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

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.

We also offer self-contained Pre-Investment and Pre-Feasibility Studies, Market Surveys and Studies, Preparation of Techno-Economic Feasibility Reports, Identification and Selection of Plant and Machinery, Manufacturing Process and or Equipment required, General Guidance, Technical and Commercial Counseling for setting up new industrial projects on the following topics.

Many of the engineers, project consultant & industrial consultancy firms in India and worldwide use our project reports as one of the input in doing their analysis.

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.

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Bioplastic Film

Plastic materials have made entry in every sphere of human life because of its superior characteristics such as durability, strengths, shape and moldable property, since these plastics have high molecular weight & tightly bonded together these are non-degradable, rendering their disposal difficult, which inversely leads to negative impact on the environment. Thus the concept of biodegradable plastic came as a solution which could be produced and degraded by microorganism in the environment when proper condition such as sunlight, moisture, oxygen etc. are available. Biodegradable plastics are the type of plastics that undergo decomposition over a period of time under composting conditions. The global biodegradable plastics market accounts for less than 1% of the overall plastics market, however, it is expected to grow at a fast pace over the next 5 years. The market growth is driven by continuous R&D activities, increased environmental awareness, and implementation of stringent environmental regulations. Bio based biodegradable plastics find their application in a variety of sectors, including fibres, medical, packaging, and agriculture. The demand for bio based biodegradable plastics is massive in the packaging sector, and it is anticipated that status quo will be maintained in the next five years as well. Other prominent sectors which will create robust demand for bio based biodegradable market include agriculture and medical. Biodegradable plastics have found their end-use in a variety of commercial applications. It is estimated that packaging and disposable house wares drive the biodegradable market. Foam packaging continues to represent significant market share for biodegradable plastics. Compostable bags, as well as single-use carrier plastic bags, follow foam packaging in terms of volume. Another developing use for biodegradable plastics is in the shale gas industry, where they are used during hydrofracking as more environmentally friendly proppants to “prop open” fractures in rock layers so oil and gas can be released.
Plant capacity: Bioplastic Film 25 Micron: 1,500,000 Kgs per AnnumPlant & machinery: 185 Lakhs
Working capital: -T.C.I: Cost of Project: 617 Lakhs
Return: 28.00%Break even: 60.00%
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Production of Bioplastic Film using Biodegradable Resin, PLA (Polylactic Acid)

