterol. • Can increase thermo genesis which may help aid in natural weight loss. • Promotes younger looking skin by destroying free radicals. • Shows evidence of preventing and destroying certain tumors and cancer cells. • Can even help reduce the buildup of bacteria causing plague and lead to a brighter smile. Global demand The term instant tea is key to the successful marketing of the product. India produces almost 30% of the world’s tea it exports less than 20% of the worlds supply. To stimulate the industry, the government allowed a higher investment allowance (40%) for the tea industry enabling tea companies to invest in rejuvenation and replanting of tea bushes and undertaking developmental programs under schemes approved by the Tea Board of India. The traditional leading per capita tea consuming regions, like Asia, remain less likely to drink instant, so the product is oriented to export globalization. The U.S. alone receives approximately 70% of India’s exported instant, with the remaining 30% going to 22 other nations. Darjeeling and Assam account for 75% of tea output, leaving about 25% to southern states. India consumes about 80% of the total output. Auctions account for some 60% of tea sales and despite problems, it is envisaged that this share will be maintained. Exports of tea from India rose from 178.8 million kg in 2007 to 196 million kg in 2008, registering a growth of about 10%. In value terms, the growth was more impressive at 22% valued at Rs 22.8 billion during the period. Tea exports from India had touched 203 million kg in 2006. Therefore the scope for this product is very bright. An entrepreneur venturing into this project will find it very lucrative.
Plant capacity: 100 Kg/dayPlant & machinery: 42 Lakhs
Working capital: -T.C.I: 172 Lakhs
Return: 46.00%Break even: 43.00%
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IODISED SALT FREE FLOWING FROM SEA WATER - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

PRODUCT PROFILE Iodised salt (also spelled iodized salt) is table salt mixed with a minute amount of various iodine containing salts. The ingestion of iodide prevents iodine deficiency. Worldwide, iodine deficiency affects about two billion people and is the leading preventable cause of mental retardation. It also causes thyroid gland problems, including endemic goiter. In many countries, iodine deficiency is a major public health problem that can be cheaply addressed by iodization of salt. Salt was the name originally given to the residue left by evaporation of sea water. Afterwards the name was employed to include all substances held in solution in sea water. Chemists ultimately extended the name to cover all combinations of an acid and a base. Sodium chloride (NaCl) now called common salt, is an example of the simplest type of chemical salt. Sodium chloride is an essential constituent of the body fluids and is responsible for a number of vital functions in the body. Salt is existent in all animal and vegetable life and is coeval with life itself. Product characteristics Chemical name sodium chloride (NaCl) Appearance occurs as colorless cubical crystals or white crystalline powder. Molecular weight – 58.4428 Density or specific gravity – 2.165 (135 lb/ft3) Melting point – 801°C (1,473.4°F) Applications Industries use most of the salt produced in the world today. Salt is the feedstock for the chloro alkali chemical industry, just as oil is for the petrochemical industry. The multiple chemical and physical properties of salt make possible 14,000 known uses. From the days of the cave men, humans have discovered ingenious means to use salt to enhance the quality of our lives. So valuable is this common mineral that wars have been waged and revolutions fought for access to salt. Its largest use is largely invisible to the public: about 40% of salt worldwide is used as the raw material that chemical companies transform into chlorine and soda ash, the foundations of inorganic chemistry. Salt is a processing aid in innumerable industries and the means by which animal nutrition experts ensure the health and productivity of livestock and poultry. We are all familiar with the salt shaker on the table in most of our homes. We less often think of the salt we use to regenerate our water softeners to protect the pipes and appliances in our homes. And seasonally, many of us give thanks for the salt that road maintenance crews apply to keep our cars, trucks and school buses safely on snowy winter roads. Global demand India is well endowed with saline water due to long coastal lines on 3 sides of the country. It is estimated that 93 per cent households consumed iodized salt in China, 48 per cent in Myanmar while neighboring Bangladesh and Nepal fared much better at 70 and 63 per cent respectively. Iodine deficiency is a problem of public health importance in India with no State or Union Territory totally free from it. Of the 312 districts surveyed by the Ministry of Health and Family Welfare, 254 were found to be endemic for iodine deficiency. Tata Chemicals entered in salt manufacturing. Both the salt works are spreader over, 5000 acres of area each. Government of India also got involved in salt manufacturing through public sector unit Hindustan Salts Ltd. Today out of the total salt produced 28.91 percent is produced by large salt works while 76.07 by salt farms. 