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Business Ideas: Above 5 Crore (Plant and Machinery): Selected Project Profiles for Entrepreneurs, Startups

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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Azodicarbonamide Using Urea & Hydrazine Hydrate

Azolodicarbonamide, commonly known as ADCA, ADA, or azo(bis)formamide, is a chemical compound with the molecular formula C2H4O2N4. It's a crystalline powder that ranges in colour from yellow to orange-red and has no odour. It's also referred to as a "yoga mat" chemical because of its widespread use in foamed polymers. Biurea is produced in two stages by treating urea with hydrazine. Azoldicarbonamide is most typically employed as a blowing agent in the production of foamed polymers. During the thermal breakdown of azodicarbonamide, nitrogen, carbon monoxide, carbon dioxide, and ammonia gases are formed, and they are trapped in the polymer as bubbles to form a foamed product. Doughs created with ADA-treated flours are more cohesive and dryer than doughs made with chlorine dioxide. These dried doughs are more resistant to absorption, retain more gas, and have better machining properties. Bread baked with ADA-treated flour has a higher loaf volume, a better grain texture, and a better exterior look. Azolodicarbonamide had no influence on the onset of rancidity in flour. Natural or supplemented vitamins are unaffected by Azoldicarbonamide. The global azodicarbonamide market is expected to grow over the forecast period due to rising demand for high-quality plastic and rubber parts for everyday use. It is used in the chemical industry for a variety of purposes, including strengthening, softening, and imparting flexibility to the substance with which it is mixed. It's commonly utilised in the production of foam-based plastics including toys, sports shoes, shoe soles, and floor mats. Azodicarbonamide is a crystalline powder that has a yellow to orange red colour, is odourless, and has a yellow to orange red colour. It's used as a foaming agent, a blowing agent, and a food additive, among other things. Yoga mats, for example, are generally made of rubber and plastic. Bakers utilise it as a commercial whitening conditioner for bread dough as a result. It's used as a blowing agent in plastics, synthetic leather, and other industries. The reaction temperature of pure azodicarbonamide is usually around 200 °C. When used for plastics, leather, and other applications, it has additives that intensify the reaction or allow it to react at lower temperatures. As a food ingredient, it's utilised as a flour bleaching agent and a dough conditioner. As an oxidising agent, it reacts with damp flour. Two further reaction products are semicarbazide and ethyl carbamate. Few Indian Major Players 1. Demaco Polymers Ltd. 2. H P L Additives Ltd. 3. Haryana Polymers Ltd.
Plant capacity: Azodicarbonamide Powder 40 MT Per Day Ammonia 10.6 MT Per Day Hydrochloric Acid (38% Conc.) 20.1 MT Per DayPlant & machinery: Rs. 1951 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 3109 Lakhs
Return: 25.00%Break even: 50.00%
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Production of Printed Circuit Board (PCB) Multilayer

Nearly a century ago, the PCB, or Printed Circuit Board, was conceived as a method to avoid these intricate wirings. Electric components on the PCB are connected via copper rails constructed by hand or designed in the computer using various methods. It also provides mechanical support and layer isolation for the components. Between two or more etched and laminated copper sheets on the PCB, a non-conductive substrate serves as an isolation layer. The most popular types of PCBs are single-layer, double-layer, and multi-layer. Any electronic or electrical device's foundation is the printed circuit board (PCB). A PCB connects electronic components such as resistors, capacitors, coils, pots, diodes, FETs, transistors, ICs, and transformers to make a complete electronic circuit. Electrical equipment in today's world would be impossible to imagine without a PCB. PCBs help to reduce the size and efficiency of electronic equipment by providing connectivity between electronic components. Printed circuit boards are divided into two categories: single layer PCBs and multi-layer PCBs. To mechanically support and electrically link electrical or electronic components, a printed circuit board (PCB) uses conductive rails, pads, and other features etched from one or more sheet layers of copper bonded onto and/or between sheet layers of a non-conductive substrate. To link components electrically and mechanically, they are frequently soldered to the PCB. The Printed Circuit Board market is estimated to grow at a CAGR of 5.3 percent from 2021 to 2026, reaching $72.3 billion. Printed circuit boards (PCBs) are the foundation of almost all modern electronic devices. Transistors, resistors, PLCs, electrolytic capacitors, and integrated circuits are all connected by printed paths on PCBs. The PCB is used in automotive applications such as power relays, antilock brake systems, digital displays, audio systems, engine timing systems, battery control systems, and more. Printed circuit boards are used in a variety of ways in the automotive industry, and they have changed the way people drive. The need for PCBs is increasing as more vehicle owners and drivers seek extra accessories. A automobile or truck's printed circuit board must be highly sturdy and reliable. Few Indian Major Players 1. Anand Electronics &Inds. Pvt. Ltd. 2. B L G Electronics Ltd. 3. Centum Electronics Ltd. 4. Epitome Components Pvt. Ltd. 5. Frontline Electronics Ltd. 6. Hi-Rel Components (India) Ltd. 7. Infopower Technologies Pvt. Ltd.
