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Investment Opportunities & Business Ideas in Senegal, West Africa - Identification and Selection of right Project, Thrust areas for Investment, Industry Startup and Entrepreneurship Projects

We can provide you detailed project reports on the following topics. Please select the projects of your interests.

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

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Resin for Nail Polish (Polycondensation Resin (Polyester, Alkyds), Epoxy Tosylamide Resin, Solvent Based Acrylic Resin) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process

Profile Resins are translucent and viscous film forming material widely used for production of paints and coatings. It binds the pigment particles to the substrate, forming a layer of film on the surface. The quality of the resin used in production of paints and coating decides the durability of the paint. Resins with different compositions are used depending upon the functional properties of the paint. Common nail polish ingredients include film forming agents such as nitrocellulose, resins, and plasticizers, such as castor oil, and coloring agents such as soluble dye and pigments. Resins and plasticizers give the nail polish a degree of flexibility. This flexibility allows the consumer to apply the nail polish with the brush without the polish drying too quickly or forming unevenly on the nail. These nail polish ingredients also help the nail polish last longer after being applied to the nail. Resins form a hard shell that is resistant to soap and water, keeping the color on the nail longer. Manufactures use a mix of amyl and butyl stearate, castor oil, acids, and glycerol as resins and plasticizers. Functions of Resin • To provide gloss and elasticity • For the suspension of pigments • To provide resistance to water, chemicals and abrasion • Makes coating adhere to the surface • Acts as a dispersant • For drying properties Properties • Resins are translucent and viscous film forming material widely used for production of paints and coatings. • It binds the pigment particles to the substrate, forming a layer of film on the surface. The quality of the resin used in production of paints and coating decides the durability of the paint. Resins with different compositions are used depending upon the functional properties of the paint. • Synthetic resins are materials with similar properties to natural resins viscous liquids capable of hardening. They are typically manufactured by esterification or soaping of organic compounds. • The classic variety is epoxy resin, manufactured through polymerization polycondensation reactions, used as a thermoset polymer for Nail polish. • Epoxy resin is two times stronger than concrete, seamless and waterproof. Manufacturing of Nail Polish The modern manufacturing process is a very sophisticated operation utilizing highly skilled workers, advanced machinery, and even robotics. Todays consumers expect a nail polish to apply smoothly, evenly, and easily; to set relatively quickly; and to be resistant to chipping and peeling. In addition, the polish should be dermatologically innocuous. Mixing the pigment with nitrocellulose and plasticizer: • The pigments are mixed with nitrocellulose and plasticizer using a two-roll differential speed mill. This mill grinds the pigment between a pair of rollers that are able to work with increasing speed as the pigment is ground down. The goal is to produce fine dispersion of the color. • When properly and fully milled, the mixture is removed from the mill in sheet form and then broken up into small chips for mixing with the solvent. The mixing is performed in stainless steel kettles that can hold anywhere from 5 to 2,000 gallons. Stainless steel must be used because the nitrocellulose is extremely reactive in the presence of iron. The kettles are jacketed so that the mixture can be cooled by circulating cold water or another liquid around the outside of the kettle. The temperature of the kettle, and the rate of cooling, is controlled by both computers and technicians. • This step is performed in a special room or area designed to control the hazards of fire and explosion. Most modern factories perform this step in an area with walls that will close in if an alarm sounds and, in the event of explosion, with ceilings that will safely blow off without endangering the rest of the structure. • Materials are mixed in computerized, closed kettles. At the end of the process, the mix is cooled slightly before the addition of such other materials as perfumes and moisturizers. • The mixture is then pumped into smaller, 55 gallon drums, and then trucked to a production line. The finished nail polish is pumped into explosion proof pumps, and then into smaller bottles suitable for the retail market.
