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Business Ideas with Investment of 5 Crore to 10 Crores (Plant and Machinery): Selected Project Profiles for Entrepreneurs, Startups between 50 million to 100 million

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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Feasibility Study of Epoxy Resin (Liquid) Production

Epoxy resin is a reactive pre-polymer and polymer that contains epoxide groups. These resins react either with themselves or with a variety of co-reactants such as amines, phenols, and thiols in the presence of catalysts. Epoxy resin outperforms other types of resins in terms of shrinkage during cure and moisture and chemical resistance. It has a long shelf life and is impact resistant. It also has outstanding electrical and insulating qualities. Epichlorohydrin (ECH) and bisphenol a are used to make the most popular epoxy resins. The most extensively used resins are those based on bisphenol A. Epoxy resins with molecular weights ranging from low molecular weight liquids to high molecular weight solids can be produced depending on the quantity of Epichlorohydrin to bisphenol-A used in the manufacturing process. Epoxy resin is widely used in the following industries: 1. Metal coatings 2. Electronic and electrical components 3. Fibre-reinforced plastic materials 4. Structural adhesives 5. Paints 6. Sealants 7. Casting Industry The use of epoxy resin for adhesive purposes is one of the most popular applications. Because of the epoxy's strong characteristics, it can be used for structural and engineering adhesives. Epoxy resins are also utilised in anti-corrosion coatings and adhesive applications, which are particularly successful at replacing or supplementing heavier bonding methods such as mechanical fasteners. In industrial coatings, epoxy resins are utilised as a binder (primers). They offer the paint exceptional adherence as well as chemical (corrosion) and physical resistance, which is required on ships and chemical storage tanks, for example. Epoxy Resin has unique adhesive features such as durability, strength, and chemical resistance, making it a robust sealer. It will resist abrasions as well as oil and other liquids when the components are combined together and sprayed on materials like concrete or wood. The global Epoxy Resin market is expected to increase at a CAGR of 5.85 percent during the next five years. Epoxy resins have more than one epoxy group per molecule and are thermosetting resins with appropriate cross-linking agents for increased reactivity. Epoxy resins are regarded as the most important raw material used in many chemical formulations. Epoxy resins' favourable qualities, such as high thermal stability, mechanical strength, moisture resistance, adhesion, and heat resistance, make them the resin of choice for a variety of end-user applications, such as laminates and insulators. Transportation, marine coatings, aerospace, electrical & electronic laminates, composites, and decorative powder coatings, all of which are growing end-use industries in Asia Pacific, are likely to have a favourable impact on the global market. Increased research efforts by key players, combined with technological advancements in the field of modified resins, are projected to open up new doors for industrial applications.
Plant capacity: 20 MT Per DayPlant & machinery: 689 Lakh
Working capital: -T.C.I: Cost of Project: 1956 Lakhs
Return: 30.00%Break even: 80.00%
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Start Manufacturing Business of Highway Guard Crash Barrier, Traffic barriers, Highway Safety Guardrail (Roll Forming with Metal Beam and Galvanizing Plant)

Highway Guard Crash Barrier, Metal Beam Traffic barriers, also known as guardrails or guard rails in the United States and crash barriers in the United Kingdom, keep vehicles on the road and prevent them from colliding with dangerous obstacles like boulders, sign supports, trees, bridge abutments, buildings, walls, and large storm drains, as well as traversing steep (non-recoverable) slopes or entering deep water. Before being certified for public use, traffic barriers are subjected to comprehensive simulated and full-scale accident testing to ensure that they are safe and effective. While crash testing cannot simulate every possible type of impact, it is used to evaluate the performance limits of traffic barriers and ensure that road users are adequately protected. Roadside barriers are used to keep cars safe from hazards such as steep slopes that can cause rollover crashes, immovable structures such as bridge piers, and bodies of water. Median barriers are used to keep vehicles from crossing over the median and colliding with oncoming traffic. Bridge barriers keep automobiles from crashing off the edge of a bridge and landing on the road, river, or railroad below. In comparison to most treated steels, it has a low beginning cost. Furthermore, when galvanised steel is delivered, it is instantly ready to use. It does not necessitate further surface preparation, inspections, painting/coatings, etc., saving businesses money. Any damaged steel is shielded by the surrounding zinc coating thanks to the sacrificial anode. Whether the steel piece is entirely exposed or not, the zinc will corrode first. The coating will erode more quickly than the steel, providing a sacrificial layer of protection for the injured areas. With a total length of 5.89 million kilometres, India boasts the world's second largest road network (kms). This road network delivers 64.5 percent of all commodities in the country, and 90% of all passenger traffic in India travels by road. With improved connectivity between cities, towns, and villages around the country, road transportation has gradually increased over time. Between FY16 and FY19, India's highway development increased at a 21.44 percent compound annual growth rate (CAGR). In FY19, 10,855 kilometres of highways were built, with the government aiming to build 12,000 kilometres of national highways in FY20. The National Highways Authority of India (NHAI) completed the highest-ever highway construction of 3,979 kilometres in March 2020. The government set a goal of building roads costing Rs 15 lakh crore (US$ 212.80 billion) in the next two years in April 2020. On account of increased government measures to develop transportation infrastructure in the country, the market for roads and highways is expected to grow at a CAGR of 36.16 percent from 2016 to 2025. Key Players • Alcatel-Lucent India Ltd. • Arcelormittal Nippon Steel India Ltd. • Arcelormittal Projects India Pvt. Ltd. • Arjas Steel Pvt. Ltd. • Bekaert Industries Pvt. Ltd. • Belmaks Solutions Pvt. Ltd.