Plant capacity: Standard Printed Circuit Board (FR4, HDI, High-TG, Thick Copper and Halogen-free) 60Sq.Mt. Per DayPlant & machinery: Rs. 1258 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 1894 Lakhs
Return: 26.00%Break even: 50.00%
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Residential Apartments

Residential apartments are a type of housing with a lot of room for expansion. The name "house" is a little misleading. The meaning of the word "same" has evolved over time and between countries. The Indian census of 1981 used the following definition. Distinct classes of individuals have different housing needs, which are dictated by the individual's financial and social standing. A affluent family, for example, may desire a magnificent structure, whilst a poor family may be content with a single room residence. A typical residential bungalow building has a drawing room, dining room, office, guest room, kitchen, store, pantry, dressing room, bathroom, front verandah, and stairs, among other features. Depending on the demands of many available, the number of rooms in other residences can be lowered. Flat Essentials – - 24-Hour Security – All security-related services should be provided to make life in a residential apartment safe. - Multi-level Parking - This decreases the amount of space needed in the park to park cars and other vehicles. - Central air conditioning - Depending on the project area's environment and weather, this may be available. The residential complexes, which are built on large lands and have a well-developed infrastructure to enhance living style, include power backup, the latest firefighting devices, auto door elevators, freight lifts, Earthquake resistant building, 24-hour water supply, and auto elevators. Suburbs have sprung up in recent years as a result of the city's growing population, housing shortages, and overcrowding. To alleviate the housing issue and provide a greater standard of living for all members of society, residential zones are now being developed. Residents who live in apartments have the feeling of living in the country while yet having access to all of the city's amenities. One of the key advantages of investing in these projects over investing in the city is the cheap cost of entry. The majority of projects are being constructed outside of the city centre, giving the developer a land cost advantage. These are considered a low-risk investment with a larger upside potential due to their diversification and low entry cost. Few Indian Major Players 1. A S V Constructions Pvt. Ltd. 2. B Engineers & Builders Ltd. 3. Cybercity Builders & Developers Pvt. Ltd. 4. D L F Builders & Developers Pvt. Ltd. 5. Era Housing & Developers (India) Ltd. 6. Futuretech Constructions & Precast Pvt. Ltd. 7. G K S Housing Ltd. 8. International Biotech Park Ltd.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: Cost of Project: Rs. 13771 Cr.