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: 15000MT/AnnumPlant & machinery: 740 Lakhs
Working capital: -T.C.I: Cost of project: 1219 Lakhs
Return: 46.00%Break even: 40.00%
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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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Caramel Colour from Sugar - 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: Caramel colouring is a colour additive that is a dark-brown liquid or solid material resulting from the controlled heat treatment, often under pressure and at high temperature, of various food grade carbohydrates, such as high-dextrose corn syrup. Acids such as acetic acid, citric acid, lactic acid, or phosphoric acid may be used to break the bonds between sugars before the sugars are raised to a higher temperature for Caramelization. Caramelizing sugar is a term most often applied to melting sugar until it becomes a caramel colour liquid. Caramelized sugar is simply a mixture of sugar and water cooked until it becomes syrupy and darkens, and reaching a temperature from 320 to 356 degrees F. Caramel colour is a colloid, the specific gravity indicates the solids content and the strength of the colour. There are four distinct types of caramel colour as per their application to satisfy the requirements of different food and beverage systems: Caramel Colour I (also known as plain or spirit caramel), Caramel Colour II (caustic sulfite caramel), Caramel Colour III (ammonia or beer caramel, bakers and confectioners caramel) and Caramel Colour IV (known as sulfite ammonia, soft drink caramel, or acid proof caramel). Classification: • Caramel Colour I Plain caramel, caustic caramel, spirit caramel, used in Whiskey among many. • Caramel Colour II Caustic sulfite caramel, used in Cognac. • Caramel Colour III Ammonia caramel, baker's caramel, confectioner's caramel, beer caramel, used in Beer, soy sauce, and confectionery • Caramel Colour IV Sulfite ammonia caramel, acid proof caramel, soft drink caramel, used in Acidic environments such as soft drinks Application: Improving visual appeal is the primary purpose for caramel colour in a food or beverage system. Caramel colour also: • Protects other ingredients from light deterioration • Emulsifies flavour agents in the preparation of soft drink concentrates • Standardizes batch to batch colour variation • Caramel is used by the Malt and Milk foods industry as well as a natural colourant in pharmaceutical industries. • Caramel colour serves as an emulsifier to impede separation of flavour oils • Caramel colours also appear in beers, whiskeys, wines, rums and liqueurs. • Negatively charged caramels (and, sometimes, specifically formulated spirit caramel colours) work well in whiskeys, wines, rums and liqueurs • Soy sauce, which can be preserved with up to 15 percent salt, demands a caramel colour with the proper salt stability • Caramel colour is used to enhance the attractiveness of baked goods by supplementing the inadequate and irregular colouring power of refined ingredients in rye, pumpernickel, specialty breads, fillings, toppings, cakes and cookies. Global Scenario: The global food colours market was worth an estimated $1.45 billion in 2009 relays an August 2010 market report, The Global Market for Good Colours, by Leatherhead Food Research. World usage of food colours is currently about 40,000 to 50,000 tons. Although current economic conditions mean "annual growth levels have started to fall off sharply, says the report, by the middle of the next decade, the global market value is expected to reach $1.6 billion, up 10% from its present levels. From 2005 to 2009, the global market for natural colours increased almost 35% in value, with much future growth expected to come from natural colours and colouring foodstuffs. Foods account for some 67% of the food colouring global market, followed by soft drinks (28%) and alcoholic beverages (5%). The demand of Caramel colour in the market is immense and therefore its market position is splendid. Hence it is an excellent field to venture.