Plant capacity: Metal Beam Highway Crash Barrier: 200 MT per day | MS Sheet Scrap: 40 MT per dayPlant & machinery: 905 Lakh
Working capital: -T.C.I: Cost of Project: 2973 Lakh
Return: 30.00%Break even: 46.00%
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Manufacturing Business of IV Fluids (BFS Technology)

Intravenous fluids are fluids administered intravenously (via veins) or directly through the circulatory system to a patient. These fluids must be sterile to protect patients from harm, and there are several options. Many businesses sell pre-packaged intravenous fluids and other items that can be mixed with sterile water to make an intravenous solution. There are two types of intravenous fluids. Crystalloids, such as saline solutions, contain a solution of water-soluble molecules. Colloids are made up of particles that aren't soluble in water and have a high osmotic pressure, which causes fluid to flow into blood arteries. Intravenous fluids can also be used to provide medications in addition to delivering fluids. With the help of an infusion pump, a doctor can dissolve a little amount of medication in a bag of intravenous fluids and infuse the medicated fluid straight into the bloodstream over a long period of time. Fluids are also often utilised to aid in the recovery of individuals who have undergone surgery; people who receive fluids after surgery recover more quickly than those who do not. IV fluids are made up of a range of solutions. The one chosen is determined on the situation. As a simple mode of delivery, several additional chemicals can be added to the IV solution. Antibiotics, pain relievers, and other medications can be mixed into the IV to ensure that the patient receives the medication as soon as possible. Dextrose (also known as D-glucose, Corn Sugar, Starch Sugar, Blood Sugar, and Grape Sugar) is the most abundant sugar in nature. It can be found free (mono saccharine form) or chemically coupled with other sugars. In the Free State, it can be found in high concentrations in honey, fruits, and berries. • Electrolyte metabolism and waste water treatment, particularly in extreme situations. • Acid-base imbalance treatment. • During the postoperative phase, a dextrose solution is utilised to reduce salt extraction. • A dextrose solution with a concentration of 10-15% is used as a diuretic to promote urine flow. • Saline solution is used when a significant amount of salt has been lost due to vomiting, stomach or intestinal duodenal aspiration, or an alimentary fistula. In medicine, intravenous (IV) fluids are used to restore vital nutrients or chemicals that the body cannot produce on its own. IV fluids are also widely utilised in medical conditions where someone has lost a considerable amount of fluid from their body and requires rapid rehydration as well as electrolyte and vitamin replacement, such as accidents or illnesses. If IV fluids are needed to treat a sickness or disease, doctors will examine the patient's condition on a regular basis to ensure that it does not deteriorate and that his or her health recovers quickly and successfully. The global intravenous (IV) solutions market was valued at USD 6.9 billion in 2015, and it is predicted to grow at a 7.8% CAGR over the next five years. The constantly growing geriatric population, as well as the high prevalence of malnutrition among the elderly and children, might be attributed to the growth of this industry. The intravenous (IV) solution market is expected to develop at a compound annual growth rate (CAGR) of 7.69 percent from 2016 to 2022, reaching USD 11,511.2 million. The market is expanding due to the rising prevalence of chronic diseases and the increasing acceptability of vitamin C intravenous treatment therapy for colorectal cancer. Key Players: • Abaris Healthcare Pvt. Ltd. • Ahlcon Parenterals (India) Ltd. • Axa Parenterals Ltd. • Infutec Healthcare Ltd. • Kokad Pharmaceutical Laboratories Ltd. • Parenteral Surgicals Ltd.
