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

Mizoram is a state of India. It is located in the northeastern part of the country and is bounded by Myanmar (Burma) to the east and south and Bangladesh to the west and by the states of Tripura to the northwest, Assam to the north, and Manipur to the northeast. The capital is Aizawl, in the north-central part of the state. Agriculture is the dominant economic activity of Mizoram, engaging more than two-thirds of the workforce. Two types of agriculture are practiced: terrace cultivation, in which crops are planted on relatively permanent, graduated terraces on the sides of hills and mountains to conserve water and reduce soil loss; and shifting agriculture, in which tracts called jhum are cleared by burning, cultivated for a limited period of time. Mizoram has a population of 1,091,014 with 552,339 males and 538,675 females. This reflects a 22.8% growth since 2001 census; still, Mizoram is second least populated state of India. The sex ratio of the state is 976 females per thousand males, higher than the national ratio 940. The density of population is 52 persons per square kilometer. Mizoram gross state domestic product (GSDP) in 2011-2012 was about 6991 crore (US$1.1 billion). The state's gross state domestic product (GSDP) growth rate was nearly 10% annually over 2001-2013 period. With international borders with Bangladesh and Myanmar, it is an important port state for Southeast Asian imports to India, as well as exports from India.


Mizoram, the Land of the Highlanders, is sandwiched between Myanmar, Bangladesh and the states of Tripura, Assam and Manipur. The rivers, peaks, plains and the lakes are the treasures of Mizoram. It is full of high ranges running from north to south covered by greenery throughout the year. The Mizoram State Government begins to recognize tourism as an important sector of the economy which needs to be developed for greater income generation. More emphasis on sustainable eco-tourism, adventure tourism, village tourism and rural tourism would bring in high - value tourism. With the increase of tourist the need for budget hotels has been acutely felt.

Tourism has emerged as an important economic activity and one of the fastest growing industries in the world. Globally, Tourism is the fastest growing industry and in terms of value, it comes third only after petroleum and Transport Industry.

As such, Tourism Department in Mizoram is also one of the fastest growing Departments in Mizoram. The Department has achieved these objectives by constructing Tourist Lodge, Tourist Resort and other Tourist amenities in difference places of Mizoram through liberal financing of Ministry of Tourism, Government of India.


The Industrial Policy of Mizoram State was first notified on 15.3.1989 to give direction to the strategy for Industrial development of the State. It laid stress on reducing shifting cultivation by encouraging a shift from primary to secondary sectors while protecting the Socio-Cultural and ethnic identity of the indigenous enterprise of Mizoram.

In view of the National Industrial Policy which laid special emphasis for the development of Industries in the North Eastern Region, the Govt. of Mizoram had notified new Industrial Policy 2000 for accelerated Industrial and Economic development of the State. The Government had adopted the approach for identification of thrust areas and promoting them with fiscal and other incentives packages. Broad policy of Foreign Direct Investment (FDI) and Investment from outside the State has been adopted on Joint venture (JV) mode to safeguard the interest of the tribal population of Mizoram. Various administrative support system and market support system are also announced. The Govt. of Mizoram is mandated in giving sustainable employment and introducing better utilization of land by introducing New Land Use Programme (NLUP).


•        To create infrastructure facilities, provide incentives and marketing as well as technical support to industries.

•        To provide skill development and training for educated youth to develop entrepreneurial skills and make them self-employed.

•        To create employment opportunities particularly to the vulnerable section of the society and people in rural area, ensuring inclusive development.

•        To reduce sectoral and regional imbalance in the industrial development in the State by promoting Industries under all sectors.

•        To create proper linkage of processing Industries with the farm produce of agriculture, horticulture, forest and livestock’s.

•        To attract investment in the state.


Thrust will be given for those industries based on value addition of locally available resources. Special incentives will be formulated for speedy development of industrial units engaged in any of the following thrust sector Enterprises.

•        Forest-based Industries

The vast bamboo and other forest resources of Mizoram will be optimally harvested for setting up of Industry for manufacturing of various high value bamboo and other forest based products.

•        Food Processing Industries

Primary production of various food items, whether agricultural based, horticultural or livestock based will be linked with processing Industries.

•        Handloom Industries

Handloom sector will continue to receive serious attention of the Govt. Utmost importance will be given for improving quality product by introducing improved design, packaging, branding.