Plant capacity: 10 MT/dayPlant & machinery: 178 Lakhs
Working capital: -T.C.I: 1318 Lakhs
Return: 50.00%Break even: 31.00%
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Hospital - Detailed Project Report, Profile, Business Plan, Trends, Market Research, Survey, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics, Working Capital Requirement, Plant Layout, Cost of Project, Profitability Ratios

Profile A hospital is a health care institution providing patient treatment by specialized staff and equipment. Hospitals often, but not always, provide for inpatient care or longer term patient stays. Presently, every city or town in India has no. of private hospitals furnished with latest medical facilities available and with more qualified surgeons, physicians and specialist doctors. Even sometimes, they are furnished with more modern machines than those available in the nearby Government Hospital. These hospitals can be seen well crowded as they provide very good service at a smile. As they are run by privates very good medical care is provided by them. A private hospital is a place where one may get treatment from ordinary fever to a major surgery operation. As a matter of fact, no limitation has been made for the facilities available in a hospital. However, generally all private hospitals are provided with latest facilities and ultra modern machines. In a hospital, surgeons, physicians, E.N.T., specialists, children specialist, Eye-surgeon, psychologists and sex-specialist are essential Guiding Principles in Planning Hospital Facilities and Services Some important principles of planning hospital facilities and services are stated below: • High Quality Patient Care • Effective Community Orientation • Economic Viability • Sound Architectural Plan • Preliminary Survey Architectural Design of Hospital Hospital buildings should be designed to minimize the effort of medical personnel and the possibility of contamination while maximizing the efficiency of the whole system. Travel time for personnel within the hospital and the transportation of patients between units is facilitated and minimized. The building also should be built to accommodate heavy departments such as radiology and operating rooms while space for special wiring, plumbing, and waste disposal must be allowed for in the design. Some newer hospitals now try to re establish design that takes the patients psychological needs into account, such as providing more fresh air, better views and more pleasant colour schemes. These ideas harkens back to the late eighteenth century, when the concept of providing fresh air and access to the healing powers of nature were first employed by hospital architects in improving their buildings. Good hospital design can reduce patients recovery time. Exposure to daylight is effective in reducing depression. Single sex accommodation help ensure that patients are treated in privacy and with dignity. Exposure to nature and hospital gardens is also important looking out windows improves patients moods and reduces blood pressure and stress level. Eliminating long corridors can reduce nurses fatigue and stress. Another ongoing major development is the change from a ward-based system (where patients are accommodated in communal rooms, separated by movable partitions) to one in which they are accommodated in individual rooms. The ward based system has been described as very efficient, especially for the medical staff, but is considered to be more stressful for patients and detrimental to their privacy. A major constraint on providing all patients with their own rooms is however found in the higher cost of building and operating such a hospital; this causes some hospitals to charge for private rooms. Market Scenario of Hospitals Healthcare delivery market is to grow at 12 per cent to Rs 4.2 trillion by 2015 to 16. Based on the health indicators for India released by the WHO experts says that the Indian healthcare delivery industry to reach Rs 2.3 trillion in 2010 to 11. As healthcare coverage across the country increases, the industry is expected to register a CAGR of 12 per cent to reach Rs 4.2 trillion in 2015 to 16. As private investments have been skewed towards in-patient department (IPD) treatments, its share in the overall market is expected to increase from 64 per cent in 2010-11 to 66 per cent by 2015 to 16. The growth in demand for healthcare delivery services will be mainly driven by a combination of various factors including changing demographics, increasing income levels, and greater health awareness and increasing health insurance coverage. Investments of over Rs 5.6 trillion required to attain healthcare delivery benchmarks
Plant capacity: 105 Bedded HospitalPlant & machinery: 476 Lakhs
Working capital: -T.C.I: 1099 Lakhs
Return: 33.00%Break even: 49.00%
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Medical College with Hospital - Detailed Project Report, Profile, Business Plan, Trends, Market Research, Survey, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics, Working Capital Requirement, Plant Layout, Cost of Project