Plant capacity: IV Fluids (500 ml Size Pack): 78,000 Packs Per DayPlant & machinery: 576 Lakhs
Working capital: N/AT.C.I: Cost of Project: 1190 Lakhs
Return: 27.00%Break even: 50.00%
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Start Manufacturing Business of AAC Blocks from Silica Sand & Lime Stone Powder

The novel building material autoclaved aerated concrete (AAC) is employed in construction. It is both environmentally friendly and provides good insulation. Autoclaved aerated concrete (AAC), also known as autoclaved cellular concrete (ACC) or simply autoclaved concrete, is a high-strength material manufactured by injecting steam into wet, raw concrete mixes. The shape and size of the air-filled cells created by the aeration process may vary depending on how the concrete mix is prepared and placed in moulds prior to steam injection. Because of its adaptability, AAC can be used for floor slabs, wall panels, acoustic dividers, ceiling tiles, patio covers, and even furniture. Aerated concrete (AAC) is a complete building system consisting of panels and blocks that can be used in residential, commercial, and industrial structures. AAC is a green building material that is fire-resistant, thermally efficient, solid-structured, and simple to work with. AAC has a long history in the construction industry and has established itself as a significant participant. For about 40 years, our country has been creating aerated methods, and their technological abilities and equipment are continually improving. Autoclaved Aerated Concrete Blocks have a high strength-to-weight ratio, low thermal conductivity, temperature and humidity stability, and fire resistance. It can be used in larger construction units due to its low density, which is a considerable benefit in prefabrication. In multi-story structures, significant foundation load savings are realised. As a result, in some industrialised countries, it's becoming more popular as a walling unit. Residential, multistory buildings, commercial, and industrial developments can all benefit from AAC. Natural elements such as sand, lime, and water are used to create the items. These raw components are combined to create a substance with a significant number of air pores, which is known as aerated concrete. The stiff structure of calcium silicate hydrate and the fine holes (almost 70% of the product) give AAC its excellent material characteristics. "The construction industry's autoclaved aerated concrete sector is now through a substantial expansion cycle. Because customers are looking for lower pricing, the autoclaved aerated concrete industry must compete. Although AAC is not a new construction method, it is being employed in India for the first time. Autoclaved aerated concrete ("AAC") is one of many "green" or "environmentally friendly" building materials available today, however it is still relatively obscure in India. AAC is a type of lightweight prefabricated stone. Natural aerated concrete (AAC) is a type of aerated concrete that is utilised in a variety of commercial, industrial, and residential applications. By using less material and producing less waste and pollution, AAC saves time and money. Last year, the Indian government approved 100 percent foreign direct investment in integrated township development. After China, India is currently the second most popular FDI destination. This industry will benefit from a big and expanding middle class population of more than 300 million people, a changing lifestyle, lower living costs, and so on. As a result of industrialization, urbanisation, economic development, and people's rising expectations for improved quality of life, the Indian construction industry, which is an integral part of the economy and a conduit for a significant portion of the country's development investment, is poised for growth in the coming years. The volume of cement and AAC commodities provided to the broader Indian market in a given period is referred to as the market size of cement and AAC. As a result, supply rather than demand determines market size. Between 2020 and 2025, the global autoclaved aerated concrete (AAC) market is expected to increase at a CAGR of 6.0 percent, from USD 18.8 billion in 2020 to USD 25.2 billion in 2025. The market is being driven by increasing urbanisation and industrialization, infrastructural growth, higher demand for lightweight construction materials, expanding preferences for low-cost housing, and a growing focus on green and soundproof buildings. Because of increased demand for AAC blocks in both residential and non-residential enterprises, the blocks element is the largest and fastest-growing category. In addition to their insulating properties, AAC blocks have the advantage of being quick and easy to install, as the material can be routed, sanded, and cut to size on site. In terms of volume, non-residential is predicted to be the fastest-growing end-use industry in the AAC market in the next years. Aesthetics and functionality are the two most important factors to consider when designing a company organisation. AAC is the second most often used building material in the earth, after concrete. AAC is frequently produced in the form of blocks or panels. AAC blocks, unlike concrete masonry units, are solid and do not have moulded core holes. Key Players • Ashoka Pre-Con Pvt. Ltd. • Baliapatam Tiles & Business Ventures Ltd. • Biltech Building Elements Ltd. • Gannon Dunkerley & Co. Ltd. • H I L Ltd. • J K Lakshmi Cement Ltd. • Keltech Energies Ltd.