Return: 8.94%Break even: 0.89%
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Production Business of Ethanol from Maize

Ethanol is frequently manufactured via fermentation from biological feedstocks. Throughout these processes, monosaccharides are fermented to ethanol by yeast or bacteria. Carbohydrate-containing feedstocks that create monosaccharides for fermentation include corn grain, sugarcane, wheat, sugar beet, and other biomass. Ethanol, usually referred to as ethyl alcohol, drinking alcohol, or grain alcohol, is a colourless, flammable, and mildly toxic chemical compound present in alcoholic beverages. In ordinary speech, it is frequently referred to as "alcohol." Its chemical formula, as well as its empiric name, include EtOH, CH3CH2OH, and C2H5OH. Since prehistoric times, carbohydrates have been fermented to make ethanol. This method still produces all of the ethanol for drinking and more than half of the ethanol used in industry. Simple sugars are the raw material. Simple carbohydrates are converted to ethanol and carbon dioxide by the yeast enzyme zymase. Alcoholic liquids such as beer, wine, and spirits contain ethanol when diluted. It is used as a topical ingredient in pharmaceutical preparations (such as rubbing compounds, lotions, tonics, and colognes), cosmetics, and perfumes to prevent skin infections. Ethanol is used in fuels labelled as ethanol blended fuels as an industrial solvent for fats, oils, waxes, resins, and hydrocarbons. It is used to make a variety of chemical compounds, lacquers, plastics and plasticizers, rubber and rubber accelerators, aerosols, mouthwash products, soaps and cleaning preparations, polishes, surface coatings, dyes, inks, adhesives, preservatives, pesticides, explosives, petrol additives/substitutes, elastomers, antifreeze, yeast growth medium, human and veterinary medicines, and dehydrating agents. One of the most promising ethanol crops is maize. It generates maize grain, which is then converted to ethanol. Maize ethanol holds potential not only in terms of converting the grain to ethanol, but also in terms of applying cellulose conversion technology on the pericarp that covers the grain. Pretreatment and hydrolysis of cellulose allow cellulose conversion to be extended to other parts of the maize plant, such as corn Stover (cobs, stalks, and leaves). Significant increases in ethanol yield per acre of corn produced can be achieved if biomass from maize residue is utilised for ethanol production. To solve this difficulty, a quantitative analysis of mass balance was carried out. Corn cobs, stalks, and leaves can be converted to fermentable sugars using cellulose processing technology, which comprises pretreatment, hydrolysis, and fermentation with yeast or other microbes. Unlike grain-based feedstocks, cellulose-based ethanol requires microorganisms capable of producing ethanol from both glucose and xylose. Corn grain has a lot of starch, which following pretreatment (heating in water) and hydrolysis quickly breaks down into monosaccharides. Cecanis, a distinct form of glucanis, can also be found in the cob, stem, and leaves. The India ethanol market is predicted to grow from $ 2.50 billion in 2018 to $ 7.38 billion by 2024, with a CAGR of 14.50 percent from 2019 to 2024, owing to growing ethanol usage in sectors such as fuel additives and drinks. Ethanol is a common alcoholic beverage that comes in many different forms, including beer, cider, wine, spirits, and ale. The Indian government is pushing sugar producers in India to generate ethanol for Oil Marketing Companies in an attempt to reduce the country's reliance on imported crude oil (OMCs). Ethanol production will likely increase three to fivefold in the future to meet demand for its 20% Fuel Blending Program (FBP). Factors like as rising alcohol use, changing lifestyles, and the growing influence of western culture are projected to drive ethanol demand in the country. Few Indian Major Players 1. A K C Developers Ltd 2. Bharat Renewable Energy Ltd. 3. Costal Energy Ltd. 4. First Energy Pvt. Ltd. 5. K B K Chem-Engineering Pvt. Ltd. 6. P S A Nitrogen Ltd. 7. Rattan Industries Ltd.
Plant capacity: Ethanol 60 KLtrs per day Plant & machinery: Rs. 49 Cr.
Working capital: -T.C.I: Cost of Project: Rs. 80 Cr.