Profile A medical college is meant to impart education of medical field to students to qualify them as doctors in different specialized disciplines so as to treat patients suffering from various ailments. Doctors with their dedicated spirit serve the nation at large by providing medication and treatment for eradication of diseases, which exchange health and add suffering to humanity. Normally a medical college is associated with a hospital. Hospitals provide the facilities of O.P.D. and admission for seriously ill seriously injured, seriously burnt and pregnant ladies, causalities etc. A private hospital is a place where one may get treatment from ordinary fever to a major surgery operation. As a matter of fact, no limitation has been made for the facilities available in a hospital. However, generally all private hospitals are provided with latest facilities and ultra modern machines. In a hospital, surgeons, physicians, E.N.T, specialists, children specialist, eye surgeon, psychologists and sex-specialist are essential. Departments in a hospital are as follows: • Cardiology • E.N.T Maternity • Eye section • Children ward • Laboratory • X-ray room & ECG clinic • Physician ? Modern Medical Equipment Today medical technology has come far with new technologies emerging with amazing rapidity. These include X ray image intensifies, catheterization, CT scanner, ultrasound scanners, gamma camera, open-heart surgery, image technique, NMR etc. It is worth pausing and taking stock of the current state of the art in medical instrumentation, which is assisting the medical profession in extending succor to the millions in need. Medical electronics is a fairly new field in India offering considerable scope for import substitution. Nuclear magnetic resonance images are based on the interaction of a body's atomic nuclear with a powerful satic magnetic field. Computer Topography is a graphic transversal topographic method that enables absorption profile of a cross section of the human body to be represented in a matrix on a TV screen. Several measurement methods in medicine are based on the principle of ultrasound transmission. Currently, the main application of Doppler ultrasound has been in cardiac anomalies in which it is possible to measure, quantitatively, the performance of the heart. Angiography visualization of blood vessels by contrast medium serves to detect direct and indirect diseases of the vascular system. In the latter case of displacement of vessels by tumors, is angiography in sometimes indispensable for making accurate assessments. Indian Scenario Indias medical education market in 2009 to 10 was Rs. 21 billion which grew by a CAGR about 10% in last three years. I is estimated that the Indian medical education market to grow at a CAGR of 18% by 2012 to 13 to attain a market size of Rs. 35 billion. In India, the growing awareness of the role of health development as a vital component of socio economic development, has contributed to the increase in number of medical colleges. In the past ten years, the total number of colleges increased to 572 in 2008 to 10, registering a growth of 65%. In spite of the continuous growth in the medical education sector over the past few years, the country has not been able to meet the growing needs for medical professionals in the country. Therefore the medical education market in India offers an excellent investment opportunity. ?
Plant capacity: 100 Students/Annum, 500 Bedded HospitalPlant & machinery: 1729 Lakhs
Working capital: -T.C.I: 4824 Lakhs
Return: 43.00%Break even: 45.00%
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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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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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Goat Farming for Meat and Breeding - Cattle Breeding Farm, Fodder, Livestock Farming, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics

Profile Goat is one of the world’s smallest domesticated livestock, have been actively managed for food and fiber earlier and longer than cattle and sheep. Goats can survive on bushes, trees, desert scrub, and vegetation that sheep and cattle are not able to consume. This dietary versatility and adaptability combined with a hardy constitution is what makes goats a primary livestock animal for most of the world. The goat; a mini cow is multipurpose animal to provide milk meat, hide, hair (fur) and manure for soil. In hilly areas goats are also used for hauling light load. Now in rural areas goat farming plays a vital role to solve unemployment. The economic return from keeping goats is high compared to other farming enterprises. Goats can reproduce under extreme conditions that would eliminate other species. They can live in hot, tropical climates as well as cool, temperate climates. They seem to be able to live and even flourish under desert conditions. These factors have made goats a very important domestic animal. Goat farming can be a profitable occupation of a farmer and can be fit well into mixed farming. Classification of Goats The wild goats have four species as follows Ibex (Capra ibex), Spanish Idex (Capra pyrenacia), Markhor (Capra falconeri), and Wild Goat (Capra aegarus). On the basis of body weight goat breeds in India can be broadly classified as large sized (Jamunapari, Beetal, Jhakarana), mediusm sized (Sirohi or Marwari/Golwadi, Zalabari, Kitchi, Surti, Sangamneri, Osmanabadi, Gaddi, Ganjam, Chegu) and small sized (Bengal types, Assam hill goat). The scientific name of domestic goat is Capra hircus aegagrius. Advantages of Goat Farming / Utility of Goats: • The goat is a multipurpose animal producing meat, milk, hide, fiber and manure. In hilly areas, goats are also used for hauling light loads. • Goats have very few demands of housing and management. They hardly need separate housing and happily share their homes with their