Plant capacity: 300 Cu.Mtres Per DayPlant & machinery: 600 Lakhs
Working capital: N/AT.C.I: Cost of Project: 1070 Lakhs
Return: 25.00%Break even: 51.00%
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Steel Shots & Grits Steel Abrasives) Manufacturing Business

Steel shots are spherical grains created by atomizing (granulating) molten steel in a variety of diameters and hardnesses. Steel shots are made from scrap steel. Steel scrap is melted in a furnace and then atomized into shot using a water jet. Steel shots, because to their delicate production process, produce the least amount of dust. Steel shots are used to clean heavy metal parts like engine turbine blades, crankshafts, and heavy-duty springs. Particles with a majority of round edges, a length less than twice the maximum particle width, and no sharp edges, shattered faces, or other surface imperfections. Steel shots are available in a variety of sizes, from S110 to S330, and come in a variety of shapes. In contrast to grits, the larger the shot number, the larger the steel shot, hence a size S330 shot will be larger than a size S110 shot. The larger shot is used to peen heavier steel and remove thicker coatings. Crushing hardened shot, sifting the resulting material, and tempering it to the proper hardness produces steel grits. When cleaning speed is necessary and a poor finish is acceptable, it's employed in contingency and rust removal scenarios. Particles with a primarily angular shape, fractured faces, and sharp edges, as well as a shape less than half circular. It makes wiping off the surfaces a breeze. They are used in a wide range of applications (ship building, pipe building, steel construction, granite cutting, tank manufacturing etc.). Steel grit's increased hardness, combined with its flawless microstructure, ensures maximum durability and impact energy transmission. Steel grit is best used in high-stress, severe environments. In a short amount of time, it eliminates a wide spectrum of surface impurities from steels and other foundry metals. The most often used grit grits range from G25 to G80, and they extend the life of conventional abrasive materials by about 1,000 to 1, cutting raw material expenses. As the number of grits grows, the size of the actual blast media particle shrinks. High carbon steel shot is required for desanding, descaling, cleaning, shot peening, and other applications. Because of the centrifugal atomization technique and twofold heat treatment used at the Airblast plants, as well as ongoing quality control methods, the shot is of the highest quality. Shot peening is a cold working technique that includes blasting a spring's surface with small spherical media called steel shot. Each piece of shot that lands on the surface leaves a dimple or depression in the surface. Overlapping dimples generate a uniform layer of metal under residual compressive stress. Fatigue cracks will not form or propagate in a compressively stressed zone. When the surface develops a residual compressive stress, the applied load's tensile stress must first overcome the residual compressive stress before the resultant surface stress can become tensile. Steel shot and grit are used primarily in surface preparation to remove mill scale, dirt, and rust from metal surfaces, as well as to physically modify the metal surface, such as creating roughness for better paint and coating application, such as powder coating, enamelling, painting, metallization, rubber bonding, and so on. In shot blasters, steel shots are regularly employed. In accordance with India's forecasted healthy economic growth, the INR 25 billion organised steel abrasives sector is expected to grow at a CAGR of 13% over five years to INR 40 billion. Steel abrasives have always grown in lockstep with India's GDP growth. This shows how dependent the industry is on India's economic performance. India's remarkable GDP growth rate of above 7% is thus a major boon to the country. The steel abrasives market is expected to grow at a healthy rate in the coming years. Rapid industrialization and increased car production are the two main themes driving market expansion. To alleviate environmental concerns, leading vehicle manufacturers are designing low-weight products that emit less carbon dioxide, are cost-effective, and provide exceptional performance. Steel abrasives are expected to profit from an increase in demand in end-use sectors for manufactured industrial items with high precision finishes. Furthermore, high expansion in the global construction sector is expected to propel the steel abrasives market. Asia Pacific is expected to be the largest market for steel abrasives in the next five years, owing to a significant increase in industrial applications in the past five years. India, China, Russia, Brazil, and South America are just a few of the major economies with significant market expansion potential. Over the forecast period, the market for steel abrasives is expected to rise at a CAGR of 6.2 percent (2019-2026). The global steel abrasives market is expected to develop at a CAGR of 6.5 percent from 2017 to 2023, rising from $34,615 million in 2016 to $53,634 million in 2023. Abrasives are utilised in the automotive, electronics, construction, and industrial industries to produce a good polished surface finish. Key Players: • 3M India Ltd. • Grindwell Norton Ltd. • Hi-Tech Recycling (India) Pvt. Ltd. • Nippon Steel & Sumitomo Metal India Pvt. Ltd. • Orient Steel & Inds. Ltd. • Rotocast Industries Ltd.