Return: 24.00%Break even: 48.00%
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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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Start Production Business of Industrial Enzymes used in Textile, Poultry and Paper Pulp Industries

Enzymes are excellent catalysts because they are very selective and may be used in a number of situations. By combining the right enzymes with genetic engineering, enzyme companies have created proteins that can work in harsh process settings including those involving solvents, salts, and high temperatures. The global market for industrial enzymes is currently worth $1.8 billion per year and growing at a rate of more than 20% per year. Industrial enzymes are used in a variety of industries, such as pharmaceuticals, chemical manufacture, biofuels, food and beverage, and consumer goods. Thanks to recent advancements, biocatalysis employing isolated enzymes is currently considered more cost-effective than using complete cells. To extract biologically active enzymes, any living creature can be employed. Fungi account for more than half of the hundred enzymes utilised in industry, with bacteria, mammals (8 percent), and plants accounting for the rest (4 percent). The bio industrial industry in India, which is mostly made up of enzyme companies, contributes about 5% of the country's GDP and is valued at Rs. 3,950 million, with a 5.33 percent growth rate. Novozyme, India's market leader for industrial enzymes, is constructing a new R&D centre in Bengaluru. The United States, Canada, and China continue to supply India with 70% of its enzyme needs. Only Enzyme-Based Detergents At the moment, proteases and amylases are commonly used. Granulates with a dust-free inner core containing inorganic ions (e.g. NaCI) and sugars as a preservative, bound with reinforcing, carboxy methyl cellulose or similar protective colloid. This core is subsequently covered with inert waxy materials like paraffin oil or polyethylene glycol, as well as different hydrophilic binders, which are washed away. Enzymes' Function in the Dairy Industry Lactose is found at a concentration of 4.7 percent (w/v) in milk. Its presence in milk renders milk unsuitable for the vast majority of the world's adult population. Lactose has a limited solubility, which leads to crystal formation. Hydrolyzing lactose, which generates a product that is four times sweeter and considerably more soluble, can fix these problems. Lactase (ß-galactosidase) is a lactose hydrolyzer. Enzymes are used in the fruit juice, wine, brewing, and distilling industries. Because of the presence of pectins, cloudiness is a major issue in the preparation of fruit juices and wines. The majority of them are -1,4-anhydrogalacturonic acid polymers with varying degrees of methyl esterification. The Leather Industry and Enzymes One of the oldest applications of industrial enzymes is the processing of hides and skins for leather. Soaking, bating, and enzyme-assisted dehairing are presently the most common uses for protease and lipases. The enzyme demand is computed using India's growth rate, which is significantly larger than the output. Enzymes originating from fermentation sources account for about 80% of the whole market, according to a study. Bacterial alkaline proteinases were the most used enzyme in detergents. Microbial proteinases accounted for 40% of the whole market, whereas gylcosidases accounted for roughly 20%. Glucose isomerase was the most popular non-hydrolase product, accounting for 6% of the overall market. Detergents and starch make for around 30% of sales, with dairy processing accounting for the remaining 15%. The industrial enzyme market is fast growing since most enzymes are produced by microorganisms in submerged cultures employing biotechnology. Growing enzyme use in existing application areas, enzyme use in new industrial processes, strict enforcement of environmental rules, and cost savings were all major drivers of this sector's rise in India. Industrial enzymes had a market value of USD 4.61 billion in 2016, and it is predicted to grow at a CAGR of 5.8% from 2017 to 2022. Thanks to the country's booming food processing, tannery, and textile manufacturing industries, India's industrial enzymes market is predicted to approach US$ 361 million by 2020. Industrial enzymes are used in a variety of industries, including food and beverage, household care, animal feed, leather manufacturing, textile processing, pharmaceuticals, and others. Industry Major Market Players • Novozymes • BASF SE • DSM • DuPont Danisco • Associated British Foods plc • Adisseo • Novus International • Advanced Enzyme Technologies • Chr. Hansen Holding A/S • Enzyme Development Corporation • Lesaffre
Plant capacity: 300 MT Per AnnumPlant & machinery: 633 Lakhs
Working capital: -T.C.I: Cost of Project: 959 Lakhs
Return: 1.00%Break even: N/A
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Pre-Feasibility Report for Production Linear Alkyl Benzene Sulphonic Acid