Production of Bioplastic Film using Biodegradable Resin, PLA (Polylactic Acid). Biodegradable Film Manufacturing Business - Sustainable Alternative to Plastics Bioplastic is a biodegradable material that come from renewable sources and can be used to reduce the problem of plastic waste that is suffocating the planet and polluting the environment. These are 100% degradable, equally resistant and versatile, already used in agriculture, textile industry, medicine and, over all, in the container and packaging market, and biopolymers are already becoming popular in cities throughout Europe and the United States for ecological reasons: they are known as PHA. Advantages of Bioplastics: • They reduce carbon footprint • They providing energy savings in production • They do not involve the consumption of non-renewable raw materials • Their production reduces non-biodegradable waste that contaminates the environment • They do not contain additives that are harmful to health, such as phthalates or Bisphenol A • They do not change the flavor or scent of the food contained Growth of Bioplastics The predicted growth in the production of bioplastics is being driven by a number of factors, including: • The fluctuating cost of petroleum and the drive for independence from fossil fuels • increasing availability of bioplastics and decreasing cost as greater volumes are produced • Environmental and social impacts of petrochemical-based plastics including carbon footprint, sustainability, pollution involved in end-of-life disposal and health concerns such as leaching of chemicals from plastic packaging into food products • Branding and product differentiation as manufacturers perceive a marketing advantage • Waste minimization regulations • The fact that plastic products are useful and we’ve become used to using them. Biodegradable Plastic Film are known for being biodegradable and eco-friendly. PLA and PLA blends generally come in the form of granulates with various properties, and are used in the plastic processing industry for the production of films, fibers, plastic containers, cups and bottles. PLA is also the most common type of plastic filament used for home fused deposition modeling. Market Outlook With increasing concerns over the use of plastics, sustainable alternatives to plastics are increasingly in demand. Biopolymers in general and bioplastics in particular, present one such sustainable alternative. The global biodegradable plastics market is expected to reach ~16.8 billion by 2022 with CAGR ~8.4% between 2016-2022. Rising consumer awareness about global warming and government legislation such as banned on plastic bags will increase the demand for biodegradable plastics across the globe. Plastics that decompose to carbon dioxide and water under the actions of microorganisms is known as biodegradable plastics. Biodegradable plastics are produced by fermentation of sugar or canola oil to produce polylactic acid (PLA) or polyhydroxyalkanoates (PHA) which in turn converted into biodegradable plastics. A sustainable alternative to traditional plastics, bioplastics are plastics that are fully or partially biobased, and/or biodegradable or compostable. In other words, they are plastics that are made from renewable resources such as corn, tapioca, potatoes, sugar and algae and breaks down faster than traditional plastics, which are typically made from petroleum, and other fossil resources such as natural gas. Bioplastics have numerous applications like packaging, bottles, utensils, furniture etc. Globally, the production capacity of bioplastics is highest in Asia followed by South America and Europe. As Asia and South America are closer to where feedstock is grown, the production capacity of bioplastics is higher in these regions. Growing sensitivity to climate change and increasing prices of oil have together contributed to rise in demand of bioplastics products. New high performance bioplastics is being introduced in the market that can withstand higher temperatures. Many companies are also planning to substitute feedstock with some other biobased material or nonfood alternative feedstock from biomass, so as to reduce their dependency on feedstock availability. Polylactic acid-based biodegradable plastics dominate the biodegradable plastics market. This is due to large scale application in packaging industry owing to superior properties such as high mechanical strength and low toxicity. Polylactic acid is fermented by action of wheat starch and corn starch which provide a good appearance to various products across the end user industries. Starch based biodegradable plastics are expected to overtake polylactic acid based biodegradable plastics over the forecasted period owing to high tensile strength and impact resistance in packaging and consumer goods. Bio based biodegradable plastics find their application in a variety of sectors, including fibres, medical, packaging, and agriculture. The demand for bio based biodegradable plastics is massive in the packaging sector, and it is anticipated that status quo will be maintained in the next five years as well. Other prominent sectors which will create robust demand for bio based biodegradable market include agriculture and medical. The adoption of bioplastics in rigid packaging was the highest in 2017 and is expected to grow at the same pace throughout 2024. For instance, the commercialization of co-extruded double or multiple layer film products has gained momentum in the recent years. It is also finds applications in various end-use industries such as flexible packaging, textile, agriculture, and horticulture, consumer goods, automotive, electronics, building and construction, and others. Biodegradable Packaging The biodegradable packaging market is expected to witness the fastest growth than that compared to the plastics packaging market. The biodegradable packaging market is a relatively new market however; it is expected to capture the existing market share of the non-biodegradable plastic packaging market. The food packaging and beverage packaging market is expected to play a crucial role in driving the overall global biodegradable packaging market. However, lack of government support especially in the developed countries is expected to curb the growth of the market. The presence of huge price difference between the biodegradable packaging and other conventional packaging is further expected to hamper the growth of the market. Tags Production of Biodegradable Plastic Films, Production of Biodegradable Plastic Packaging Film, Production of Bioplastic Products, Bioplastic Production, Bioplastic Film for Food Packaging, Production of Bioplastic, Bioplastic Manufacturing Process Pdf, Bioplastic Production Process, Bioplastic Production PPT, Bioplastic Manufacturing Plant, Biodegradable Plastic Manufacturing Process, Film Production from Bioplastics, Bioplastic Film Production, Bio Plastic Films, 100% Recyclable & Biodegradable Plastic Film, Bioplastics Film, Bioplastics Industry, Bioplastics Industry, How to Start a Biodegradable Plastic Manufacturing Company? Applications of Bioplastics, Compostable Bioplastic Manufacturing, Biodegradable and Compostable Alternatives to Conventional Plastics, Biodegradable Plastic, Bioplastic Production, Project Report on Compostable Bioplastic Manufacturing Industry, Detailed Project Report on Compostable Bioplastic Manufacturing, Project Report on Bioplastic Film Production, Pre-Investment Feasibility Study on Bioplastic Film Production, Techno-Economic feasibility study on Bioplastic Film Production, Feasibility report on Compostable Bioplastic Manufacturing, Free Project Profile on Bioplastic Film Production, Project profile on Bio plastic Film Production, Download free project profile on Compostable Bioplastic Manufacturing, Corn Starch Bioplastic Film, Bioplastic film compounds, Bioplastic Films Replacing Conventional Plastic Films, Compostable and Renewable Flexible Packaging Films
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Bioplastic Film