Plant capacity: 40 MT per dayPlant & machinery: 722 Lakhs
Working capital: -T.C.I: Cost of Project: 1884 Lakhs
Return: 28.00%Break even: 66.00%
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Start Production of Silica from Rice Husk Ash

Rice husk ash silica is a feasible alternative to traditional sand in the concrete industry, especially in places where sand is scarce. Silicon dioxide is produced by extracting silica from rice husk ash using high-temperature calcination and carbonization techniques, and it can be added to concrete mixes to improve properties like as strength, density, air entrainment, and freeze-thaw resistance. The husk left behind from milling is commonly utilised as a fuel in paddy processing boilers, generating energy through direct combustion and/or gasification. By inflicting harm to the ground and surrounding region where it is discharged, this RHA poses a substantial environmental danger. Many solutions are being examined for disposing of them through commercial use of this RHA. India produces 12 million tonnes of rice husks each year. The annual output of husk is expected to be 80 million tonnes. Rice husk is a waste product of the rice milling process that is often left to rot in the field or burned in the open. Rice husk has been used as a fuel for cooking and parboiling paddy rice in some poor countries. Different types of silica area given below:- Rice husk ash's high silica concentration has generated interest in finding economic uses for it. Although silica can be found as a component of cells or cell walls in almost every arial region of the rice plant, it is most abundant in the husk. Silica is one of the most valuable inorganic chemical compounds. Amorphous, crystalline, and gel forms are all possible. Precipitated Silica (also known as particulate silica) is a mixture of colloidal-size ultimate particles that haven't formed a significant gel network throughout the preparation process. There are three different forms of amorphous silica. With high-speed neutrons, silica was created, indicating either amorphous or crystalline silica. Vitreous silica or glass formed by fusing quartz includes micro amorphous silica. At high temperatures, gynogenic silicas are formed by condensation of SiO2 from the vapour phase, or at low temperatures, by chemical reaction in the vapour phase followed by condensation. In an aqueous solution, silica can be found as sols, gels, or particles. Concentrating an under saturated solution into a heated saturated solution, or creating Si(OH)4 of the silica ester SiH4, SiS2, SiCl4, or Si, yields amorphous silica. Precipitated Silica is a porous soluble silicate solution with highly regulated particle sizes. Precipitated silica powders have a more open structure with less volume than dried pulverised gels. As a filler for paper and rubber, as a carrier and diluent for agricultural chemicals, as an anti-caking agent, to control viscosity and thickness, and as a cleansing agent, silica is used in toothpastes and cosmetics. 1. Adhesive: Silica is utilised as a thickening and reinforcing ingredient, as well as to increase bond strength. The dispersed silica particles within a liquid adhesive harden quickly when it comes into contact with a solid surface. Natural and synthetic rubber-based adhesive. 2. Chappals: Silica is used in shoe soles because of its wear and tear resistance, non-scuffing qualities, and capacity to generate light-colored or even translucent compounds. 3. Conveyor Belt & Transmission Belt: Silica is used to improve tear strength because of its small particle size and complex aggregate structure. 4. PVC Sheets: Silica enhances pigment dispersion, works as a separating agent and absorbent to accelerate flow, and imparts a dry feel to the compound. 5. Railway Pads: Silica is used in railway pads for a variety of reasons, including: 6. Rubber Belts and Rubber Hoses: Silica improves the strength and durability of industrial rubber belts and rubber hoses, as well as their heat resistance and tear strength. 7. Silicon Tubes: Silicone rubber is used in a wide range of applications where its unique properties are beneficial. The type and amount of filler used in the compound has a big impact on a lot of these qualities. India's silica market was worth USD 46.8 million in 2019-20. In the coming years, it is predicted to increase at a CAGR of 6.5 percent. Strong product demand in the food industry has helped the market gain pace in recent years due to its anti-caking and super absorption capabilities. The rising use of silica in the rubber industry's manufacturing of micro sheets, rice rollers, thermoplastic rubber, PVC sheets, and shoe soles is likely to propel the market ahead. Increased use of the product in transmission and conveyor belts, notably for higher tear strength and elastomer compound reinforcement, is likely to drive market growth over the forecast period. Tyre demand is increasing in India, China, Indonesia, South Korea, Japan, Malaysia, Taiwan, Mexico, the United States, and Germany, owing to increased car manufacture. Rapid economic growth, increased government spending, improved road infrastructure, and a growing preference for personal transportation are all expected to boost demand for automobiles, propelling the market forward. In 2018, the global silica market was worth USD 5.22 billion, and it is predicted to increase at an annual pace of 8.6% over the next five years. The breadth of the market includes precipitated, fumed, gels and sols, as well as microsilica (fumes). The increased demand for the product from the rubber industry is the primary driver of the market. Silica in rubber improves abrasion resistance, tensile strength, and flex fatigue properties. It is commonly used in tyre applications because of its ability to increase the binding and tear resistance between rubber tyres and iron reinforcements.