Linear alkyl benzene sulphonic acid is the most extensively used synthetic surfactant due to its inexpensive cost, good performance, ability to be dried to a stable powder, and biodegradable environmental friendliness. An anionic surfactant, LAB Sulphonic Acid is extensively used in the manufacturing of household detergent powders, cake and dishwashing cleaners. Linear alkyl benzene sulfonic acids are complex mixtures of homologues of different alkyl chain lengths (C10 to C13 or C14) and phenyl positional isomers of 2 to 5-phenyl in proportions dictated by the starting materials and reaction conditions, each containing an aromatic ring sulfonated at the para position and attached to a linear alkyl chain at any position except the terminal one (1-phenyl). The physical and chemical properties of linear alkyl benzene sulfonic differ depending on the length of the alkyl chain, resulting in formulations for a variety of applications. LAS is the most extensively used synthetic surfactant due to its inexpensive production cost, outstanding performance, and ability to be dried to a stable powder. It's also biodegradable and safe for the environment. More than 80% of the time, LAS is used in the manufacturing of detergents. In textile production, it can also be employed as a wetting or dispersion agent. LAS can be used in both acidic and alkaline formulations and is available in liquid and powder form. It's also compatible with other surfactants. Because of its biodegradability and compatibility with other surfactants, LAS is an excellent candidate for detergent production. It can be mixed with other non-ionic and cationic surfactants to improve the cleaning ability of detergents. • HI&I (High-Intensity and Low-Intensity • Industrial auxiliaries • Oil fields • Agriculture • Emulsion polymerization • Metalworking • Paints & coatings • Laundry detergents An increase in demand for liquid detergents in various end-use industries such as food & beverage, textiles, and household across the globe is driving the global linear alkyl benzene sulfonic acid market. Linear alkyl benzene sulfonic acid has excellent foaming properties and helps remove stains by reducing the surface tension of the water. Other surfactants, such as alcohol ether sulphates (AES), compete with linear alkyl benzene sulfonic acid because they are more enzyme compatible, have a higher hard-water tolerance, and are softer. These factors are predicted to stymie the global market during the forecasted years. On the other hand, manufacturers of linear alkyl benzene sulfonic acid are likely to benefit from high AES prices and a scarcity of supply. Based on application, the market is split into Detergent, Emulsifier, Coupling Agent, and Agricultural Herbicides. Detergent Surfactants like linear alkylbenzene sulfonic acid can be found in laundry detergents and powders. It dissolves in water and forms foam, which helps remove dirt from garments by forming a lather. The primary purpose of adding Linear Alkylbenzene Sulfonic Acid to a detergent is to improve cleaning performance and extend the time a stain remains on garments. Emulsifier In detergents, LABSA (Linear Alkylbenzene Sulfonic Acid) is a synthetic emulsifier and wetting agent. Pharmaceuticals, food processing, oilfield chemicals, and water treatment chemicals are among the industries where it can be employed to improve product performance. Linear alkyl benzene sulfonic acid is used in pharmaceuticals, food processing, oilfield chemicals, and water treatment chemicals to improve the performance of their products. Coupler's Agent Alkylated phenols, such as octylphenol ethoxylates and nonylphenol ethoxylates, are mixtures of branched-chain tertiary alcohols with seven to nine carbon atoms and the formula: where R is a branched alkyl or alkenyl group, and the Linear Alkylbenzene Sulfonic Acid in Coupling Agent is used to make them. Nonionic surfactants created with linear alkylbenzene sulfonic acid include nonylphenol polyethylene glycol ethers (NPEs), octylphenol polyethylene glycol ethers (OPEs), and dodecyl phenol-polyoxyethylene(20)glycol ether. Agricultural Herbicides To control weeds, linear alkylbenzene sulfonic acid is utilised in agricultural herbicides. It's made from petroleum, shale oil, or coal tar, and it's used to make a range of different chemicals, including pesticide esters. It can be used to get rid of weeds in a field or on concrete surfaces, as well as to keep harmful plants from growing. Its active ingredient, sodium dodecylbenzene sulfonate (LABSA), destroys plant roots while also preventing them from sprouting in the future. The global Linear Alkyl Benzene Sulphonic Acid market was valued at USD 3606.9 million in 2020, and it is expected to grow at a CAGR of 3.5 percent from 2021 to 2027, reaching USD 4601.4 million by 2027. There are two forms of LABSA: LABSA 96 percent and LABSA 90 percent. As a result of LABSA's washing function, downstream application industries will require more LABSA goods. As a result, LABSA has a large market potential in the future. Manufacturers are attempting to enhance technologies in order to create LABSA with high purity and performance. Industry Major Market Players • CEPSA • Sasol • KAPACHIM • Stepan • SK • Fogla Group • New India Detergents • ISU Chemical • Solvay • Dada Surfactants • Huntsman • Kao • Tufail • Hansa Group • Miwon Chemical • NCSP • FUCC • Lion • Ho Tung • Nanjing Gige