•        Handicraft Industries

The traditional skill of Mizo people will be upgraded and diversified for market competitiveness of handicraft products.

•        Plantain fibre and hill brooms

The Govt. will encourage value addition of hill-brooms. The flow of raw and unprocessed broom outside the state will be discouraged by giving attention towards value addition to help local industry.

•        Textile related industries

Bulk production of readymade garments will be encouraged as this sector is having good potential for market outside the state and export.

•        Animal Feed and poultry feed Industries

The Government is giving thrust towards having sufficient meat and meat products for which farming has been encouraged.


The incentives offered under the Rules for the grant of incentives/subsidies under the Industrial Policy of Mizoram State are-

•        Subsidies on the cost of Project Report 

•        Land subsidy

•        Factory rent subsidy

•        Manpower development subsidy

•        Interest subsidy

•        Power subsidy

•        Subsidy on Power Line 

•        Subsidy on Power Generating set

•        State Transport subsidy on Plant and Machinery 

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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Detailed Project Report on Bromelain Enzyme from Pineapple Stems

Pineapple extract contains proteolytic enzymes derived from the pineapple plant's flesh, also known as bromelain enzyme from pineapple stems. According to study, these enzymes have been discovered to have anti-inflammatory properties and to be advantageous to the digestive system, among other things. However, more research is needed to confirm these findings and determine how bromelain can be used to treat diseases or improve overall health. Bromelain is a protein-digesting enzyme found in pineapple stems and a wide range of other foods. It can be used as a supplement to help with sports injuries such as sprains and muscle tears. By lowering swelling and inflammation, it can help with rheumatoid arthritis and other inflammatory illnesses. It can also be used to aid digestion and alleviate indigestion or stomach discomfort. Chemically, it has been known since 1876, and Marcano was the first to identify it in 1891. Bromelain has been studied and isolated by scientists since 1894. In 1957, it was first utilised as a dietary supplement. Sulfhydryl proteolytic enzymes make up the majority of bromelain. Bromelain is widely used in the food and pharmaceutical industries, making it one of the best proteases of vegetable origin. Companies wishing to use it in Brazil, however, must import bromelain. Bromelain is a proteolytic enzyme that is used to treat inflammatory, blood-clotting-related, and malignant diseases of the oral cavity. Antiedematous, anti-inflammatory, antithrombotic, and fibrinolytic activity in vitro and in vivo are all therapeutic features of these enzymes. 1. When bromelain is introduced to dough during baking, it softens it by hydrolyzing gluten. It also increases the taste and quality of biscuits and bread. 2. Bromelain is used in the dairy industry to avoid casein condensation during the cheese-making process. 3. Bromelain is utilised in the meat sector to tenderise meat. 4. Bromelain is used in cosmetics due to its skin-lightening and regeneration characteristics. 5. Bromelain is also used in the pharmaceutical industry. This enzyme is used in many industries because of its proteolytic activity, which includes the ability to facilitate protein digestion and thus be used in digestive treatments, as well as the ability to soften meat. Pharmaceutical manufacturing, digestive system effects, and the substitution of pepsin and trypsin in the treatment of pancreatic insufficiency are all factors that contribute to its economic relevance. While the bromelain enzyme has a variety of health benefits, one of the most common uses is to treat sinus infections. Bromelain is an anti-inflammatory that helps you breathe easier by reducing swelling and pain in your nose. Bromelain also has antibacterial properties that aid in the battle against infection-causing germs in the sinuses. It can be combined with other sinus treatments like over-the-counter or antibiotic medications. Bromelain is predicted to reach a market value of $1154.4 million by 2027, according to Market Research Future (MRFR), with a CAGR of 4.39 percent. The bromelain market is expected to rise as more people become aware of its benefits and its widespread use in the treatment of cardiovascular problems. However, due to concerns over excessive Bromelain dosage and poor health effects, the market would encounter barriers and limitations over the forecast period. Bromelain market expansion will be aided by a better understanding of the health benefits of bromelain. Increasing awareness of Bromelain's health advantages is predicted to be a major driver driving Bromelain's market share throughout the forecast period. Bromelain can be used to treat a variety of conditions, including cardiovascular disease, excessive blood pressure, and others. In the pharmaceutical business, bromelain is used to treat puffiness, sinus difficulties, cardiovascular health, allergies, digestion issues, and a variety of other disorders. Bromelain is also employed in the cosmetics and personal care industry, as well as nutritional supplement makers, dairy processing facilities, the paper and leather processing industries, and confectioneries. The rise of the industry is tied to the pharmaceutical industry's increasing usage of Bromelain to prevent arthritis and other joint issues. Key Players: • Advanced Enzyme Technologies Ltd. • Anil Bioplus Ltd. • Anthem Cellutions (India) Pvt. Ltd. • Maps Enzymes Ltd. • Scorpio Biosolutions Pvt. Ltd.
Plant capacity: 8 MT Per DayPlant & machinery: 170 Lakhs
Working capital: -T.C.I: Cost of Project: 656 Lakhs
Return: 28.00%Break even: 63.00%
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Peanut Butter Manufacturing Business Plan