Plant capacity: Silica: 5.80 MT Per Day | Activated Carbon (by product): 0.64 MT Per Day | Sodium Carbonate (by product): 0.96 MT Per DayPlant & machinery: 745 Lakhs
Working capital: -T.C.I: Cost of Project: 1121 Lakhs
Return: 27.00%Break even: 45.00%
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Manufacturing of Ascorbic Acid (Powder) from Sorbitol

Vitamin C, or ascorbic acid, is an essential component that the body cannot make on its own and must get from outside sources in order to stay healthy. Because vitamin C has so many roles, getting enough of it every day can be challenging if you don't know what it does or where to get it. Vitamin C aids in the formation of collagen, strengthens the immune system, aids wound healing, and reduces the risk of some malignancies by neutralising free radicals in the body. As a result, researchers, medical practitioners, and the pharmaceutical and food industries are placing a high priority on detecting and quantifying ascorbic acid in food samples, goods, and nutraceuticals. Indian gooseberry, citrus fruits such as limes, oranges, and lemons, tomatoes, potatoes, papaya, green and red peppers, kiwifruit, strawberries, and cantaloupes, green leafy vegetables such as broccoli, fortified cereals, and their juices are among the best sources of ascorbic acid. Vitamin C (ascorbic acid) is essential for both bodybuilding and illness prevention. The antioxidant activity, the synthesis of protein, tendons, ligaments, and blood vessels, the healing of wounds and formation of scar tissue, the repair and maintenance of cartilage, bone, and teeth, and the helping in the absorption of iron are just a few of the tasks. The antioxidant activity of ascorbic acid (Vitamin C) is one of its most essential qualities. Vitamin C's antioxidant action aids in the prevention of cancer, cardiovascular disease, the common cold, age-related muscle degeneration, and cataract. Vitamin C's antioxidant properties aid in the treatment of cardiovascular disorders. Vitamin C reduces monocyte adherence to the endothelium, improves endothelium-dependent nitric oxide generation and vasodilation, and decreases vascular smooth muscle cell death, all of which help to avoid plaque instability in atherosclerosis. Vitamin C also helps to protect other vitamins (such as vitamin A and vitamin E) from oxidative damage. Vitamin C protects the gums and slows the ageing process. It improves overall physical health by eliminating harmful metals from the body. Vitamin C inhibits cataract formation, making it effective in the treatment of glaucoma. Another major effect of vitamin C is that it aids in protein synthesis. Collagen synthesis is aided by vitamin C. Collagen keeps our skin looking young by preventing wrinkles and making it firm and robust. Organs and other soft tissues are also protected and supported by collagen. Hydroxyproline, one of the amino acids needed to make collagen, can only be formed when vitamin C is present. In 2020, the global Ascorbic Acid market was worth USD 1.09 billion, with a CAGR of 5.0 percent predicted. Ascorbic acid is a powerful natural antioxidant that aids in a variety of metabolic and repair processes throughout the body. Growing awareness of the effectiveness of ascorbic acid in the therapeutic reduction of serum cholesterol levels and different types of cancer, growing demand for fresh leafy vegetable products, and increasing consumption of ascorbic acid to prevent vitamin C deficiency are key factors expected to boost demand for ascorbic acid and dr. The worldwide ascorbic acid market has been divided into two grades: pharmaceutical grade and food grade. Due to rising demand for vitamin C-fortified foods and beverages, rising use of ascorbic acid as a food additive and acidity regulator, and as a key source of vitamin C in supplements, the food grade segment is likely to see considerable revenue growth throughout the forecast period. Many foods are fortified with ascorbic acid to efficiently replace vitamin C content, and food grade ascorbic acid is often used to fortify or add citrus taste to fruit juices, fruit-flavored candies, cured meats, and frozen fruits. Due to increased vitamin C manufacturing, increased investment in R&D activities to develop effective vitamin C supplements, rapidly growing food and beverage industry due to increased focus on functional foods and rapid urbanisation, changing lifestyle and increasing disposable income, and growing demand for vitamin C-enriched cosmetic products, the Asia Pacific market is expected to grow at a CAGR of 5.5 percent during the forecast period.
