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Sugar Production, Sugarcane Processing and Byproducts, Sugarcane Industry Waste Utilization, Growing, Milling, Refining, Sugarcane Bagasse, Sugarcane Juice, Sugarcane Molasses, Jaggery, Ethanol

Sugarcane is one of India's most important agricultural industries, with Uttar Pradesh producing more than 70% of the total. While most people don't think of sugar cane as a good crop to grow because of its negative reputation as a horrible meal, that isn't always the case. Sugarcane has been used as a fuel alternative in various countries, and its medicinal properties are well-known around the world; nevertheless, it can also be used for industrial and commercial purposes. Sugarcane, on the other hand, is a hardy plant that grows quickly, requires little maintenance, and thrives in poor soil. You might be perplexed as to how a single plant can bring so many advantages.


Sugarcane Processing and Byproducts:

Sugarcane is processed in a variety of ways depending on its intended use. It can be processed into raw or white sugar crystals for use in food and beverages, or it can be processed into molasses in various forms for use in other goods such as rum, beer, and animal feed. In addition to these uses, sugarcane can be dried and used as animal feed. Both processing methods have several steps, as one might expect from a product with so many uses. Sugarcane is a tropical grass found in India and Asia that thrives in hot, humid climates. Sugarcane is a high-yielding crop, yielding 165 pounds of refined sugar per acre on average.

The majority of commercial cane is used to create ethanol fuel or burned as a fuel source in tropical countries. Some farmers have begun producing cane varieties that produce bagasse, a fibrous residue left over after extracting juice from cane stalks that can be utilised as fuel or cattle feed. According to a Coca-Cola study, 90% of sugarcane is processed into sucrose, which is then used in a wide range of items from plastics and car tyres to soft drinks and pharmaceuticals. Only about 6% of processed cane jams, jellies, dairy products, soft drinks, and pickets are used to make sweeteners. Around 70% of that is refined beet or cane sugar, with the remaining 30% becoming fructose-rich high fructose corn syrup (HFCS). Bagasse, which accounts for the remaining 25%, is a fibrous waste that is burned for energy at many refineries before being processed into refined sugar. Desugarized molasses can be used to make animal feed.


Applications:

Sugarcane products are employed in a range of industries, including food, chemical, and thermal power generation. Sugarcane Molasses, for example, has a wide range of applications in human and animal nutrition. The main end-users are distilleries, medicines, and fertilisers. In India, there are around 400 sugar factories with a total annual capacity of around 12 million tonnes. Growing demand for molasses in the animal feed industry, as well as the high molasses content of cane juice, which is used as a raw material by distilleries, are to blame for the rise in consumption. Sugar cane is an important source of revenue for the country's economy.


Juice from Sugarcane:

Sugarcane juice is high in fibre, vitamins, minerals, antioxidants, and phytochemicals. Because of its low glycemic index, it does not induce a spike in blood sugar levels. It is safe for diabetics to consume when consumed in moderation. It also aids in body cooling by balancing the body's heat. Sugarcane juice is often recommended by dieticians to people who are attempting to reduce weight.

Sugarcane juice is extracted by using a juice extractor equipment to squeeze sugarcane stalks. Sugarcane juice is high in fibre, vitamins, minerals, and phytochemicals. It also has a low glycemic index, so diabetics can enjoy it. It's becoming more popular as a detox drink due to its high antioxidant content.

Sugarcane juice provides a slew of health benefits. In a 240 mL portion of sugarcane juice, there are 180 calories, 30 grammes of sugar, and a large amount of nutritious fibre. It heals kidney stones and urinary tract infections since it is diuretic. It is high in potassium, calcium, magnesium, iron, zinc, thiamin, riboflavin, and several amino acids. Furthermore, the high fibre content of sugarcane juice aids weight loss while also improving digestion and relieving constipation. People all around the world are becoming increasingly aware of sugarcane juice's health benefits. Many people consume sugarcane juice on a daily basis to aid with weight loss. Additionally, doctors and dieticians advise people to drink sugarcane juice to strengthen their immune systems. As a result, rising awareness of sugarcane juice's nutritional benefits is propelling the market forward.

A sugarcane juice business requires a number of permits, authorizations, and registrations.