Biodegradable plastics are the type of plastics that undergo decomposition over a period of time under composting conditions.A bioplastic is a plastic that is made partly or wholly from materials derived from biological sources, such as sugarcane, potato starch or the cellulose from trees and straw.Bioplastic film compounds are used for products like shopping bags, fruit and vegetable bags as well as for labels, agricultural applications and a lot more. The biopolymer films market is slated to cross USD 6 billion by 2024. In 2018, global demand for these polymers is 360,000 metric tons, but total consumption of biodegradable polymers is expected to increase to almost 550,000 metric tons by 2023. This facilitates the development of new technologies and ensures a high quality product.
Plant capacity: Bioplastic Film 25 Micron: 5000Kgs/DayPlant & machinery: Rs. 184 lakhs
Working capital: -T.C.I: Cost of Project: Rs. 616 lakhs
Return: 28.00%Break even: 60.00%
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Bioplastic Carry Bags and Garbage Bags

BioPlastic shopping bags, carrier bags, or plastic grocery bags are a type of bioplastic bag used as shopping bags and made from various kinds of bioplastic.A bioplastic carrier bag also looks exactly like a traditional carrier bag. Additionally, the bioplastic carrier bag is just as strong and sturdy with the same capacity and tensile strength. The big difference is the environmentally friendly degradation of the waste and CO2 neutral impact of the biomass used.The bags offered by us are 100% compostable. The packaging applications are expected to experience significant growth with biodegradable mulch films, compostable waste bags, catering products, film packaging, and rigid packaging. The analysts forecast global bioplastics market to grow at a CAGR of 29.3% during the period 2016-2020.Entrepreneurs who invest in this project will be successful. Few Indian major players are as under • Arihant Industries Ltd. • Baroda Polyplast Ltd. • Jain Plastics & Chemicals Ltd. • Karwa Consolidated Mktg. Ltd. • Paradise Plastics Enterprise Ltd. • Shakun Polymers Ltd.
Plant capacity: Bioplastic Carry Bags (8"x16") Size: 3500 Kgs/Day Bioplastic Garbage Bags (950x810 mm) Size: 1500 Kgs/DayPlant & machinery: Rs. 62lakhs
Working capital: -T.C.I: Cost of Project: Rs 396 lakhs
Return: 30.00%Break even: 60.00%
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Matchbox Manufacturing Business