Plant capacity: Ascorbic Acid (Powder): 8.3 MT Per Day | Carbon Di-oxide by Product: 11.6 MT Per Day | Sodium Hydroxide by Product: 7.7 MT Per DayPlant & machinery: 803 Lakhs
Working capital: -T.C.I: Cost of Project: 2444 Lakhs
Return: 29.00%Break even: 48.00%
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Start Production Business of Monosodium Glutamate

MSG (monosodium glutamate) is a popular ingredient in restaurants and households around the world. It improves the flavour and taste of food, and as a result, it has been increasingly popular in recent decades. If you're serious about starting your own business and being your own boss, consider starting a monosodium glutamate manufacturing firm in addition to the other businesses we provide on this site. Continue reading to find out why you should consider launching this company! In processed meals, MSG (monosodium glutamate) is a prevalent ingredient. It is made from glutamic acid, which is derived from proteins. It's what gives our processed meals their delightful flavour, in a nutshell. MSG may encourage you to eat more than you intended since it raises appetite-stimulating hormones like ghrelin and neuropeptide Y. A type of MSG is monosodium glutamate, also known as MSG or glutamate. It's a sodium salt derived from glutamic acid, one of the 20 amino acids required by cells to produce proteins. Like other amino acids, glutamate is a critical source of metabolic energy that can be converted to glucose as needed. It has no flavour, unlike most amino acids, and instead adds umami to food, making it popular in cooking and food preparation. In addition to its savoury flavour, glutamate is responsible for amplifying some naturally occurring flavours in foods. It's perfect for improving the flavour of processed foods like canned soups and frozen entrees because of this. In truth, MSG is present in approximately 80% of all processed foods. One of the most frequent amino acids found in nature is MSG (monosodium glutamate). It's used in a variety of meals as a flavour enhancer and as a food additive in the form of hydrolyzed protein or purified monosodium salt. Monosodium glutamate is a sodium salt of glutamic acid. The chemical formula is C5H8NO4Na. MSG and glutamic acid were previously produced through extraction, which was a time-consuming and costly method. It was first launched in the United States in the late 1940s. Later, fermentation was successfully employed to manufacture MSG and glutamic acid on a large scale (1956). The most common form of MSG is monohydrate crystals, which are a white, odourless powder. Some important uses of Monosodium Glutamate are listed below: • This chemical can be found in a wide range of canned goods and spice blends. • MSG is frequently used to make cigarettes taste better. • Hepatic coma can also be treated with it. • A lot of instant ramen noodle companies use MSG as a main ingredient. Benefits of starting Monosodium Glutamate Business: There are numerous advantages to starting a Monosodium glutamate production company. For starters, MSG is in increasing demand because to its popularity throughout Asia. Second, MSG production has a huge profit margin due to its low costs. Third, a successful entrepreneur who wants to create their own business rather than work for someone else has a lot of room for growth. Finally, MSG has been proved to have no negative health impacts. It can be used in soups, stews, and sauces, among other cuisines and beverages. It's also found in a number of other products, such as baby food and seasonings. It's also in a number of pharmaceuticals and cosmetics. MSG is available in Asia, including China, Japan, and South Korea. These countries consume more than 80% of all monosodium glutamate produced in the globe. The product is very popular in western countries such as America and Europe due to its excellent taste and flavour enhancer characteristics. Market Outlook: The Monosodium Glutamate market was worth $5,638 million in 2020, and between 2021 and 2026, it is predicted to grow at a CAGR of 5.81 percent. Monosodium Glutamate's popularity has expanded throughout time, and it can currently be found in a wide range of products at any supermarket or grocery store. Factors such as rising demand for flavour enhancers, monosodium glutamates in meat products, rising popularity of fast food chains in developing countries, rising standard of living, changing customer preferences, and rising demand for convenience foods are expected to propel the global market forward during the forecast period of 2021-2026. Increased industrial and non-industrial applications, as well as rising consumer demand for convenience meals, are driving growth in the Monosodium Glutamate industry. The monosodium glutamate market, on the other hand, is projected to be limited by a number of health concerns associated with its consumption. The Asia-Pacific region had the largest market share of 35 percent, owing to the growing popularity of fast food chains. Industry Major Market Players: • Ajinomoto Co Inc • CaFufeng Group • Cargill Inc. • COFCO • Fufeng Group • Gremount International Co. Ltd • Meihua Holdings Group Co. Ltd • Ningxia Eppen Biotech Co Ltd • R.M. Chemicals • Sunrise Nutrachem Group • Vedan International
Plant capacity: 15 MT Per DayPlant & machinery: 7 Cr
Working capital: -T.C.I: Cost of Project: 21 Cr