Plant capacity: 60 MT Per DayPlant & machinery: 550 Lakhs
Working capital: -T.C.I: Cost of Project: 5190 Lakhs
Return: 27.00%Break even: 58.00%
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Manufacturing Business of Double Wall Corrugated Pipes | Great Investment Opportunity

The material used to create double wall corrugated (DWC) pipes is high-density polyethylene (HDPE). They feature a smooth inner wall and an outside wall with corrugations. The pipe's corrugations provide it strength and stiffness, and its smooth inner wall improves water flow. The sizes, lengths, and thicknesses of DWC pipes vary. DWC (double wall corrugated) pipes are a sturdy and long-lasting option for irrigation systems. DWC pipes are constructed from two layers of high-density polyethylene (HDPE), one of which is corrugated and the other of which is smooth. Superior strength and flexibility are provided by this design, which also offers defense against damage from root incursion. If you wish to create your own sprinkler system or even utilize it as part of a bigger commercial application, DWC pipes work well in both gravity flow and pressure flow applications. Longevity is a hallmark of these pipes. To meet your demands, DWC pipes come in a range of sizes and lengths. Because they have an air space that acts as insulation against freezing water, which can lead to pipe breaks, WC pipes are great for protecting against frost. To boost strength and resistance to abrasion when buried underground, the interior of the pipe is ribbed. An underground drainage system using double wall corrugated (DWC) pipes is intended to remove extra water from the area around your property. It is an eco-friendly product that combines steel's tensile strength with plastic's resistance to corrosion. The pipe's corrugations provide it stiffness and strength, and its smooth inner layer facilitates simple water movement. Uses and Application 1. Double wall corrugated (DWC) pipes are best for irrigation systems that are buried underground. 2. DWC pipes are strong and corrosion-resistant due to their high-density polyethylene (HDPE) construction. 3. DWC pipes have a smooth inside surface that promotes greater water flow and less clogging. 4. To match your needs, DWC pipes come in a range of sizes and lengths. 5. Double wall corrugated pipe can be purchased in rolls or sections, making it simple to use on your own land. 6. Weep holes are constructed into the interior of a DWC pipe to help minimise pooling, stop roots from sprouting inside the pipe, and lessen clogs at low areas in the ground. 7. DWC pipes are seamless and available in black, grey, white, green, and blue, among other hues. 8. A variety of soil types, including clayey soils, sandy soils, salty soils, and loamy soils, can be drained using DWC pipes. 9. Despite being built of HDPE, they are not fragile, making it simple to cut them using hand tools like hacksaws. 10. In fact, most sectors, including breweries, use these pipes due to their longevity in their applications. 11. These pipes are affordable and quite simple to install. Indian Market Over the projection period, it is anticipated that the market for double wall corrugated pipes will expand at a CAGR of 5.5%. (2019-2024). the necessity for affordable and long-lasting piping systems, as well as the rising need for water and wastewater management, are the main factors driving this industry. The need for double-wall corrugated pipes is rising across a variety of industries, including construction, water treatment, municipal drainage, and others, which is what is driving the market expansion. One kind of plastic pipes created from high-density polyethylene is HDPE double-wall corrugated pipe. It is appropriate for application in a variety of industries, including the oil and gas, chemical, food processing, and beverage processing industries, thanks to its outstanding chemical and temperature resistant capabilities. Due to HDPE's exceptional flexibility, it can be installed in confined locations where other piping materials cannot. Industry Major Market Players: 1.Jain Irrigation Systems 2.POLIECO 3.ADS 4.KUZEYBORU 5.Corma Inc. 6.TIJARIA 7.Bina Plastic Industries Sdn Bhd 8.Euro EM 9.Pars Ethylene Kish 10. RESINTECH 11. WEIDA 12. HEBEISH 13. REHAU 14. VESBO 15. JM Eagle 16. Junxing Pipe Group 17. Rong Long Building Materials, 18. Oregon Plastic Tubing, 19. Contech Engineered, 20. Dura-Line (Audax Group), 21. Plasson USA, 22. WL Plastics, 23. Chevron Phillips Chemical, 24. Crumpler Plastic Pipe,