Peanut butter, also known as ground-nut butter or pindjur, is a culinary paste or spread made from ground dry roasted peanuts. To change the taste or texture, salt and sweeteners (honey, sugar) are regularly employed, as well as stabilisers (xanthan gum, lecithin). Peanut butter is popular in a wide range of countries and cultures. It can be used as a substitute for other nut butters like almond or cashew butter on breads, muffins, bagels, toast, and even sandwiches. Peanut butter is a spread or culinary ingredient made from ground dry roasted peanuts. Chemicals that modify the taste and texture, such as salt, sweeteners, and emulsifiers, are frequently added to make it more palatable; these components are usually listed on the label. Peanut butter, often known as groundnut butter or just PB, is a culinary paste or spread made from pulverised dry roasted peanuts. It usually has a lot of extra oil and salt in it. Peanut butter is commonly used in sweets and other dishes such as pancakes and spaghetti sauce, and it can be spread on toast or bread. It can also be used to make crackers and cookies, as well as being blended into smoothies and used as a sandwich filling. Peanut butter is a spread or paste produced from pulverised dry roasted peanuts and, on rare occasions, additional nuts such as hazelnuts or almonds. It is widely eaten as a snack with toast or crackers, as an appetiser with celery sticks, or as a component in many American recipes, including desserts and other dishes, where it often adds extra sweeteners and flavourings, especially sugar in the US, Canada, the UK, and Australia. Peanut butter is traditionally used as a sandwich spread, but its high lipid and protein content has made it a major component of ready-to-use therapeutic diets for treating malnutrition in children and AIDS patients, particularly in developing nations. Peanut butter, a smooth paste produced from ground roasted peanuts, has long been a staple in many households' kitchens. The paste is cooked with vegetables, pearled sorghum, and maize to make a variety of dishes, including side dishes. Peanut butter is used in sandwiches, the confectionery sector, and the bread industry, and 94 percent of consumers use it as a spread. • 74% of individuals use it in a sandwich on its own. • It's used by 71% of people in between meals. • 40 percent of the mixture is utilised in jelly meat sandwiches. • 32 percent of the total is made up of candies. • It is used as a flavouring in meals 25% of the time. Peanut butter is a high-protein, low-calorie, and nutrient-dense food. It's a healthier alternative to dairy butter and can be used as a bread spread. Peanut butter has a bigger market share in Western countries than it does in Asian countries like India, where it is still a relatively new product. Peanut butter is used as a spread and a milk butter alternative in a variety of recipes. When compared to other spreads, peanut butter has a low calorie and high protein content. Peanut butter consumption has several benefits, including the capacity to aid weight loss and provide adequate nutrition. Peanut butter powder is also available and can be used in morning meals, savoury sauces, and smoothies. In 2011-12, the Indian butter market was approximately INR 420 crore in terms of value. By the end of the projection period, cheese spread is expected to have reached a market value of 5473 metric tonnes. The peanut butter market is expected to grow at a rate of more than 10% from 2017-2018 to 2022-23. The India Peanut Butter market will be worth 3.3 billion dollars in 2023, with a CAGR of 13% between 2018 and 2023. The global peanut butter market is expected to grow substantially over the estimated period, owing to rising consumer demand for low-calorie nutritional foods. North America is estimated to contribute the biggest market share of all regions over the forecast period, followed by Europe. The United States is projected to contribute the greatest market share due to the high disposable income of North American consumers. Due to growing consumer disposable income in these countries, the peanut butter market in emerging economies such as Asia Pacific is predicted to grow at the quickest rate. From 2016 to 2024, the global peanut butter market is estimated to grow at a CAGR of 10.0 percent, reaching USD 6.73 billion. Key Player: • Dr. Oetker India Pvt. Ltd. • Innovative Foods Ltd. • Sampre Nutritions Ltd. • Sundrop Foods India Pvt. Ltd. • Veeba Food Services Pvt. Ltd.
Plant capacity: 10 Ton per dayPlant & machinery: 128 Lakhs
Working capital: -T.C.I: Cost of Project: 1038 Lakhs
Return: 30.00%Break even: 45.00%
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Production of White Fused Alumina