Return: 26.00%Break even: 45.00%
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Manufacturing of Aluminum Ingots From Aluminum Scrap

Aluminum ingots are exceptionally large casting products in both size and shape when compared to blooms, billets, and slabs. Although an ingot's cross section is frequently rectangular or square, it need not remain the same all the way along the object's length. (The cross section of the ingot may change.) Aluminum alloy ingots like LM-2, LM-4, and LM-6, which are often used in gravity and sand casting, as well as pressure die casting alloys like LM-13, LM-14, and LM-24, ADC-12, and ALSI-132, are also made in accordance with Indian and international standards. 7 percent of the earth's crust is made up of aluminum, a thin, silver-white metallic element. It weighs almost a third less per cubic meter than steel (7480–8000 Kg/cubic meter) or copper (8930 Kg/cubic meter). Aluminum is malleable, ductile, and easy to cast, and it has good corrosion resistance and durability. When coupled with oxygen, it primarily exists as alumina and is mined as bauxite ore. India is home to around 10% of the world's bauxite reserves, which is used by a growing aluminum sector. The growth in domestic demand is expected to be between 8 and 10 percent. By 2020, India is expected to have installed aluminum production capacity of 1.7 to 2 million tones yearly. India produces about 3% of the aluminum manufactured worldwide. In India's largely centralized aluminum industry, there are just five main units. Uses • Sand and cold environments are suited for castings for maritime applications that require the highest level of corrosion protection. • Applied where ductility or corrosion resistance are required; appropriate for large, intricate, and thin-walled castings in all styles of molds. • Mainly used for castings in sand and cold conditions that need to be robust and shock-resistant. • Used in all applications, especially low pressure die casting that calls for LM 6's improved tensile strength following heat treatment. Useful primarily in applications requiring pistons and those with higher thermal stresses. • Requires specific foundry methods and heat treatment. This alloy is capable of withstanding greater loads and temperatures. It has strong wear resistance and machinability properties. • It is appropriate for use in moderately complex sand and chill castings where good mechanical properties are desired. Need thermal treatment. • Used primarily in pressure die casting. LM 6-like in appearance but tougher and easier to machine. • As a result of the smelting process, various grades of aluminum ingots are produced, which are then used to create castings for the electrical and automotive industries. Market Outlook It is anticipated that the annual increase in demand for aluminum will range between 4 and 6 percent. The demand for the metal is predicted to rise as conditions for user industries such as power, infrastructure, and transportation, which are all in motion, improve. By the end of 2019–20, demand is predicted to have increased from around 1.6 million units in 2013–14 to close to 2.4 million units, and then to over 3.4 million units by 2024–25. • It is anticipated that India's demand for aluminum will rise by 17–18% each year as the building, construction, transportation, and packaging sectors continue to grow. • From an anticipated 3.4 million tones in FY17, India's consumption of aluminum is predicted to rise to 5.3 million tons by 2020. • Aluminum is a key material used in the electrical industry's wide range of products, including the manufacture of aero planes and packaging. The two sectors of transportation and energy make for more than half of the total off take. India's primary consumer industries are power, transportation, durable goods, packaging, and construction. Power consumes the most of it, making up about 44% of the total, followed by infrastructure (17%) and transportation (6%). (3 percent). (Roughly 10 to 12 percent). Some of the main factors that are expected to continue to propel the growth of the global market include rapid industrialization in both developed and developing countries, an increase in construction and reconstruction activities worldwide, and widespread use of aluminum ingots in the construction sector for manufacturing windows, weatherproofing doors, screens, etc. An increasing focus on technological developments in the packaging industry and an increase in the usage of aluminum ingots in the manufacturing of cans and aluminum foil due to their light weight and simplicity of molding are two additional factors fueling the growth of the global market for aluminum ingots. Industry Major Market Players: • Aravali Infrapower Ltd. • Baheti Metal & Ferro Alloys Ltd. • Bothra Metals & Alloys Ltd. • Indo Alusys Inds. Ltd. • Namo Alloys Pvt. Ltd. • AlcoaInc • Rio Tinto Group • Aluminum Corporation of China • United Company RUSAL • Norsk Hydro • Dubai Aluminium Company • SPIC • BHP Billiton • Xinfa Group • China Zhongwang
Plant capacity: Aluminium Alloy Ingots:12 MT per day Aluminium Scrap:0.20 MT per dayPlant & machinery: 7 Cr
Working capital: -T.C.I: Cost of Project:11 Cr
Return: 26.00%Break even: 53.00%
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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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