Matchbox Manufacturing Business. Start a Match Box, Matchstick Factory. Safety Matches Production Matchsticks are a very handy tool used in starting a fire. They are used in the kitchen to light ovens, kerosene stoves and cookers. Other application involves starting a fireplace, industrial burners, camp fire or to light candles. Matchsticks are made from plastic material, wood or cardboard strips. Matchsticks are used to start fire under controlled conditions. They are used in many homes for starting fire for cooking. They are also used industrially for starting fire when heat energy is needed and for burning waste materials. Matches are sold in quantity. There’s the wooden type, which are packaged in boxes. And there are paper matches, which are clustered in rows stapled into matchbooks. Because matches are used in almost every home and in almost every industrial establishment, the demand for matches is always high. This means there is huge profit potential in the matchstick production business. Market Outlook India makes four crore matchboxes per day and these are the cheapest in the world. Every third matchbox used in the world is Indian. The industry produces 90 million bundles a year; each bundle has 600 matchboxes and each box has between 40 and 50 sticks. Wooden match production in India is split into three sectoral categories: the mechanized large-scale sector; the handmade small-scale sector; and the cottage sector. 82% of total match production is in the handmade small-scale (67%) and cottage (15%) sectors, where technology has remained relatively simple. These two non-mechanized sectors of the match industry are distinguished primarily by output size. Officially, the cottage industry in match making is defined as any manual production unit producing less than 75,000 cases of match boxes per year. As matchsticks are consumer durable product it demands branding activity to get the market share. Matchsticks are sold in volume. The success of this business depends on the strong channel network. Billions of matchboxes are used all over the world in a day for different purposes like to light the cooking gas, fireplace, incense sticks or cigarette etc. This gives a huge demand for the matchstick manufacturing business. The production of wooden matchsticks is a great option to select. There is a huge demand for matchsticks and billions of matchboxes are used on daily basis. The matchsticks come to great purpose as it creates fire and fire has a great need in daily life like to cook, light candles, cigarettes and others. Any individual can initiate the matchstick manufacturing business on a small scale with maintaining safety measures strictly. Matchsticks are consumer durable product and the demand is growing day-by-day. An entrepreneur having knowledge in channel distribution can start matchstick manufacturing business with moderate capital investment. FMCG Market in India FMCG product touches every aspects of human life. These products are frequently consumed by all sections of the society and a considerable portion of their income is spent on these goods. Apart from this, the sector is one of the important contributors of the Indian economy. This sector has shown an extraordinary growth over past few years, in fact it has registered growth during recession period also. The future for FMCG sector is very promising due to its inherent capacity and favorable changes in the environment. Fast-moving consumer goods (FMCG) sector is the 4th largest sector in the Indian economy with Household and Personal Care accounting for 50 per cent of FMCG sales in India. Growing awareness, easier access and changing lifestyles have been the key growth drivers for the sector. The urban segment (accounts for a revenue share of around 55 per cent) is the largest contributor to the overall revenue generated by the FMCG sector in India However, in the last few years, the FMCG market has grown at a faster pace in rural India compared with urban India. Semi-urban and rural segments are growing at a rapid pace and FMCG products account for 50 per cent of total rural spending. The FMCG sector has grown from US$ 31.6 billion in 2011 to US$ 52.75 billion in 2017-18. The sector is further expected to grow at a Compound Annual Growth Rate (CAGR) of 27.86 per cent to reach US$ 103.7 billion by 2020. Growing awareness, easier access, and changing lifestyles have been the key growth drivers for the sector. The phenomenal growth of the FMCG industry especially in the tier II and tire III cities in India is mostly due to the improvement in the standard of living of the people of such cities and the rise in the level of disposable income Both the organized and the unorganized sectors are largely responsible for the success of the Indian FMCG industry. The Indian FMCG market also has a well-defined and established distribution network that makes products available even in the most urban areas of the country. Tags #Match_Box_Making_Plant, #Matchbox_Making_Business, #Match_Box_Production, #Manufacturing_of_Match_Box, #Production_and_Manufacturing_of_Match_Box, #Safety_Matches_Manufacturing_Process, How Matches are Made? What are Matches Made of? Match Box Manufacturing Plant, Match Box Manufacturing Plant Cost, How to Start a Match Box Factory, Matchbox Industry, Match Industry in India, Safety Matches Production Business, Safety Matches Production, Safety Match Making Business, Profile on Production of Matchbox, Small Manufacturing Business, Project Report on Match Box Industry, Small Matchbox Unit, Wooden Match Manufacturing Process, Match Box Production Plant, Cost of Making a Matchbox, Project Report on Match Box Manufacturing Industry, Detailed Project Report on Match Box Manufacturing, Match Box (Automatic Plant), #Project_Report_on_Match_Box_Production, #Pre_Investment_Feasibility_Study_on_Safety_Matches_Production, #Techno_Economic_feasibility_study_on_Safety_Matches_Production, Feasibility report on Match Box Production, #Free_Project_Profile_on_Match_Box_Production, Project profile on Match Box Production, Download free project profile on Safety Matches Production, Starting a Match Stick Production, Match Box Making Project Report, Match Making Factory, Matches Box Manufacture, I want to start a match box factory, I want to start a manufacturing or packing business, matchstick manufacturing business, Safety Matches Manufacture, Matchstick Manufacturing, Starting a Match Stick Production, Matchstick Production, Profile on the Production of Match stick, Matchstick Production business, Matchstick Factory, Matchstick Manufacturing Business, How to Start a Match Stick Manufacturing Business, Matchsticks Manufacture
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Cardanol Production from Cashew Nut Shell Liquid (CNSL)