  • The procedure for registering a business is as follows: Before you can run a sugarcane juice business in India, you must first register your company.
  • GST registrationis straightforward. In India, every type of business requires a GST number.
  • A business licence entails:You must also obtain a trade licence from the municipal authorities, according to state law.
  • It is also necessary to obtain a pollution certificate from the local government certifying that the sugarcane juice business produces solely sugarcane waste.
  • Registration as an MSME/SSI:The Indian government requires this registration in order to obtain a loan.
  • Trademark:In order to register your business trademark, you must first register your business trade.
  • Registration with the Food Safety and Standard Authority of India (FSSAI)is required because it is related to the food industry.


Applications for Sugarcane Byproducts:

Sugarcane provides food (sucrose, jaggery, and syrups), fibre (cellulose), fodder (green top, bagasse, and molasses), fuel, and chemicals (bagasse molasses and alcohol). The main by-products of sugar manufacture in the cane sugar industry are bagasse, molasses, and pressmud. Other low-value co-products and by-products include green leaves, green tips, garbage, boiler ash, and effluents from the sugar sector and distillery. Instead of relying primarily on sugar production, sugarcane has spawned a slew of new industries based on diversification and the use of sugar industry co-products and by-products. To maximise the value of the sugarcane harvest, efforts should be made to integrate the use of sugarcane, its co-products, and by-products in the production of a variety of value-added products. Sugarcane is currently farmed for a variety of purposes, including food (sugar), fibre (cellulose), fuel (bagasse), and fodder (fodder) (green tops, garbage, molasses, and other byproducts). The economic importance and consumption of several sugarcane by-products in India are summarised below:


Bagasse:

Bagasse is a cellulosic waste product that is used in agriculture and manufacturing. Bagasse can be used to make paper, cardboard, and other items as a raw material. It contains around 60% combustible material (cellulose), which can be utilised to generate electricity, fertiliser, and even biogas at home. Bagasse can be utilised as a biofertilizer and a biopesticide, among other things. It's especially effective against diseases and pests that spread through the soil. The best part about bagasse is that it has no detrimental influence on soil, unlike commercial fertilisers. Bagasse, on the other hand, thanks to its rich nutritional content, enhances soil fertility by increasing the soil's water retention capacity. As a result, it helps to boost crop yield and quality while posing no damage to the environment or human health. Bagasse tableware is also popular as an environmentally friendly alternative to plastic tableware. Bagasse tableware, also known as sugarcane fibre dinnerware, is made from sugarcane waste and is a better-for-the-environment alternative to polystyrene and Styrofoam tableware.

Sugarcane Bagasse and its derivatives have a variety of applications:

Bagasse is the dry pulpy fibrous residue that remains after sugarcane stalks are crushed to make juice. The amount of bagasse produced per 100 tonnes of crushed cane varies between 25 and 32 tonnes, with an average of 27-28 percent.

Fresh mill bagasse contains 48 to 50 percent water, 2.5 to 3.5 percent dissolved solids (Brix), and 46 to 48 percent fibre. Insoluble cellulosic components make up sugarcane fibre. Bagasse can be used for a variety of purposes, including the following:

Fuel: Bagasse is commonly used as a primary fuel source in sugar mills. When burned in sufficient numbers, it produces enough thermal energy to supply all of the needs of a typical sugar mill.

Bagasse Cogeneration for Bio-Electricity: Bagasse can be utilised to generate energy using high-pressure boilers and a special type of steam turbine. Around 450 kWh of power may be generated from a metric tonne of bagasse.

In India, there are now 147 sugar mills with co-generation installations totaling 3,067 MW. After meeting their captive power requirements in these mills, they are delivering up to 1,900 MW of surplus electric power to the National Grid.

In the future years, sugar mills in India are expected to have the capacity to generate up to 7,000 MW of electricity and contribute around 3,000 MW of surplus electricity to the National Grid.

Paper from Bagasse: Bagasse is widely utilised as a wood replacement in the manufacture of pulp, paper, and board in many tropical and subtropical countries, including India, China, Colombia, Iran, Thailand, and Argentina. There are already numerous bagasse-based facilities producing kraft paper, white writing and printing materials, newspaper, and other forms of paper.

Bagasse pulp is used in the manufacture of bags, corrugated packaging, writing paper, and toilet paper. Tamil Nadu Newsprints Limited (TNPL) is an Indian company that creates high-quality newsprint from bagasse.