Plant capacity: 300 MT/AnnumPlant & machinery: 43 Lakhs
Working capital: -T.C.I: Cost of project : 146 Lakhs
Return: 42.00%Break even: 54.00%
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Frozen Finger Chips - 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 potato is a tuber grown underground on a specialized plant part (subterranean stem) known as stolon. A potato tuber is usually oval to round in shape, although intermediate shapes are also frequently encountered. It consists of an inner flesh and an outer protective cover known as a skin. There is a great variation in flesh colour and skin finish. And these two characteristics broadly, if not completely, determine the consumer preference vis à vis acceptability. The eye shaped depressions on a potato tuber is known as its eyes, and actually these are the dormant buds, which give rise to new shoots under suitable conditions. These white to creamy white or pigmented new shoots are known as sprouts. And that is why the process is known as sprouting. This is a very important process in potato, because a sprouted potato is not acceptable for consumption. But optimum sprouting is a desired attribute when the tubers are used for propagation. Factors affecting the growth of French fries French fries/wedges are growing at the rate of 25% in the country and it is likely to increase in coming years. The reason of this fast rate of growth is: 1. Fast growth of international fast food chain (25 to 30%) not only in metro but in other large towns. 2. Growing preference for Western snacks due to changing life style. French fries/wedges are likely to cut into Indian snacks like Samosa, Tikki, Pakoras etc. 3. Change in retail formats super market, shopping malls etc also stimulate the retail sales, as products are attractively displayed in visi coolers/ deep freezers. 4. Demographic changes like, increasing income, small family, more working women etc. results into more eating out and purchase of ready to cook products. 5. French fries are also a complement item to many food products in restaurants, Bars and Pubs; this trend is growing and will contribute to its overall demand in near future. 7. A significant proportion of fresh French fries are also expected to get converted to frozen French fries. Global Scenario Frozen Food in India industry profile provides top-line qualitative and quantitative summary information including: market share, market size (value and volume 2006 to 10, and forecast to 2015). The profile also contains descriptions of the leading players including key financial metrics and analysis of competitive pressures within the market. The market for frozen food in India increased at a compound annual growth rate of 15.2% between 2004 and 2009. The Indian frozen food market generated total revenues of $325.9 million in 2010, representing a compound annual growth rate (CAGR) of 16.6% for the period spanning 2006 to 2010. 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. Therefore the scope for this product is very bright. An entrepreneur venturing into this project will find it very lucrative.
Plant capacity: 4840 MT/Annum or 1200 Kg potato per hourPlant & machinery: 293 Lakhs
Working capital: -T.C.I: 1757 Lakhs
Return: 50.00%Break even: 34.00%
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Non Woven Fabric - 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

Product Profile: Non woven fabric is a fabric like material made from long fibres, bonded together by chemical, mechanical, heat or solvent treatment. The term is used in the textile manufacturing industry to denote fabrics, such as felt, which are neither woven nor knitted. Non woven materials typically lack strength unless densified or reinforced by a backing. In recent years, non wovens have become an alternative to polyurethane foam. Non woven fabrics are engineered fabrics that may be a limited life, single use fabric or a very durable fabric. They are flat, porous sheets that are made directly from separate fibers or from molten plastic or plastic film. They are not made by weaving or knitting and do not require converting the fibers to yarn. Non woven polypropylene (P.P.) fabric is made of spun bond polypropylene which can be recycled, naturally decompose and completely incinerates without any production of poisonous pollutant. Even though the bags look like a textile, they are in fact made from spun bonded polypropylene, commonly known as PP, which is a by-product of crude oil. No water is used in the production process and thereby not polluted. The material is recyclable thus environmentally friendly & assists with Environment protection. Properties of non woven fabric: Non woven fabrics provide specific functions such as absorbency, liquid repellency, resilience, stretch, softness, strength, flame retardancy, washability, cushioning, filtering, bacterial barrier and sterility. These properties are often combined to create fabrics suited for specific jobs, while achieving a good balance between product use-life and cost. They can mimic the appearance, texture and strength of a woven fabric and can be as bulky as the thickest paddings. In combination with other materials they provide a spectrum of products with diverse properties, and are used alone or as components of apparel, home furnishings, health care, engineering, industrial and consumer goods. Applications of Non woven Fabrics • Wipes and dusters, tea and coffee bags, fabric softeners, food wraps, filters, bed and table linen, etc. • Hygienic care as in baby diapers, feminine hygiene products, adult incontinence items, dry and wet pads, but also nursing pads. • Healthcare, like operation drapes, gowns and packs, face masks, dressings and swabs, etc. • Interlinings, insulation and protection clothing, industrial work wears, chemical defence suits, shoe components, etc. • Application in automotive: boot liners, shelf trim, oil and cabin air filters, moulded bonnet liners, heat shields, airbags, tapes, decorative fabrics, etc. • Roofing and tile underlay, thermal and noise insulation, house wrap, drainage, etc. • Geotextiles: asphalt overlay, soil stabilization, drainage, sedimentation and erosion control, etc. • Filtration of air and gas, Hevac, Hepa, Ulpa