Cardanol Production from Cashew Nut Shell Liquid (CNSL). Cardanol Manufacturing Business. Profitable Cashew Nut Processing Industry Cardanol is a natural phenol obtained from anacardic acid, the main component of cashew nutshell liquid (CNSL), a byproduct of cashew nut processing being an eco-friendly substitute for phenols. Cashew phenol popularly known as Cardanol or Card-Phenol manufactured from cashew nut shell liquid (CNSL). It is a monohydroxyl phenol having a long hydrocarbon chain (C15H27) in a metaposition. The name cardanol is used for the decarboxylases derivatives obtained by thermal decomposition of any of the naturally occurring anacardic acids. This includes more than one compound because the composition of the side chain varies in its degree of unsaturation. Tri-unsaturated cardanol, the major component (41%) is shown below. The remaining cardanol is 34% mono-unsaturated, 22% bi-unsaturated, and 2% saturated. Application: Cardanol finds use in the chemical industry in Oil and Alcohol soluble resins, laminating resins, rubber compounding and coatings, serving as an excellent raw material for the preparation of high grade insulating varnishes, paints, enamels. It is used in friction materials, and surfactants as pigment dispersants for water-based inks and to make phenalkamines, which are used as curing agents for the durable epoxy coatings used on concrete floors. Cardanol can substitute Phenol in up to 30% in phenolic resins used as plywood bonding resin and for the lamination industries. Cardanol derivatives are extensively used in laminating industry for reducing brittleness and improving the flexibility of laminates produced by the co-condensation of phenol, CNSL and formaldehyde, the resins improve resistance to heat, minimize age-hardening and improve bonding of the reinforcement materials like paper, cloth and glass fibre to the matrix. Cardanol is used as a dispersant and plasticizer. Cardanol is isolated from cashew nut shells by vacuum distillation. Utilization of CNSL in polymer chemistry has been well experimented and commercialized. Cardanol can be substituted for phenol by up to 30% in phenolic resins used as plywood binding resins and for the lamination industries for cost savings purposes. Cardanol is processed and extracted from CNSL with respective its fractional distillation at 200°C to 240°C with a pressure less than 5mm of mercury. Cardanol is renewable, cost effective and easily produced in many regions in India and Asian countries with the limited usage of diesel. These products extracted from Cardanol have many advantages over other substituted phenols. Therefore it is widely used in the manufacture of surface coatings, Insulating varnishes, oil and alcohol soluble resins, laminating resins, Rubber compounding, Azo dyes, etc. As the viscosity of Cardanol is very high (compared to diesel) in the present investigation. Market Outlook The major cashew production distribution in India is in the states of Kerala, Karnataka, Goa and Maharashtra along the West Coast, Tamil Nadu, Andhra Pradesh and Orissa along the East Coast and some in the states of West Bengal, Chhattisgarh, Gujarat, Jharkhand and North Eastern States. The production and productivity of cashew is highest in the state of Maharashtra. Cashew generates employment in the processing and agrarian sector of India employing over 3 lakh persons with more than 95% of them being women. India’s total export for Cashew nuts kernel (in shell) to the world in 2017 were US$ 16.3 million while import were US$ 1453.1 million. Major countries to which India is exporting were Vietnam (US$ 15 million) and Côte d’Ivoire (US$ 1 million) while importing from Côte d’Ivoire (US$ 301 million), Tanzania (US$ 301 million) and Guinea-Bissau (US$ 254 million). Cashew Nut Shell Liquid/Cardanol India’s total export for Cashew nut shell liquid/Cardanol to the world in 2017 were US$ 4.5 million primarily to Korea (US$2.9 million). India’s import for the same are not significant. The major value added products from CNSL produced in the country are Cardanol, CNSL resins, Recidol and many other high value products. The demand for CNSL and Cardanol is steady to high based on growing demand from the paint and varnish manufacturers. In recent years, emphasis has been given on effective utilization of naturally available and renewable resources for the development of raw materials for various polymer based products. Cashew Nut Shell Liquid (CNSL), and one of its ingredients, cardanol can be successfully exploited for the development of phenolic resins for the manufacture of different industrial products. The multi-functional role of cardanol and cardanol pre-polymers has been well documented in the literature in the last few years and it has left many options open to derive useful products out of this agricultural by-product. The phenolic nature of cardanol has prompted different researchers to react it with formaldehyde or with other aldehydes to produce numerous resinous materials just like those produced from phenol. An umpteen number of literature has been cited in the previous sections of this chapter highlighting the utilization of o- and p- functionality of cardanol. Besides, cardanol has an acidic-phenolic hydroxyl group and a long metasubstituted unsaturated hydrocarbon side chain which can be exploited fruitfully, for carrying out further chemical reactions, leading to new polymers. Cardanol-based active hydrogen compound containing various chemical groups is a choice of raw material for the development of such polyurethanes, as the systematic attempts are rather scanty. Further, the fact that CNSL is a renewable natural resource abundantly available at a low cost, adds to the scope of such an endeavor. Cardanol is one of the few aromatic biobased raw materials. The majority of biobased materials are aliphatic and therefore have a limited range of applications. The major value added products from CNSL produced in the country are Cardanol, CNSL resins, Recidol and many other high value products. The demand for CNSL and Cardanol is steady to high based on growing demand from the paint and varnish manufacturers. In recent years, emphasis has been given on effective utilization of naturally available and renewable resources for the development of raw materials for various polymer based products. Cashew Nut Shell Liquid (CNSL), and one of its ingredients, cardanol can be successfully exploited for the development of phenolic resins for the manufacture of different industrial products. The multi-functional role of cardanol and cardanol pre-polymers has been well documented in the literature in the last few years and it has left many options open to derive useful products out of this agricultural by-product. The phenolic nature of cardanol has prompted different researchers to react it with formaldehyde or with other aldehydes to produce numerous resinous materials just like those produced from phenol. An umpteen number of literature has been cited in the previous sections of this chapter highlighting the utilization of o- and p- functionality of cardanol. Besides, cardanol has an acidic-phenolic hydroxyl group and a long metasubstituted unsaturated hydrocarbon side chain which can be exploited fruitfully, for carrying out further chemical reactions, leading to new polymers. Cardanol-based active hydrogen compound containing various chemical groups is a choice of raw material for the development of such polyurethanes, as the systematic attempts are rather scanty. Further, the fact that CNSL is a renewable natural resource abundantly available at a low cost, adds to the scope of such an endeavor. Cardanol is one of the few aromatic biobased raw materials. The majority of biobased materials are aliphatic and therefore have a limited range of applications.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Nickel Catalyst for Hydrogenation of Vegetable Oil