owners or his other livestock. • Goats can be raised by landless agricultural labourers, ladies and children because they can thrive well on variety of leaves, shrubs, bushes, kitchen waste etc. • Goat farming can be a profitable occupation for a farmer and can fit well into mixed farming. • Goats are cheaper to maintain, easily available and have a friendly disposition. • Goats are capable of adapting to various agro climatic conditions ranging from arid dry to cold arid to hot humid. They can be raised in plains, hilly tracts, sandy zones and at high altitudes. • Goats are more tolerant to hot climate than other farm animals. • Goats suffer from fewer ailments than other large animals. • Goats are called the foster mother of man, as their milk is considered better for human nutrition than other species of livestock. Milk is cheap, wholesome, easily digestible and nutritious. • Goat milk is finer than cow milk i.e. the fats and proteins are present in a finer state and are more easily digestible, especially by children and invalids. • Goat milk has lesser allergic problems than other species of livestock. • Goat milk is used as ayurvedic medicine for personas ailing with asthma, cough, diabetes etc. And has higher buffering qualities and this enhances its value for patients suffering from peptic ulcers, liver dysfunction, jaundice, billiard disorders and other digestive problems. • Goat hide is used for the manufacture of leather products. • Goat hairs are used for the manufacture of rugs and ropes. • Pashmina shawls, Mohair and Kashmere carpets are in great demand and are sold at very high prices. • Goat manure is 2.5 times richer in nitrogen and phosphoric acid than cow manure. Market Scenario The world population of goats is approximately 674 million, of which 94% are found in the developing countries. Africa and Asia account for about 81% of the total population in the developing countries, including a bewildering variety of breeds. Goat rearing is the backbone of economy of small and landless farmers in India. It is an insurance against crop failure and provides alternate source of livelihood to farmers all the year round. Goats play an important role in income generation, capital storage, employment generation and improving household nutrition. Goats are among the main meat-producing animals in India, whose meat (chevon) is one of the choicest meats and has huge domestic demand. Besides meat, goats provide other products like milk, skin, fibre and manure. Goats are important part of rural economy, particularly in the arid, semi arid and mountainous regions of the country with more than 124 million population. The largest amount of goat milk is produced in India, followed by Bangladesh and Sudan. China has the largest total number of goats in the world, but they are mainly kept for meat production. ?
Plant capacity: 1000 GoatsPlant & machinery: 6 Lakhs
Working capital: -T.C.I: 115 Lakhs
Return: 47.00%Break even: 33.00%
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Polymer Modified Cementitious Tile Adhesives - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Profile Polymer modified adhesives are widely accepted in the industry and often referred to as thin-set mortars. The blended polymers interact with cement components to improve the physical and mechanical properties such as increased adhesion, reduced shrinkage and lower water absorption. The polymer modified adhesives are commonly available in two types. One comes with powdered polymer as premix. Hence, during the application, only water is required to be added to make a bed. Polymer modification of adhesives and grouts offers improvements including easier handling, increased tensile and flexural strength, enhanced adhesive characteristics, improved water resistance and greater durability. A key benefit is increased water resistance. The advantages are easier maintenance, increased durability and greater resistance to the potential damage from freezing and thawing cycles. Properties White Cement Based Cementitious Tile Adhesive: Appearance - Powder Composition - Cement, siliceous sand and additives Colour - Grey or White Density - 1.55 kg/lit ± 0.05 Application Following are some of the applications and advantages of polymer modifies cementitious tile adhesives: • Decorative Overlays: Wall coatings and textured building finishes (polymer-modified stucco). • Adhesion, tensile and flexural strength, exterior durability; toughness test of modified and unmodified mortar patches; Mortar Patches are feathered down to blend in with original substrate. • Flooring and Pavements: Can be used in mortar or heavy use concrete industrial/commercial flooring overlay formulations. Warehouses, factories, hospitals, stairways, garages, railway platforms, airport runways, etc. • Waterproofing: Basements, bulk water storage tanks, septic tanks, ship decks, roof decks, and concrete walls. Market Potential A cement based adhesive must be used for exterior work. Whilst standard cement based tile adhesives are suitable for exterior use, highly polymer-modified adhesives offer enhanced bond strength, reduced porosity and therefore better resistance to frost & greater resistance to movement (thermally induced movement is inevitable particularly for walls). The present market size of the construction chemicals industry in India is about 1,700 crore and is rapidly growing at the rate of around 20 per cent per annum. The demand for construction chemicals is dependent on the construction industry.