Under the same conditions, one hectare of sugarcane can produce approximately five tonnes of pulp and paper fibre per year, which is twice as much as one hectare of wood. Sugarcane's regeneration time is fifteen times shorter than sugarcane's.Paper made from sugarcane bagasse has various advantages over traditional paper made from tree pulp, the most important of which is that it does not need the felling of trees. It is less priced as well as renewable. Napkins, tissue paper, disposable food containers, plates, bowls, trays, and other paper items are all made from sugar waste paper.

Agglomerated Products vs. Boards: In the board-making industry, forest woods are often used. Because tree cutting diminishes forest cover, causing problems with climate change, board manufacturers need an alternative to forest wood. Bagasse is the best raw material for this, and it may be used in a variety of ways.

Bagasse-based composites have the potential to take the place of high-density, high-cost wood fiberboard as the core material for laminated floors. In recent years, India has achieved tremendous progress in the use of bagasse for the production of agglomerated products, as seen below:

• Panel or Insulating Board: To make a panel or insulating board, bagasse is processed with hot water or steam under pressure in a rotary digester. The pulp is then washed and fed into board machines, where it is turned into a continuous wet mat. After that, it's rolled to remove as much moisture as possible before being cut into sheets and dried. The end product is not wrappable and has a poor paint adhesion.It is a good heat insulator and can be chemically treated to make it bug and fire resistant. It's used as a separating material for the ceiling and walls.

• Particle Board: Made by joining bagasse fibre with a resin in a dry process, particle board is significantly denser and harder than insulating board. It may be made water resistant and used to build cabinets, cupboards, racks, almirahs, partition boards, and table tops, among other things. In India, there are 12 particle board companies that use bagasse from nearby sugar mills as a fibrous raw material.

• Bagasse-Cement Board: These types of boards are becoming more extensively utilised as construction materials due to their better physical properties, such as resistance to fire, fungi, insects, and weather extremes. These boards are made from lignocellulosic fibres mixed with Portland cement, calcinated magnesite, or gypsum.

Bagasse can be fermented to create sludge or biogas (a mixture of carbon dioxide and methane) through inoculation or the addition of agricultural manure. The gas produced is 6065 percent methane, 3035 percent carbon dioxide, and tiny amounts of hydrogen (calorific value 5,500 kcal/m3). Bagasse can also be used as a fuel source in gas-generating plants. The bagasse-producing gas has a calorific value of 1,200 kcal/kg and is composed of 60% nitrogen, 17% carbon mono-oxide, and 6% hydrogen.

• Furfural is a colourless or yellow oily liquid with an almond-like odour in its pure state, but when exposed to air, it quickly becomes yellow, then brown, and finally black, earning it the term furfuraldehyde. It is an important organic substance generated from agroindustrial wastes and residues containing the carbohydrate pentosans. All furfural synthesis is based on pentosan-containing wastes gathered from the processing of various agricultural (from bagasse) and forest products due to the lack of commercial synthetic methods. It has a tiny market in highly developed countries, especially for the manufacture of nylon and butadiene. The most important industrial intermediate derived from furfural is furfuryl alcohol. Certain new cane lignin-based drugs have been developed in Cuba, and India has the potential to research this industry.

Use as Animal Feed: However, raw bagasse's low digestibility, high lignin (20%), and very low nitrogen concentration prevent it from being used as animal feed. It is feasible, however, to improve its palatability and digestibility, as well as supplement it with more energy, protein, and mineral content, making it a more economical alternative feed for small farmers and landless labourers. Bagasse is converted into calf feed by fermenting it with molasses and enzymes (such as bromelain). It is sold in Thailand, Japan, Malaysia, Korea, Taiwan, the Middle East, and Australia, among other places.

Ethanol production: Bagasse, a cellulose residue of the sugarcane crop, might be used in a simultaneous saccharification-cum-fermentation (SSF) process using enzymatic or acid hydrolysis technology to produce ethanol. To save money on the process, a microbial consortium is being created, which might yield roughly 200 l of ethanol every tonne of bagasse processed.