Plant capacity: Double Wall Corrugated Pipes:20 MT Per DayPlant & machinery: 449 Lakhs
Working capital: -T.C.I: Cost of Project:1271 Lakhs
Return: 27.00%Break even: 49.00%
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Manufacturing Business of Double Wall Corrugated Pipes Great|Investment Opportunity

The material used to create double wall corrugated (DWC) pipes is high-density polyethylene (HDPE). They feature a smooth inner wall and an outside wall with corrugations. The pipe's corrugations provide it strength and stiffness, and its smooth inner wall improves water flow. The sizes, lengths, and thicknesses of DWC pipes vary. DWC (double wall corrugated) pipes are a sturdy and long-lasting option for irrigation systems. DWC pipes are constructed from two layers of high-density polyethylene (HDPE), one of which is corrugated and the other of which is smooth. Superior strength and flexibility are provided by this design, which also offers defense against damage from root incursion. If you wish to create your own sprinkler system or even utilize it as part of a bigger commercial application, DWC pipes work well in both gravity flow and pressure flow applications. Longevity is a hallmark of these pipes. To meet your demands, DWC pipes come in a range of sizes and lengths. Because they have an air space that acts as insulation against freezing water, which can lead to pipe breaks, WC pipes are great for protecting against frost. To boost strength and resistance to abrasion when buried underground, the interior of the pipe is ribbed. An underground drainage system using double wall corrugated (DWC) pipes is intended to remove extra water from the area around your property. It is an eco-friendly product that combines steel's tensile strength with plastic's resistance to corrosion. The pipe's corrugations provide it stiffness and strength, and its smooth inner layer facilitates simple water movement. Uses and Application 1. Double wall corrugated (DWC) pipes are best for irrigation systems that are buried underground. 2. DWC pipes are strong and corrosion-resistant due to their high-density polyethylene (HDPE) construction. 3. DWC pipes have a smooth inside surface that promotes greater water flow and less clogging. 4. To match your needs, DWC pipes come in a range of sizes and lengths. 5. Double wall corrugated pipe can be purchased in rolls or sections, making it simple to use on your own land. 6. Weep holes are constructed into the interior of a DWC pipe to help minimise pooling, stop roots from sprouting inside the pipe, and lessen clogs at low areas in the ground. 7. DWC pipes are seamless and available in black, grey, white, green, and blue, among other hues. 8. A variety of soil types, including clayey soils, sandy soils, salty soils, and loamy soils, can be drained using DWC pipes. 9. Despite being built of HDPE, they are not fragile, making it simple to cut them using hand tools like hacksaws. 10. In fact, most sectors, including breweries, use these pipes due to their longevity in their applications. 11. These pipes are affordable and quite simple to install. Indian Market Over the projection period, it is anticipated that the market for double wall corrugated pipes will expand at a CAGR of 5.5%. (2019-2024). the necessity for affordable and long-lasting piping systems, as well as the rising need for water and wastewater management, are the main factors driving this industry. The need for double-wall corrugated pipes is rising across a variety of industries, including construction, water treatment, municipal drainage, and others, which is what is driving the market expansion. One kind of plastic pipes created from high-density polyethylene is HDPE double-wall corrugated pipe. It is appropriate for application in a variety of industries, including the oil and gas, chemical, food processing, and beverage processing industries, thanks to its outstanding chemical and temperature resistant capabilities. Due to HDPE's exceptional flexibility, it can be installed in confined locations where other piping materials cannot. Industry Major Market Players: 1.Jain Irrigation Systems 2.POLIECO 3.ADS 4.KUZEYBORU 5.Corma Inc. 6.TIJARIA 7.Bina Plastic Industries Sdn Bhd 8.Euro EM 9.Pars Ethylene Kish 10. RESINTECH 11. WEIDA 12. HEBEISH 13. REHAU 14. VESBO 15. JM Eagle 16. Junxing Pipe Group 17. Rong Long Building Materials, 18. Oregon Plastic Tubing, 19. Contech Engineered, 20. Dura-Line (Audax Group), 21. Plasson USA, 22. WL Plastics, 23. Chevron Phillips Chemical, 24. Crumpler Plastic Pipe,
Plant capacity: Double Wall Corrugated Pipes:20 MT Per DayPlant & machinery: 449 Lakhs
Working capital: -T.C.I: Cost of Project:1271 Lakhs
Return: 27.00%Break even: 49.00%
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Setting Up Mini Steel Plant (Billets and TMT Bar)