Plant capacity: White Cement Tile Adhesive – 1500 MT/Annum,Ordinary Portland Cement Tile Adhesive – 1500 MT/Annum Plant & machinery: 106 Lakh
Working capital: -T.C.I: Cost of Project : 420 Lakh
Return: 44.00%Break even: 55.00%
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Medium Density Fiberboard (MDF Board) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Profile Medium density fiberboard (MDF) is a generic term for a panel primarily composed of lignocellulosic fibers combined with a synthetic resin or other suitable bonding system and bonded together under heat and pressure. MDF is a wood based composite. The primary constituent is a softwood that has been broken down into wood fibres; that is the very cells (tracheids, vessels, fibres and fibre tracheids), which are far smaller entities than those used in particleboard. The panels are compressed to a density of 0.50 to 0.80 and specific gravity (31-50 lb/ft3). Additives may be introduced during manufacturing to improve certain properties. MDF Characteristics: • Width : 1650 mm • Length (grain) : from 1650 to 3660 mm • Thickness : from 6 to 24 mm • Glue type : Urea Carbamide/urea melamine formaldehyde (UMF) • Quality Reference: TU 5536-007-4477-9728-2003 • Density : 700-850 kg/m3 • Dimensions : 3.4.1. Length/width/thickness Application Medium Density Fiberboard (MDF) is widely used in the manufacturing of furniture, kitchen cabinets, door parts, mouldings, millwork and laminate flooring. Common Uses: • Doors, Jambs & Millwork • Laminate Flooring • Laminating & Finishing • Moulding • Office & Residential Furniture • Kitchen Cabinets ? Production Procedure In the production procedure of MDF board following few steps are involved: • Chipping of wood • Defibrating, gluing and drying • Mat forming and processing • Cooling, sanding & trimming • Grading & storage • Impregnation • Lamination Market Potential The global potential demand for panel boards is estimated at 250 million m3 per year and the potential market for MDF alone is 100 million m3. The gap of 150 million m3 can be diverted to particleboard, plywood & OSB. Bulk of the industrial round wood in India is utilized by the saw milling industry, consisting of more than 23,000 units. The projected demand for MDF is 6,70,000 tons, whereas the combined capacity of 2 Plants operating in India (Delhi & Calcutta) is only 1,17,000 cubic meters (88,000 tons). Some shortage is covered by MDF imports of around 3,00,000 tons.
Plant capacity: 30000 Cubic meters/Annum Plant & machinery: 2007 Lakh (40.13 Lakh USD)
Working capital: -T.C.I: Cost of Project : 3534 Lakh (70.68 Lakh USD)
Return: 45.00%Break even: 50.00%
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Maize Processing - 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

Profile Maize is one of the cereal grains which produces throughout India and is placed 3rd position in agricultural base production. The products from maize are value added products which include maize starch, liquid glucose, dextrose monohydrate, anhydrous dextrose, sorbitol, corn gluten to name a few. In India, the prime source of starch is maize and the textile industry is for long the largest buyer of maize starch in India. Maize is constituted by hull, germ, protein, starch and moisture. There is dry and wet milling process of manufacturing of starch, zein, germ and hulls. Starch is the basic constituent of maize and it is converted to liquid glucose by adopting series of digestion steps on starch. It will be basically enzyme and acid digestion system. It may be enzyme - enzyme system or only acid digestion system. In the production of liquid glucose there is some production of dextrose anhydride. Maize (Corn) contains about 70% starch, other components being protein, fibers and fat. Application • Starch can be potentially used in large number of preparations. Its major applications are in textiles and paper manufacture and in food and pharmaceutical industries. Starch is used in the manufacture of number of products such as starch esters, starch phosphates, glucose, dextrose, sorbitol, ethyl alcohol etc. • Main use of corn oil is in cooking, where its high smoke point makes refined corn oil valuable frying oil. It is also a key ingredient in some margarines • Corn starch is used as a thickening agent in soups and liquid-based foods, such as sauces, gravies and custards. • Corn syrup is used in foods to soften texture, add volume, prevent crystallization of sugar, and enhance flavor ? Market