Molasses made from Sugarcane:

Molasses is a sweetening syrup with a thick consistency. It is a byproduct of the sugar-making process and is made from crushed sugar cane or sugar beets. Only a little amount of research has been done on the health effects of molasses. Molasses is one of those unusual items that you could overlook—after all, isn't dark syrup the same thing? Molasses, on the other hand, offers a diverse range of applications and uses. Molasses is made from sugar cane in two stages: After sugar cane juice has been cooked down, sugar is extracted. The evaporation process proceeds, yielding thick, black molasses. Aside from molasses, which is a byproduct of sugar cane manufacturing, there are a variety of additional components that are used for various reasons. After the juice is taken from the cane stalks, the dry stalk residue, known as bagasse, is used as fuel in the plant. Beet pulp is used in the production of pet foods. Cane wax, which is extracted from the dried residue, is used in cosmetics, polish, and paper coatings.

Sugarcane Molasses and its Products are used in a variety of ways:

Molasses is a viscous final effluent formed when sugar crystallises repeatedly. It's the syrup that was left behind after no simple crystaline sucrose could be removed.

The Use of Molasses as a Fertilizer: Because it is typically a waste product, molasses is mostly used as an organic fertiliser. The benefits of molasses as a soil fertiliser, on the other hand, appear to be widely accepted. However, it is claimed that for every 48 metric tonnes of molasses spread in the field, the ground receives the following fertiliser. K2: 51.3 kg, N: 5.2 kg, P2O5: 2.5 kilogramme Molasses as Animal Feed: Molasses' importance as a livestock feed has been recognised since the creation of sugar.

The most important property of cane molasses as a feed is its high carbohydrate content, which comes predominantly in the form of sugar molasses. It also contains tiny amounts of protein, as well as very low calcium and phosphorus proportions, but a very high potassium proportion.

Cobalt, boron, iodine, copper, manganese, and zinc are among the B-complex vitamins and minerals found in it. Molasses is also a good feed for pigs and poultry. The first molasses-based animal feed was created at the National Sugar Institute in Kanpur, India (UP).

The product's name was Bagomolasses. Since then, Pohatas Industries in Dalmia Nagar, Bihar, and Ugar Sugar Works Limited in Ugarkhurd, Belgaum District, Karnataka, have improved their factories. In Karnataka and Maharashtra, many sugar companies followed suit.

Molasses as a Distilling Raw Material: Molasses is the most common raw material used in distillation. There are essentially two processes involved in the distillation industry. The first phase is fermentation. The second step is distillation.

Fermentation is a chemical reaction that happens in an organic substrate (substance) when biological catalysts are active. It's the outcome of a chemical reaction. Biochemical catalysts/enzymes are microorganisms such as yeasts, moulds, and bacteria. Fermentation was once understood to be the conversion of sugar to ethyl alcohol and carbon dioxide. Molasses is a fermentable sugar that can be used in a variety of ways. Vinegar and acetic acid are two important components of molasses.

Vinegar is a condiment created by fermenting sugar or starchy ingredients with alcohol and acetic acid to produce vinegar. Vinegar's main ingredient is acetic acid. cellulose acetate, which is used in clothing and home furnishings, anhydride vinyl acetate, acetamide, and others are all acetic acid derivatives.

Butanol acetone is another important fermentation product. This can be found in molasses. It's used in the production of explosives. Acetone is a highly flammable liquid. It is made by the fermentation of cane molasses.

Acetone is used as a plastisizer, dyeing agent, detergent, and cleaning agent in the electronics industry. Lactic acid is a clear, odourless liquid that can be blended with water, alcohol, or ether to make a syrup. Food, pharmaceuticals, and polymers are just a few of the industries that use lactic acid.

Citric acid is another important byproduct of molasses fermentation. It's used in 60 percent of the food and beverage business, as well as pharmaceutical (16%), chemical (15%), cosmetics and toiletries (3%) and other industries (6 percent).

Industries involved in distillation include: Distillation is a process that uses evaporation and re-condensation to separate liquids into fractions based on their boiling points or boiling ranges. The major consequence of distillation techniques is one or more forms of alcohol.

A. Rum: Rum is an alcoholic distillate manufactured from sugarcane juice or molasses fermentation, with an alcohol level ranging from 43.15 to 52.50 percent by volume.

For the mashing procedure, which involves diluting the molasses and adding ammonium sulphate, sulphuric acid, and, in rare situations, phosphorous, yeast is added to new molasses. Finally, the mash undergoes a simple distillation and condensation procedure. Rum is usually aged to improve its flavour, colour, and aroma, and then cured with herbs, sugar, and oils.