An integrated steel mill, which creates and refines iron and steel, is scaled down to create a micro steel factory. Due to its lower investment costs and flexibility, the micro steel plant, a novel idea in the steel industry, has gained appeal recently. Mini steel plants come in a wide variety, each with unique benefits and drawbacks. Concrete, blocks, bars, tools, angles, girders, pipes, gears, and technical items can all be made using steel long products. Steel is the collective name for a class of ferrous metals that are the most practical metallic materials that have ever existed due to its availability, durability, adaptability, and low cost. Plain carbon and mild steel is typically used in civil and allied work, and the majority of the carbon steels employed have tensile strengths of between 36 and 40 t/in2. The characteristics of steel are primarily governed by its carbon content. Due to its affordability in meeting general requirements, reasonably high strength, and other features like yield point, elongation, and reduction percentages, etc., a 0.40% carbon steel is of utmost importance. An integrated steel mill is substantially larger than a tiny steel plant, which is a facility used to produce steel. They often employ local labor and raw materials and are situated in rural areas. The building sector often uses the final goods. With equipment costing roughly $1 million of that total, it may be put up for as little as $2 million. In contrast to a large-scale operation, a tiny steel plant produces steel on a smaller scale. These factories are often built to produce a particular kind or assortment of steel items. Uses and Application The tiny steel plant is a flexible tool that may be applied to numerous tasks. Cutting rebar, angle iron, square tubing, pipe, and flat stock, as well as punching holes in steel plate, are some of its most popular uses. The tiny steel plant can also be used to cut custom forms out of sheet metal and shear plate and bar stock. This machine is a great investment for any fabrication firm thanks to its versatility. A tiny steel plant has a variety of applications. 1. Small steel goods like nails, screws, and other fasteners can be made using it. 2. It can be utilized to make bigger products for construction projects, like beams and columns. 3. Mini steel plants are frequently used to test new manufacturing techniques or prototype new designs. 4. Scrap metal can be processed using it to create brand-new, useful steel. 5. Custom metal goods can also be made with it and used in a range of sectors. 6. Mini steel plants are adaptable and can be customized to your company's unique requirements. There are several uses for these items, including: 1. Construction. 2. Manufacturing 3. Automotive A tiny steel plant can enable you to produce high-quality steel products and is an excellent way to break into the steel sector. Indian Market By 2025, the size of the world's steel market is anticipated to be $1.01 trillion, growing at a CAGR of 2.6%. Steel demand in prospective residential projects and industrial infrastructure is being driven by contractors' growing preference for affordable, durable, and environmental building materials. Steel products are utilized extensively in a variety of end-use industries, including construction, automotive, oil & gas, shipbuilding, and electrical & electronics, due to its high strength and long-lasting mechanical qualities. To meet application-specific requirements, a wide range of steel grades are produced utilizing two typical production techniques, namely the blast furnace-basic oxygen furnace (BF-BOF) and electric arc furnace (EAF). The excess caused by the expansion of production capacity by key players, antidumping tariffs, and escalating trade restrictions in a number of nations are the major challenges facing the worldwide market for steel goods. The trade conflict between the US and China is also anticipated to have an impact on market expansion throughout the forecast period. The global market for steel products is anticipated to rise as a result of the construction industry's recovery in developed and emerging nations alike. Currently, there is a transition taking place in the Indian steel sector. In the upcoming years, the country's demand for steel is anticipated to rise as a result of infrastructure improvement and expansion in the building and automotive industries. Industry Major Market Players: 1.Rashtriya Ispat Nigam Limited (RINL) 2.VISA Steel 3.Essar Steel 4.TATA Steel 5.JSW Steel 6.Bhushan Steel 7.MESCO Steel 8.FACOR Steel 9.Steel Authority of India Limited (SAIL) 10.Jindal Steel and Power
Plant capacity: Steel Billets:150 MT Per Day (Size 100mm x 100mm to 180mm x 180 mm Sections of Max. 6 meter length)TMT Steel Bars (Rebar):150 MT Per Day (Size DB 8 to 40 mm) Plant & machinery: 5445 Lakhs
Working capital: -T.C.I: Cost of Project:10417 Lakhs
Return: 28.00%Break even: 37.00%
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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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