Potential India is the fifth largest producer of maize in the world contributing 3% of the global production. In India, maize is grown in all the seasons i.e., kharif, rabi and summer. Of these three seasons, nearly 90% of the production is from kharif season, 7-8% during rabi season and remaining 1-2% during summer season. India produces around 10 million ton of maize. Karnataka is the leading producer of maize in India as it falls under the corn belt of India and produces 15 % of India’s total produce. About 50 % of the total Indian produce is consumed as poultry feed and about 8 % is consumed by the starch industry. Cost Estimation: Capacity : Starch - 5250 MT/Annum Dextrose Monohydrate – 4500 MT/Annum Liquid Glucose - 1125 MT/Annum Oxidised Starch - 562 MT/Annum Hull- By product – 900 MT/Annum Zein- By product – 1800 MT/Annum Germ- By product – 1800 MT/Annum
Plant capacity: -Plant & machinery: 216 Lakh
Working capital: -T.C.I: Cost of the Project : 630 Lakh
Return: 42.00%Break even: 57.00%
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Goat & Sheep Farming - Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics

Profile Goat and sheep rearing is the backbone of economy of small and landless farmers in India. It is an insurance against crop failure and provides alternate source of livelihood to famers all the year round. Goats play an important role in income generation, capital storage, employment generation and improving household nutrition. Being smaller in size they are easier to manage, require less space and can be easily handled by women and children. Sheep were domesticated very early in cultivation, as early as 11,000 years ago. Sheep is a warm blooded animal and sheep have a unique quality among the domestic animals and are adoptable to a wide range of environmental conditions. Many state governments have classified agricultural farms into marginal, small, medium and large based on land ownership. This classification however doesn’t take into consideration the ownership of livestock. Advantages of Goat & Sheep Farming • The goat/sheep is a multi purpose animal producing meat, milk, hide, fibre and manure. In hilly areas, goats are also used for hauling light loads. • Goat/sheep farming can be a profitable occupation for a farmer and can fit well into mixed farming. • Goats/sheeps are cheaper to maintain, easily available and have a friendly disposition. • Goats/sheeps are more tolerant to hot climate than other farm animals. • Goats /sheep give more production per unit of investment. • Goat/sheep hide is used for the manufacture of leather products. • Goat hairs are used for the manufacture of rugs and ropes. • Pashmina shawls, Mohair and Kashmere carpets are in great demand and are sold at very high prices. • Goat/sheep manure is 2.5 times richer in nitrogen and phosphoric acid than cow manure. ? Market Potential India and China possess the largest goat population, each of these having more than 120 million goats. Small ruminants are major contributors of animal proteins for human consumption in India. Current availability of animal proteins (10.8 gm/day/capita) is just half of the daily requirement of (20 gm/day /capita and it is targeted to achieve this by the year 2020. Meat production (including fish and poultry) will have to grow by 5.8% per year to fulfill this requirement. Wool is a freely traded international commodity, subject to global supply and demand. While wool represents only 3% of world fiber production, it is important to the economy and way of life in many countries. The Small Ruminants sector will therefore, play a significant role in the coming decade in impacting on the livelihoods of small and marginal farmers rearing them.
Plant capacity: Goats: 500 Male & 500 Female Sheep: 500 Male & 500 Female Plant & machinery: 11 Lakh
Working capital: -T.C.I: 209 Lakh
Return: 45.00%Break even: 34.00%
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Information
  • One Lac / Lakh / Lakhs is equivalent to one hundred thousand (100,000)
  • One Crore is equivalent to ten million (10,000,000)
  • T.C.I is Total Capital Investment
  • We can modify the project capacity and project cost as per your requirement.
  • We can also prepare project report on any subject as per your requirement.
  • Caution: The project's cost, capacity and return are subject to change without any notice. Future projects may have different values of project cost, capacity or return.

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