B. Ethyl Alcohol: Ethyl alcohol is produced similarly to rum. With a sugar concentration of 14 to 18 percent, molasses is first diluted with water, ammonium sulphate, phosphoric acid, sulphuric acid, and sodium chloride. Fermentation takes 30 to 72 hours, depending on other factors, and the mash is seeded with yeast culture at a rate of 5 to 8% by volume.

Beer or wine is an alcoholic beverage that has been fermented and contains 6 to 9 percent alcohol. A rectifying column refines the distilled fermented mash or beer, as well as the resulting alcohol. It's referred to as rectified spirit.

Industrial alcohol is used as a fuel, disinfectant, and cleaning agent, as well as a dye, medication, and soap solvent and in a range of other chemical processes. If denatured and blended with 70 to 80 percent petrol, absolute alcohol can be used as a fuel for internal combustion engines.

ODS is primarily used in hospitals, at home, and in the polishing process. Per tonne of sugarcane, 72-75 litres of ethanol are produced. A tonne of molasses produces around 220-250 litres of ethanol. Alcohol has derivatives and by-products of its own. The most prevalent by-products are listed below.

1. Carbon dioxide is a gas that may be used to manufacture carbonated beverages, put out fires, and keep food fresh. 160 kg of CO2 is created when 1000 kilogrammes of molasses are fermented.

2. Fuel oil: This is a mixture of higher alcohols, primarily Ethyl alcohol, n-propyl alcohol, isobutyl alcohol, Amyl alcohol, and isoamyl alcohol, that is formed at high temperatures. Its primary application is as a liquor solvent.

3. Glycerol: This chemical is used in a variety of industries, including cosmetics, medicines, tobacco, food and beverages, and others.


By-Products of Molasses:

  1. Dextran is a by-product of molasses that is used as a stabiliser in ice cream, sugar syrup, and other confectionery goods. It is capable of drilling oil wells.
  2. Aconitic acid is a molasses by-product used in the chemical industry as a plastisizer, wetting agent, and flavouring ingredient.
  3. Itaconic acid: Itaconic acid is a form of molasses fermentation used to produce thermoplastics and transparent materials.
  4. Monosodium Glutamate: Another molasses by-product used as a flavour enhancer is monosodium glutamate.
  5. Carbon Dioxide: When Saccharomyces cereviseae ferments molasses, carbon dioxide and alcohol are produced. CO2 is produced at a rate of 16% by weight of molasses, with 70-75% of it recoverable. Carbon dioxide is produced and used as a cooling agent and in the manufacture of carbonated beverages.

Bioethanol Production from Sugarcane Molasses:

Sugarcane molasses is a byproduct of the sugar cane processing industry, and it can be used to make bioethanol. Using molasses waste as biomass for bioethanol production is one way to reduce the amount of molasses trash. Molasses can be used to make bioethanol, which has a significant economic value due to its high sugar content. SSF is a molasses-based bioethanol production technology that uses 10 percent (100 gr/L molasses) and 20 percent (200 gr/L molasses) substrates. This fermentation was chosen because commercial instant dry yeast may be used directly as a starter, simplifying the process and avoiding the risk of bacterial contamination. West Java's sugar industry is one of Indonesia's molasses-producing sugarcane processing industries. The molasses was then converted to bioethanol.


Pressmud or Filter Mud: Uses and Products:

During the production of sugar, sugarcane juice goes through a purifying process known as clarification. For this, carbonation or sulphitation methods are used. As a result of this process, a bulky precipitate is formed.

The juice is filtered using vaccum filters or the filling process, and the waste material is referred to as pressmud. It contains some sugar. Around 7 to 8% of the cane is crushed on a weight basis.

Fertilizers include the following:Pressmud is rich in calcium sulphite and calcium phosphate. There are also trace levels of nitrogen, phosphate, and potassium. It contains 20 to 25 percent organic materials and roughly 45 percent lime on a dry basis. It's a great acidic soil fertiliser.

When combined with cane molasses and a topping, dried cakes can be used as animal feed.

Other uses include: It can be used to generate building lime, but this creates a problem with waste management. It can be used to make metal polishing powder, board chalk, and tooth powder.