filters • Industrial: cable insulation, abrasives, reinforced plastics, battery separators, satellite dishes, artificial leather, air conditioning, coating. • Home furnishing, Agriculture, leisure and travel, school and office etc. Non woven bags Non woven bags have been emerging as the most popular alternative with local stores and big retailers because bags made of this material offer the texture and durability of a cloth bag at a much lower cost. These bags are the cheapest alternative to plastic. The non woven bags have generated the highest order from the market since the plastic bag ban. Polypropylene is not harmful. It is recyclable, hence good for environment. There are various kinds of non woven bags such as non woven rice bag, carry bag, catering bag, banyan cut bag, fruit and vegetables bag, grocery/shopping bag, PP bag, gift bag, printed bag and many more. For example non woven rice bags are extensively used to store rice in place of conventional plastic and paper bags. Non woven rice bags have high tensile strength and are highly durable. Non woven fabric bags are widely used as packing material due to so many advantages over conventional sacks. These bags are excellent for covering products and goods thereby protecting them from moisture and dust. Market Scenario Global sales of non woven fabrics are forecast to increase 6.9 percent annually through 2015 to 9.2 million metric tons. This rate is acceleration from the 2005 o 2010 periods, reflecting a low base as global recessionary conditions restrained non wovens fabric demand in 2008 and 2009 before improving somewhat in 2010. Continued growth in global manufacturing and construction activity, as well as gains in personal income will promote demand. Product sales will grow faster in area terms, rising 7.3 percent per year to 198 billion square meters, reflecting a modest decrease in average non wovens weight. This will be due primarily to increased demand in developing areas for a variety of lighter weight disposable non woven products, supported by manufacturer efforts to make them more affordable and technological advances that are making new generations of non woven fabrics lighter. The sales of non woven fabrics in India will increase 12.7% per year in constant dollars from $214 million in 2007 to $390 million by the end of 2012. These dollar sales represent non woven materials that are produced within India and non wovens that are imported in roll good forms or in a converted state, such as baby diapers or modified bitumen roofing materials. The personal hygiene market- which includes adult incontinence products, feminine hygiene products, and infant diapers and training pants will continue to account for the single largest share of non wovens demand in 2012.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Geotextiles for Road Construction - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Profile Geotextiles is defined as permeable textile materials used in contact with soil, rock, earth or any other geotechnical related material as an integral part of civil engineering project, structure, or system. Geotextiles have proven to be among the most versatile and cost-effective ground modification materials. Their use has expanded rapidly into nearly all areas of civil, geotechnical, environmental, coastal, and hydraulic engineering. They form the major component of the field of geosynthetics, the others being geogrids, geomembranes and geocomposites. Based on their structure and the manufacturing technique, geotextiles may be broadly classified into woven and nonwoven. Woven geotextiles are manufactured by the interlacement of warp and weft yarns, which may be of spun, multifilament, fibrillated or of slit film. Nonwoven geotextiles are manufactured through a process of mechanical interlocking or thermal bonding of fibers/filaments. Mechanical interlocking of the fibers/filaments is achieved through a process called needle punching. Needle-punched nonwoven geotextiles are best suited for a wide variety of civil engineering applications and are the most widely used type of geotextile in the world. Interlocking of the fibers/filaments could also be achieved through thermal bonding. Heat-bonded geotextiles should be used with caution, as they are not suitable for filtration applications or road stabilization applications over soft soils. Geotextile Functions The mode of operation of a geotextile in any application is defined by discrete functions: separation, filtration, drainage, reinforcement, sealing and protection. Depending on the application the geotextile performs one or more of these functions simultaneously. There are various applications such as separation, filtration, drainage (transmissivity), reinforcement, sealing function, etc. Areas of Application The major application areas of geotextiles in transportation engineering are flexible paved road construction, drainage applications and pavement overlays. Geotextiles extend the service life of roads, increase their load carrying capacity, and reduce rutting. The weak subgrades the geotextile extends the service life of a flexible pavement section by a factor of 2.5 to 3.0 compared to a non stabilized section. A geotextile effectively increased the pavement sections total AASHTO structural number by approximately 19%. Geotextiles also play a major role in construction of paved roads over areas having high ground water table. Drainage of water from pavements has always been an important consideration in road design; current methods of pavement design have resulted in base courses that do not drain well. Market Scenario Geo Textiles have proven to be versatile and cost effective ground modification materials. Their use expanded rapidly into nearly all areas of civil engineering, geotechnical, environmental, coastal and hydraulic engineering. Geo-Textiles is forecasted to achieve the highest growth rates among the twelve technical textile application areas. The rate of 4.6% per annum between 2000 and 2005 is set to increase to 5.3% per annum during 2005 to 2010. The world demand for Geo Textiles is projected at about 4715 million square meters by 2014 mostly from China and India. Globally the value of the sector is growing at a rate of around 5% a year and accounts for 0.80% share of the total technical textile segment. This share is expected to go up marginally to 2010. It is predicted that global demand for geosynthetics will increase 5% annually to 4.7 billion square metres in 2013. With India is making huge investments in infrastructure development in roads, railways, dams, irrigation projects, airports, seaports, and construction projects where geosynthetics can be used in enhancing design flexibility, cost effectiveness, aesthetics, functionality and long term durability of the civil, marine, environment engineering projects we undertake. Consequently the demand for geotech segment is set to grow phenomenally. Cost Estimation:
Plant capacity: 1800 MT Geotextiles (270 gsm)/Annum Plant & machinery: 200 Lakhs
Working capital: -T.C.I: Cost of project: 467 Lakhs
Return: 44.00%Break even: 59.00%
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Extraction of Ultra Pure Silicon from Rice Husk Ash - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Profitability Ratios

Profile Rice husk ash is a unique source of high grade amorphous silica. The silica present in rice husk, being of biogenic origin, is inherently amorphous. Amorphous silica obtained from rice husk is chemically active and hence a very useful product. At higher temperatures, it undergoes a phase change resulting into crystalline forms of silica The silica precipitation technology is a novel method for silica precipitation where the chemicals used are regenerated making it a closed loop operation. Successful studies for extraction of silica on laboratory scale, which meet the industrial requirements, have been carried out. Also studies are being carried out for suitable application of the undigested ash obtained after extraction, in water treatment plants with or without further improving the activated carbon content of the ash. 70% conversion is achieved on ash basis and around 90 to 95% on silica in ash basis. Properties of Silicon Property - Value Crystal structure - Diamond cubic Atomic weight - 28.085 Melting point °C - 1410 Boiling point °C - 2355 Vapour pressure; Pa at 880°C - 1.33 X 10-8 Density gm/cm3 at 25°C - 80 Critical temp °C - 2339 Process of extraction 1. Digestion: This involves the digestion of the rice husk ash with caustic at specific conditions. In this process the silica in the ash is gets extracted with caustic to form sodium solution. After the completion of the digestion the solution is filtered for the residual undigested ash present in the solution. The clear filtrate is taken for precipitation. 2. Precipitation: This step involves precipitation of silica from the sodium silicate solution. Carbon dioxide at a specific flow rate is passed through the silicate solution at design conditions. Continuous stirring is employed during the operation. The precipitated silica is filtered, washed with water to remove the soluble salts and dried. The filtrate containing sodium carbonate is taken for regeneration. 3. Regeneration: Regeneration is the step where calcium compound reacts with the sodium carbonate to form calcium carbonate and sodium hydroxide. The resulting solution is filtered to remove the solid calcium carbonate and aqueous sodium hydroxide is used for digestion again. The calcium carbonate is washed with water and dried. The dried calcium carbonate can be either calcined to get calcium oxide, which is reused, for regeneration or the calcium carbonate is sold and fresh calcium hydroxide is used for regeneration which gives an option of one more value addition. 4. Production of Ultrapure Silicon A chlorine based system is used in the method of transferring silicon from SiO2 to polysilicon. The process is flexible enough to allow the use of chlorine as the halide conversion medium by modifying the process, hydrogen, argon and a silicon chloride containing gas are injected into inductively coupled plasma operating at a temperature of approximately 2500°C. Under these conditions, the silicon chlorides decompose to silicon, chlorine, and possibly hydrogen ions, and the gaseous product flows into a baffled cold trap held at approximately 1500°C. by resistance heating. The Si ions react with electrons from the ionized hydrogen gas to form molten silicon metal condensate that can be vacuum cast into polysilicon ingots. The hot chlorine laden gas is drawn from the cold trap and pushed through a fluidized bed at approximately 1200°C, containing silica (SiO2) particulate. Prior to the injection of the hot chlorine gas, the silica particulate is pre heated in a dryer to approximately 1000°C. A small amount of hydrogen is required in the fluidized bed in order to facilitate the formation of HCl gas and begin the reaction: 4HCl + SiO2 ?2H2 O + SiCl4 Additionally, some SiCl3 H will be formed by the reaction: HCl + SiCl4 ? SiCl3 H + Cl2 Si + HCl ? Applications of Pure Silicon Silicones have a wide range of application because of their excellent properties of thermal stability etc. They find wide application in adhesive, lubricants, protective coatings and mold release agents manufacturing. They are widely used as from stabilizers for poly methanes, diffusion, pumps antifoaming agents for liquid, textile finishes. Silicones also find application in manufacturing of weather proofing concretes. Silicon is used in the aluminium industry to improve castability and weldability, not to add strength as noted in the text. Silicon-aluminium alloys tend to have relatively low strength and ductility, so other metals, especially magnesium and copper, are often added to improve strength. Silicon resins are widely used as coatings, moulding compounds, laminates sealants, room temperature curing cements for electrical insulation, impregnating electric coils, bonding agents and vibrating damping devices. Semiconductor grade silicon is used in the manufacture of silicon chips and solar cells. Fumed silica is used as filler in the cement and refractory materials industries, as well as in heat insulation and filling material for synthetic rubbers, polymers and grouts. Silicon rubbers are versatile materials, which find application in a wide variety of products. It is also used in medical devices used within the body (surgical).