White fused alumina is an extremely pure type of aluminium oxide that may be utilised with both stainless steel and aluminium. Fusing high purity calcined alumina in electric arc furnaces produces white fused alumina (WFA). White Fused Aluminum Oxide is a fused aluminium oxide with a high purity. It's white because it has fewer impurities than brown or pink mixed aluminium oxide. Brown fused aluminium oxide has a higher friability than white fused aluminium oxide. Aluminum oxide is a wear-resistant, high-strength material that can withstand harsh chemical attacks (acid and alkali) at high temperatures. It has a toughness of 9 on the Mohs scale. White Fused Aluminum Oxide is a desirable material for a variety of applications due to its high refractoriness, excellent electrical insulating properties, dielectric capabilities, and high melting point. White Fused Alumina is made by combining different types of exceptionally pure calcined alumina in electric arc furnaces (WFA). WFA is a hard, friable raw material with a large crystal size, excellent purity, chemical stability, and a high melting point. It's ideal for refractory applications that require high purity, chemical stability, or refractoriness. • Polishing cloths and abrasive tape materials • Precision grinding wheels and high-class polishing grinding wheels (bearing steel, etc.) • Lapping materials made of metal, glass, crystal, semiconductor crystal, and other materials • Electrical insulating materials, high-quality refractory materials, and other goods The global White Fused Alumina market is predicted to increase at a CAGR of 2.2 percent between 2021 and 2026, from 447.8 million USD in 2020 to 522.4 million USD by 2026. The data is based on current as well as historical tendencies. This section also includes a research of worldwide production volume as well as production volume by kind from 2015 to 2026. The amount of output by region is discussed in this section from 2015 to 2026. Alumina is utilised in abrasives, ceramics, refractories, metallurgy, and a variety of other industries. During the projection period, ceramics is expected to increase at the fastest rate. Calcined alumina is utilised in the creation of complex ceramics. Because of its ease of combining with other formulations, strong electrical conductivity, ability to adjust particle size and distribution, low dielectric constant, high mechanical strength, and great corrosion resistance, calcined alumina is preferred as a substrate for ceramics manufacture. A range of physical and chemical approaches can be used to work with alumina components. The market classifications for fused, reactive, calcined, tabular, and metallurgical alumina are determined by the types of alumina. Metallurgical alumina was the most popular form of alumina on the market in 2018. The explanation given was increased demand for aluminium from a variety of end-use industries, including packaging, construction, transportation, and consumer durables. Furthermore, improvements in global macroeconomic growth rates, as well as favourable development forecasts for these industries, are expected to boost aluminium demand in the coming years. Key Players: • Almatis Alumina Pvt. Ltd. • Carborundum Universal Ltd. • Orient Abrasives Ltd.
Plant capacity: White Fused Alumina (Al203 -99.73% and Na20 -0.3%): 80 MT Per DayPlant & machinery: 977 Lakhs
Working capital: -T.C.I: Cost of Project: 2532 Lakhs
Return: 27.00%Break even: 52.00%
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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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A Complete Business Plan for Lithium Ion Battery (Battery Assembly)