Nickel catalysis plays a central role in many synthetic transformations ranging from cross coupling reactions in which carbon-carbon bonds are formed to the reduction of electron rich carbon bonds with raney nickel catalysts. Sigma-Aldrich provides an extensive suite of such nickel catalysts. Nickel-based catalytic systems are used in the production of many industrial and consumer products, and play a key role in organic synthesis. Hydrogenation, vegetable oils are reacted with hydrogen gas at about 60ºC. A nickel catalyst is used to speed up the reaction. The double bonds are converted to single bonds in the reaction. In this way unsaturated fats can be made into saturated fats – they are hardened. Hydrogenation of fats and oils is a very important operation in the industrial process of producing vegetable tallow, vegetable fats, margarines, and starting components for the cosmetic and chemical industry such as emulsifiers, soaps, creams, pastes, and similar substances. There are two main reasons why hydrogenation is important to the industry. The first is increasing the stability of the oil. Highly unsaturated oil is susceptible to autoxidation, thermal decomposition, and other reactions that affect the flavor. Consequently, it is desired to partially hydrogenate the oil to improve shelf life. The second reason to partially hydrogenate vegetable oil is to improve its utility. For most products, such as shortenings, margarines, or confectionery fats, the desired softening and melting characteristics correspond to oils that are partially hydrogenated. The choice of catalyst to use for hydrogenation greatly affects the properties of the final product.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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Disposable Plastic Syringes