Plant capacity: 300 Kg/dayPlant & machinery: 246 Lakhs
Working capital: -T.C.I: 557 Lakhs
Return: 39.00%Break even: 46.00%
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Solar Cells - 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

Profile Solar cells are the devices where solar energy is directly converted into electricity. Solar cells are made of naturally available semiconductors such as silicon and germanium. The resistivity of these materials is between those of conductors and insulators. Therefore they are called semiconductors. They behave like insulators at low temperature and like conductors above room temperature. To increase its conductivity semiconductors are doped with impurities. Semiconductors which are doped with impurities like boron or aluminium are termed as p-type semiconductors and those doped with impurities like phosphorous, are called n type semiconductors. In p type semiconductors holes are majority carriers and electrons are minority carriers and in n type semiconductors electrons are majority carriers and holes are minority carriers. Properties • High efficiency and stable performance in photovoltaic conversion. • Advanced diffusion technique ensuring the homogeneity of energy conversion efficiency of the cell. • Advanced PECVD film forming, providing a dark blue silicon nitride anti reflection film of homogenous color and attractive appearance. • High quality metal paste for back surface and electrode, ensuring good conductivity, high pulling strength and ease of soldering. • High precision patterning using screen printing, ensuring accurate busbar location for ease with automatic soldering a laser cutting. Advantages Solar cells are used to generate energy using the sun, which is a renewable source of energy, in place of using non eco friendly methods like burning fuel. The increasing use of Solar cell technology to produce energy gives a clear indication of the increasing awareness about the declining level of fossil fuels and their impact on the environment. The electricity produced through solar technology is being used to power homes, cars and appliances. This has made solar technology to be one of the most important advances in technology in recent times. There are many benefits of using Solar cell technology for generating power. • solar energy is renewable • 100% environment friendly technology, this technology is not going to release any greenhouse gases, harmful agents, volatile material or carbon dioxide into the environment. • highly durable and reliable Global Market Scenario Solar electric energy demand has grown by an average 30% per annum over the past 20 years against a backdrop of rapidly declining costs and prices. This decline in cost has been driven by economies of manufacturing scale, manufacturing technology improvements, and the increasing efficiency of solar cells. In 2009, the photovoltaic solar industry generated $38.5 billion in revenues globally, which includes the sale of solar modules and associated equipment, and the installation of solar systems. Solar buzz produces various forecast scenarios which, depending on the factors, see growth in the world PV market from $46.3 billion to $96.8 billion in 2014.PV installations grew to 7.3 GW in 2009, up 20% from the prior year. The various forecast scenarios predict demand rising to 15.4 37 GW in 2014, more than five times the size of the 2009 market. The worldwide on-grid segment grew by 20% in 2009, and the off grid market grew 23% in 2009, faster than on grid for the first time in 15 years but on a much smaller base. Cost Estimation: Capacity : Plant and Machinery: Rate of return : 44% BEP : 32%
Plant capacity: 288000000 Pcs/AnnumPlant & machinery: 360 Crore
Working capital: -T.C.I: Cost of project : 400 Crore
Return: 44.00%Break even: 32.00%
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