In portable devices such as cell phones, tablets, laptops, and even electric cars, lithium ion batteries are the most extensively utilised power source. They're employed in these devices because they're light and have a high energy density, meaning they pack a lot of power into a tiny space. However, the process of making lithium ion batteries is complicated, and it might be difficult to ensure that each component is properly installed so that the batteries function properly later. For a variety of reasons, lithium ion batteries have grown extremely popular in recent years. They have a high discharge rate and may be used in a variety of applications, but they're especially popular because they don't contain heavy metals like mercury or cadmium, which were formerly used in battery technology. As a result, they are far more easily recycled than previous batteries. These batteries can also be recharged, allowing users to reuse them instead of throwing them away. Lithium-ion batteries are more expensive up front than other types of rechargeable cells, but they save money in the long run since they can be recharged multiple times before needing to be replaced. In fact, they have a longer life expectancy than other battery kinds. Lithium-ion batteries can be used as primary power sources for electronics and tools, as well as emergency backup power supplies, and even integrated into home solar or wind turbines. (1) Lithium-ion batteries are used in cameras and calculators. (2) They're found in cardiac pacemakers and other medical implants. (3) They're used in telecommunications, instrumentation, portable radios and televisions, and pagers. (4) Laptop computers, cell phones, and aerospace applications all use them. Advantages • More Compact Design: Li-ion batteries are smaller and lighter than traditional rechargeable batteries when compared to their capacity, and are thus used in portable consumer electronics devices where weight and form factor are important selling points. • High Energy Density: Li-ion batteries have a higher energy density than conventional rechargeable batteries. Lithium-ion batteries deliver a lot of power without being too bulky. • Lower Self-discharge and Longer Shelf Life: While compared to other rechargeable batteries, Li-ion batteries have a lower self-discharge rate of about 1.5 percent per month, allowing for a longer shelf life when not in use due to the slower drain. • Lower Memory Effect: The process of rechargeable batteries losing their maximum energy capacity due to frequent recharges after only being partially discharged is referred to as memory effect. • Fast Charging: Lithium-ion batteries charge faster than other rechargeable batteries including lead acid, nickel-metal hydride, and nickel-cadmium. • Longer Lifespan: Li-ion batteries have a longer life span than conventional batteries. Certain lithium ion batteries lose 30% of their capacity after 1000 cycles, but sophisticated lithium ion batteries retain their capacity even after 5000 cycles. • Low Maintenance: Lithium-ion batteries do not need to be maintained in order to function properly. • High Open-Circuit Voltage: Due to their chemistry, Li-ion batteries have a higher open-circuit voltage than other batteries such as lead acid, nickel-metal hydride, and nickel-cadmium. The India lithium-ion battery market is estimated to develop at a robust CAGR of 29.26 percent over the forecast period of 2018-2023. The Indian automobile sector is one of the country's most vital, contributing for around 7% of the country's GDP. In April-March 2017, the industry produced 25.31 million vehicles, including commercial, passenger, two- and three-wheeled vehicles, and commercial quadricycles, compared to 24.01 million in the same period last year. The Indian automobile sector is one of the country's most vital, contributing for around 7% of the country's GDP. In April-March 2017, the industry produced 25.31 million vehicles, including commercial, passenger, two- and three-wheeled vehicles, and commercial quadricycles, compared to 24.01 million in the same period last year. The Indian government is focusing on energy diversification and striving to achieve its lofty goal of 175 GW of renewable capacity by 2022. India's total solar PV capacity has topped 10 GW, an almost fourfold growth since May 2014 levels, with another 14 GW pipeline project knocking on the door and another 6 GW to be auctioned soon. Similarly, India's wind power capacity is expected to double to 185 GW by 2025, representing an eight-fold increase over 2015 and accounting for nearly 14% of the country's renewable energy demand. Large-scale renewable energy deployment in the country faces significant ramping and intermittency difficulties, which can be overcome by widespread use of lithium-ion batteries as energy storage devices.
Plant capacity: 150 Nos per dayPlant & machinery: 155 Lakhs
Working capital: -T.C.I: Cost of Project: 708 Lakhs
Return: 27.00%Break even: 63.00%
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PVC Edge Banding Tape Manufacturing Business