Disposable Syringes are being used by doctors to inject medicines through intravenous or intramuscular ways for the treatment of diseases & also by research & development personnel. Disposable syringes are made of plastic material and are used in the field of medical and veterinary science. The manufacture of plastic syringes has been developed to such a degree that the products now satisfy the requirements and standards set by Hospital and physicians. Disposable syringes are the dominating market with a CAGR of around 6% over the forecast period i.e. 2016-2024 because disposable syringes are used only once ensuring the safety of patients. On the basis of material, glass syringe is dominating the segment and is expected to reach a value of USD 15 million by 2024 because they can be sterilized and reused. The syringes market is expected to reach USD 15.99 Billion by 2021 from USD 10.56 Billion in 2016, at a CAGR of 8.7% during the forecast period. Thus, due to demand it is best to invest in this project. Few Indian major players are as under • Albert David Ltd. • Disposable Medi-Aids Ltd. • Hindustan Syringes & Medical Devices Ltd. • Lifeline Injects Ltd. • Lifelong Meditech Ltd. • Oyster Medisafe Pvt. Ltd. • Peekay Mediequip Ltd.
Plant capacity: Disposable Plastic Syringes 2 ml Size: 60 Boxes/Day Disposable Plastic Syringes 5 ml Size: 60 Boxes/Day Disposable Plastic Syringes 10 ml Size: 40 Boxes/DayPlant & machinery: Rs. 137 lakhs
Working capital: -T.C.I: Cost of Project: Rs 307 lakhs
Return: 13.00%Break even: 61.00%
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Bentonite Clay Granules

Bentonite is a clay generated frequently from the alteration of volcanic ash, consisting predominantly of smectite minerals, usually montmorillonite. Other smectite group minerals include hectorite, saponite, beidelite and nontronite. Smectites are clay minerals. Bentonite is used in drilling fluids to lubricate and cool the cutting tools, to remove cuttings, and to help prevent blowouts etc. Bentonite Market size was over USD 1.1 billion in 2017 and industry expects consumption above 25 million tons by 2024.Rising infrastructural growth in China, India, Japan and Malaysia owing to increased public expenditure is predicted to boost the construction industry and thereby accelerate bentonite market size. Southeast Asia construction market led by Malaysia, Indonesia and Singapore was valued at USD 250 billion in 2018 which indicates tremendous market growth potential. This facilitates the development of new technologies and ensures a high quality product. Few Indian major players are as under • Ashapura Minechem Ltd. • Bituminex Cochin Pvt. Ltd. • Earth International Pvt. Ltd. • Gimpex Pvt. Ltd. • Laviosa India Pvt. Ltd. • Neelkanth Rockminerals Ltd.
Plant capacity: Bentonite Clay Granules : 288 MT/day Plant & machinery: Rs. 416 lakhs
Working capital: -T.C.I: Cost of Project: Rs 1228 lakhs
Return: 28.00%Break even: 59.00%
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Lithium Ion Battery (Battery Assembly)

Lithium batteries are now powering a wide range of electrical and electronical devices, including laptop computers, mobile phones, power tools, telecommunication systems and new generations of electric cars and vehicles. Lithium ion batteries are those that can be recharged. As an example, laptop or cell phone is likely to have a lithium ion battery. The India lithium-ion battery market is expected to grow at a robust CAGR of 29.26% during the forecast period, 2018-2023. The Indian automobile sector is one of the most prominent sectors of the country, accounting for nearly 7.1% of the national GDP. The India lithium-ion battery market is expected to grow at a robust CAGR of 29.26% during the forecast period, 2018-2023. This facilitates the development of new technologies and ensures a high quality product.
Plant capacity: 90 Volt, 180 AH Lithium Ion Battery Pack: 56 Nos/dayPlant & machinery: Rs 90 lakhs
Working capital: -T.C.I: Cost of Project: Rs 1076 lakhs
Return: 34.00%Break even: 55.00%
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  • One Lac / Lakh / Lakhs is equivalent to one hundred thousand (100,000)
  • One Crore is equivalent to ten million (10,000,000)
  • T.C.I is Total Capital Investment
  • We can modify the project capacity and project cost as per your requirement.
  • We can also prepare project report on any subject as per your requirement.
  • Caution: The project's cost, capacity and return are subject to change without any notice. Future projects may have different values of project cost, capacity or return.

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