An edge band is a piece of trim that hides a finished or unfinished edge, such as on doors and windows. Both wood and metal-look edging can be replaced with a PVC edge band. It's highly durable and has a lovely textured finish, giving your home a high-end aesthetic for a reasonable price. Some of the advantages of using PVC edge banding tape in your home are listed below. When Should You Use PVC Edge Banding Tape? Edge banding is useful for a number of tasks around the house, including: Damaged or missing door casing can be replaced with PVC edge banding. Any window mouldings that look to be cheap should be replaced. Replace the carpets at the base of the baseboards. Simple doors can be made to look more appealing. To acquire an expensive interior designer style, you don't have to spend a lot of money. DIY tasks are a breeze when you use our all-purpose glue (Industrial Strength) for quick and permanent results. The outstanding double-sided tape comes in a large roll that may be used for a number of household tasks. It sticks well to drywall, wood, and other common household materials, so you may use it on almost any surface. Edge banding is a technique for increasing the durability and giving the illusion of a solid or more expensive material by covering the exposed edges of materials such as plywood, particle board, and MDF. Edge banding can be done with face frames or moulding. Edge banding can be made from a variety of materials, including PVC, ABS, acrylic, melamine, wood, and wood veneer. Traditional edge banding was a time-consuming process that required standard carpentry tools and supplies. In current applications, edge banding is applied to the substrate using an automated process that uses a hot-melt adhesive, particularly for high-volume, repeated production methods like cabinet doors. Some of the raw materials used in hot melt adhesives include EVA, PUR, PA, APOA, and PO. A substrate primer can be used as a bonding agent between the adhesive and the substrate. Thicker edge bandings normally require a slight concavity to establish a tight glue line. Thicknesses ranging from.018" to 5mm and beyond are possible. The equipment that applies the edge banding is known as an edge bander. Edge banders apply edge banding to the substrate, trim the leading and trailing edges, flush the top and bottom with the substrate, scrape any surplus, and polish the finished edge. PVC edge banding is the most popular choice for Pressure Laminated and Melamine Cabinets. As modern European cabinetry grows increasingly popular, cabinets with glossy or colourful finishes are becoming more common. PVC (polyvinyl chloride) edge banding is a thermoplastic resin that is both flexible and durable. Colors, textures, and wood grains are generated by blending pigments and other materials, giving edge banding an almost infinite range of colour, texture, and grain options. • The wooden bit isn't compatible with the tabletop or laminates, but the edge band is. • Compared to the hardwood bit, the PVC edge band is substantially less expensive. A hardwood bit's price is measured in running feet, while an edge band's price is measured in running metres. • The E3 edge band softens the edges of furniture. One metre = 3.2 feet. Sharp edges on other covers do not cut or hurt adults or small children. • There are no nails allowed. During bidding, a small portion of the nail may come loose and cause damage to the garments. There is no risk of injury with the E3 edge band because it is a nail-free device. • The least amount of adhesive is used for pasting. • The E3 edge band is more durable than a wooden bit, as well as being 100% recyclable and environmentally friendly. The India edge banding materials market is estimated to develop at an exceptional CAGR of 11% during the assessment period. More investments in India's construction sector, a significant increase in the number of residential building projects, technical advancements, expanded inventiveness in the interior design arena, and increased R&D activities are all contributing to market growth. In order to improve product quality and build a solid footing in the industry, leading players in the current India edge banding materials market are likely to focus on R&D initiatives. The edge banding materials market in India is expected to be valued more than US$ 140 million by 2030. The rapid rise of India's residential construction sector is likely to increase furniture demand. This is expected to increase demand for edge banding materials in India over the forecast period. The growing construction sector, particularly in developing regions such as Asia Pacific, particularly in India, is expected to provide considerable opportunities for current edge banding materials market participants. In growing countries, the residential sector is quickly expanding, resulting in increased demand for edge banding materials.
Plant capacity: PVC Edge Banding Tape(Size 22 mm, 50 mter, 1 mm Roll): 303,030 Meter Per DayPlant & machinery: 372 Lakhs
Working capital: -T.C.I: Cost of Project:1383 Lakhs
Return: 30.00%Break even: 47.00%
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Profitable Business of Lithium Ion Battery Pack

Two electrodes are separated by an electrolyte in a lithium ion (li-ion) battery. In almost all lithium-ion batteries, there are three layers: two electrodes (the cathode and anode) separated by a separator layer made of synthetic organic polymer material. The top electrode, the cathode, is negatively charged, while the bottom electrode, the anode, is positively charged. The separator acts as an insulator, preventing charges from freely travelling across the electrodes until electrons are pushed through it by a device or power source from one electrode to the next. A lithium iron phosphate (LFP) battery is a type of lithium-ion battery that can charge and discharge at high rates when compared to other types of batteries. It's a rechargeable battery with a LiFePO4 cathode, hence the name. A variety of properties distinguish lithium iron phosphate batteries, including: • Increased safety • Higher power density • Lower discharge rate • Flat discharge curve • Less heating • More charge cycles Lithium iron phosphate batteries differ from other lithium-ion batteries in that they may deliver a constant voltage and have a longer charge cycle, ranging from 2000 to 3000 cycles. LFP batteries are both environmentally friendly and structurally sound. They have a low energy density and a low discharge rate. In comparison to other batteries, they don't become hot readily and stay cool. Because the battery's composition prevents thermal runaway, it's considered safe for home use. Phosphate-based technology is more thermally and chemically stable than Lithium-ion technology created with other cathode materials, resulting in improved safety. Lithium phosphate batteries are incombustible in the event of charge or discharge mismanagement; they are more stable in overcharge or short circuit conditions, and they can withstand high temperatures without degrading. Lithium Iron Phosphate has a wide range of properties that allow for the production of a wide range of battery sizes, and it has found key applications in the following areas: 1) Large electric vehicles include buses, electric automobiles, tour buses, hybrid vehicles, and other attractions. 2) Light electric vehicles, such as electric bicycles, golf carts, tiny cars, forklifts, and electric vehicle cleaning wheelchairs Power tools include lawn movers, electric saws, and electric drills, to name a few. 4) Toys that can be controlled remotely, such as cars, boats, and planes. 5) Storage solutions for solar and wind energy. 6) Warning lights, UPS, miner's lamp, and other emergency lights 7) Small and portable medical equipment and devices. 8) Cell phones, laptops, camcorders, iPods, and other technological gadgets 9) Lithium ion batteries are used in a number of cutting-edge electric vehicles, notably the first of its kind, the Tesla Roadster. It takes around 3.5 hours to fully charge the 6831 lithium ion cells in this vehicle's batteries, which weigh half a tonne (1100lb). The lithium-ion battery market in India is expected to grow at a CAGR of 34.8 percent from 2019 to 2024. Factors like lowering lithium-ion battery prices and the emergence of new and exciting markets. Electric vehicles and energy storage systems (ESS) for commercial and residential applications are projected to propel the lithium-ion battery industry in India. The lack of major reserves needed for lithium-ion battery production is expected to pose a barrier to local production and the country's lithium-ion battery market. The increased use of electric vehicles in India is projected to enhance the need for Lithium (Li)-ion battery production. The most prevalent type of electrochemical energy storage is lithium-ion batteries. The principal electrolyte component in these rechargeable batteries is Li-ion. Lithium, as well as other minerals like cobalt, aluminium, and copper, must be procured and mined in order to manufacture Li-ion batteries. The Li-ion battery manufacturing process includes the fabrication of cell components (electrodes, electrolytes, and separators), cell and module production, battery pack assembly, and component integration. The Li-ion battery manufacturing industry in India is still in its infancy. However, the country has the potential to become a major producer of Li-ion batteries in the next years. The Li-ion battery manufacturing industry in India can be developed in three stages: stage one (2017 to 2020), stage two (2021 to 2025), and stage three (2020 and beyond) (2020 to 2050). From 2026 to 2030. The country's principal goal for stage one, which runs from 2017 to 2020, is to create a favourable industrial climate.
Plant capacity: Lithium Ion Battery Module Cap. 0.4 KWH 595.2 Module per day | Lithium Ion Battery Module Cap. 4.8 KWH: 48.8 Module per day | Lithium Ion Battery Module Cap. 5 KWH: 46.8 Module per day | Lithium Ion Battery Module Cap. 10 KWH: 23.4 Module per dayPlant & machinery: 36 Cr
Working capital: -T.C.I: Cost of Project: 50 Cr
Return: 27.00%Break even: 41.00%
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Start Malic Acid (Powder) Production Business

Malic acid, also known as L-malic acid, is a dicarboxylic acid that occurs naturally. D-malic acid, which can be made as a racemic combination of DL-malic acid, is another optically active isomer. Because of its high abundance in apples, malic acid is sometimes referred to as "apple acid." Humans, plants, and animals all create malic acid as part of their metabolic processes. Malic acid provides the carbon skeleton and energy required for amino acid synthesis in the Krebs and glyoxyl atecycles. Malic acid crystallises as white, translucent crystals from aqueous solutions that are anhydrous, non-hygroscopic (under normal conditions), and non-volatile, with a melting temperature of about 130°C. Its initial dissociation constant produces acidic characteristics that are strong enough in solution to provide a large hydrogen ion concentration while remaining mild enough to make an effective buffer solution. Because malic acid is anhydrous and non-hygroscopic, it can be stored for long periods of time in normal conditions without caking. Because of this property, final goods containing Malic Acid, whether in powder or granular form, have a long shelf life. Malic acid has a melting point of around 130°C, which is significantly lower than that of citric acid (153°C). This distinction is very intriguing and significant, particularly in the creation of hard candies. Malic acid has several uses in the culinary sector (beverages, sweets, chewing gums, jellies, jams, frozen confectionary), animal feed (pet food, pig acidifier combinations), metal treatment, metal plating, pharmaceutical and cosmetic industries, and building materials. Because of its buffering capability and ability to augment the efficacy of antimicrobial preservatives, malic acid is becoming more widely employed as a flavour enhancer in both liquid and powder drinks. Malic Acid is widely employed as a substitute for/or in combination with Citric Acid in beverage formulations due to its acidic taste, and so contributes significantly to increasing and strengthening the taste of the fruits tastes used. Because of its low melting point, Malic Acid is preferred over other acidulants in candies and sweets. This is especially important in hard candies, because the acid can easily be absorbed into the cooked syrup on the slab. Also, because the needed temperature is so low, caramelization and sugar inversion can be avoided. Malic acid is also utilised in effervescent and soft candies. Acidulants are used in a variety of desserts, including ices, sherbets, variegated ice creams, jelly dessert powders, milk puddings, and so on. The use of acidulants in the preservation of fruit and vegetables, whether fresh or canned, is critical. The pH of canned fruits and vegetables must be less than 5 during sterilisation in order to apply a light heat treatment (lower temperature and shorter treatment). The global malic acid market is predicted to grow at a CAGR of 5.0 percent from 2020 to 2025, with a market size of USD 182.6 million in 2020. Over the projected period, rising demand from the food and beverage industry to enhance flavour through speciality ingredients is expected to fuel industrial growth. In the coming years, the market is expected to be driven by rising demand for nutritional bars and protein drinks, as well as a growing preference for healthier functional beverages with high nutrient flavours. Furthermore, the market is expected to benefit from support from other regulatory authorities such as the Food Safety and Standards Authority of India (FSSAI) and the European Food Safety Authority (EFSA) over the projected period. Maleic anhydride and fumaric acid, both petroleum products, are the most common raw materials used to make malic acid. In addition, the utilisation of ecologically sustainable innovations such biomass feedstock is a crucial raw material trend that is expected to support industrial growth throughout the forecast period. Furthermore, the FDA's GRAS designation for malic acid is expected to boost commercialization for food-grade applications. Beverages, confectionary and food, and personal care and cosmetics are the three end-use categories in the global malic acid market. Non-carbonated and carbonated beverages, as well as flavoured drinks and alcoholic ciders, are included in the beverages category. The segment held the biggest market share and is expected to grow at a CAGR of 4.6 percent in revenue over the forecast period. The segment also dominated global demand, thanks to rising demand for liquid and powdered beverages, as well as artificial flavorants in carbonated beverages. Due to increase per capita disposable income in Asia Pacific's developing markets, confectionary and food, as well as personal care and cosmetics, are the most popular segments. Due to shifting eating patterns and dietary preferences, the confectionery and food category is expected to grow at a revenue-based CAGR of 5.6 percent over the forecast period. Because of the high demand for malic acid in end uses such as processed foods and hard candies, the segment accounted for a considerable revenue share in North America in 2018.
Plant capacity: 3.3 MT per dayPlant & machinery: 391 Lakhs
Working capital: -T.C.I: Cost of Project: 1285 Lakhs
Return: 12.00%Break even: 61.00%
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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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  • 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
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