During the harvesting of the sugarcane crop, the tops, leaves, and rubbish are removed, and the stems are cleansed of their leaves (trash). On average, cane tops and debris make up 25 to 35 percent of the cane weight on the field. Cane tops are a good source of fodder for cattle.

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Animal Feed from Bagasse - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

The increase in population and rapid growth in world economies will lead to an enormous increase in demand for animal products, a large part of which will be from developing countries. Future hopes of feeding the millions and safeguarding their food security will depend on the enhanced and efficient utilization of alternative feed resources that cannot be used as food for humans. In addition, a large area of land in the world is degraded, barren or marginal and the amount is increasing every year. This also calls for identification and introduction of new and lesser known plants capable of growing in poor soils, which can play a vital role in the control of soil erosion in addition to providing food and feed. Application of agro-industrial by-products in bioprocesses may serve a dual role in providing alternative substrates, and help to reduce environmental pollution that their disposal may otherwise cause. Bioconversion of fibrous materials by solid-state fermentation (SSF) has received increasing interest in producing animal feeds due to its lower energy requirement, low effluent generation, and direct applicability of the fermented products for feeding and partly because of environmental concerns regarding the disposal of solid wastes. Sugarcane bagasse is a fibrous residue of sugarcane stalks left over after the crushing and extraction of the juice. Bagasse with its low ash (2.4%) content offers numerous advantages in comparison to other crop residues such as rice straw and wheat straw which have 17.5 and 11.0% ash contents respectively, for usage in bioconversion processes using microbial cultures. In addition, bagasse can be considered as a rich solar energy reservoir due to its high yields (about 80 t/ha in comparison to about 1, 2 and 20 t/ha for wheat, other grasses and trees, respectively) and annual regeneration capacity. One potential use of the bagasse is as a feedstuff for domestic ruminants. Sugarcane bagasse is a fibrous residue of sugarcane stalks left over after the crushing and extraction of the juice. Bagasse with its low ash (2.4%) content offers numerous advantages in comparison to other crop residues such as rice straw and wheat straw which have 17.5 and 11.0% ash contents respectively, for usage in bioconversion processes using microbial cultures. In addition, bagasse can be considered as a rich solar energy reservoir due to its high yields (about 80 t/ha in comparison to about 1, 2 and 20 t/ha for wheat, other grasses and trees, respectively) and annual regeneration capacity. Although some commercial uses for the surplus bagasse have been developed, its accumulation causes a serious waste problem for the sugar industry. Several researchers reported that the use of a direct fed microbial such as A. oryzae increased DM digestibility of high concentrate diets through enhanced fiber digestion as well as DM intake of TMR or silage and milk production. More recently, it has been suggested that the A. awamori not only induces a degradation of shochu distillery by-product with wheat bran and the conversion of the mixture into animal feed, but also improves fiber digestibility to some degree when adding 5 to 20% of the fermented feed to formula feed for beef cattle Kagoshima, Japan. Market Survey The demand for food of animal origin is increasing in India due to economic growth, population growth and urbanisation, which in turn means greater use of cereals and oilseeds for animal feed. This is a trend in most developing countries. India is going through a livestock revolution. In the past two decades the increase in demand were coped mainly by expanding livestock population. However, declining land areas per agricultural population forces India to intensify livestock production. Today, we are faced with an extraordinary set of challenges of increasing food production of animal origin with all the other limitations like land, water, weather etc and the question is how would we meet these demands. We also have another challenge that the food we produce has to be highly cost efficient to make it more sustainable. There animal husbandry is divided into three major industries: India has one of the largest populations of cattle in the world and ranks number one in milk production. The country produces about 80 million tons of milk per annum with an annual per capita consumption of 240 g/day. The dairy industry is spread across the whole country and it is growing at an annual growth rate of 5%. Milk is from cows or buffaloes and the buffalo breeds produce milk with a fat content of 7 to 8% compared to cow's milk, which has a fat content of 4%. Most of the feed comes from grazing although a small portion of concentrate feed containing various feed additives for enhancing milk production is being given to cattle. Most of the feed manufacturers in India make both poultry as well as cattle feed. The demand for usage of cattle feed will grow if the feed is economically viable. The challenge is to make a nutritionally competent feed using low-grade fibrous crop residues, which are mainly by products from other industries along with feed additives. Cattle feeding practices are very traditional. Farmers choose their own ingredients and prepare their own formulations. The productivity of cattle is very low because of poor genetic makeup and so there is a limitation of using high quality feed. About 10% of the cattle herd is of the cross bred varieties but this is slowly increasing and more and more crossbred population of either Jersey or Holstein-Friesian are coming into existence. In the coming years pure bred varieties also could increase. In the past several decades, marked changes in livestock production have paralleled shifts in farm animal feed formulation. Bolstered by spikes in feed prices and increasing demand from downstream farm supplies wholesalers, the Farm Animal Food Production industry's revenue has increased at an annualized rate of 3.7% to $31.7 billion during the past five years. Global population growth and expansion of developing economies have further boosted demand for meat, requiring greater supply of feeds to match growing production. Despite a decline in per capita meat consumption in the United States, demand for farm animal feed was maintained by downstream industries, such as dairy farms. Consequently, industry revenue is expected to rise another 1.5% during 2012.... Purchase to read more Asia is expected to hold nearly 29% of the animal feed additives market by 2016.
Plant capacity: 30,000 MT/AnnumPlant & machinery: Rs. 222 Lakhs
Working capital: -T.C.I: Cost of Project: Rs 1070 Lakhs
Return: 26.00%Break even: 48.00%
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Animal Feed from Bagasse - Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics

The demand for food of animal origin is increasing in India due to economic growth, population growth and urbanization, which in turn means greater use of cereals and oilseeds for animal feed. India is going through a livestock revolution. India has one of the largest populations of cattle in the world and ranks number one in milk production. The dairy industry is spread across the whole country and it is growing at an annual growth rate of 5%. Most of the feed comes from grazing although a small portion of concentrate feed containing various feed additives for enhancing milk production is being given to cattle. Most of the feed manufacturers in India make both poultry as well as cattle feed. The demand for usage of cattle feed will grow if the feed is economically viable. The challenge is to make a nutritionally competent feed using low-grade fibrous crop residues, which are mainly by products from other industries along with feed additives. Bolstered by spikes in feed prices and increasing demand from downstream farm supplies wholesalers, the Farm Animal Food Production industry's revenue has increased at an annualized rate of 3.7% to $31.7 billion during the past five years. Global population growth and expansion of developing economies have further boosted demand for meat, requiring greater supply of feeds to match growing production. It is expected that Asia will hold nearly 29% of the animal feed additives market by 2016.
Plant capacity: 30,000 MT/AnnumPlant & machinery: Rs. 222 Lakhs
Working capital: -T.C.I: Cost of Project: Rs 1070 Lakhs
Return: 26.00%Break even: 48.00%
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Particle Board from Bagasse - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Bagasse is the waste of sugar industry. It can be used for the production of bagasse base board or solid fuels or for the production of power or for the production of Alcohol. Now we are intending to produce bagasse base board. There is gradually demand increase in wood base products. There are few manufacturers who makes board by partial use of fine particles of bagasse. This can be very safely handled and transport from one place to another place. It can be used for making different variety of furniture like, chair, table, bed etc. It can be used for making panel board, windows, doors etc. It can be used for making partition in the room. It is used in Construction companies, school, colleges, paints, and for domestic uses. Few organized and many private organizations are engaged in the manufacturing of ply board or wood board or bagasse base board. There is growth about 5-8% per annum. These is no import of ply board, these is scope of export of ply board as well as wood board is there. In the near future projected demand of bagasse base board will be increased by 5% as this is the product of wood substitute. Any new entrepreneur may enter into this field will be successful.
Plant capacity: 2000 Nos./DayPlant & machinery: Rs. 637 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 1098 Lakhs
Return: 26.59%Break even: 53.25%
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Yeast from Molasses - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue

Yeasts are unicellular, eukaryotic and polyphyletic organisms classified in the kingdom fungi. Fermentation of sugars by yeast is the oldest application in the making of bread, beer and wine. Apart from the production of bread and beverages, ethanol production is vital for different applications. Yeasts are also involved in single cell protein production. The growth of Baker’s yeast market is directly linked to the increasing trend of processed and fast food consumption, especially bakery items. The principal use of baker’s yeast is as an essential bakery ingredient for causing fermentation in the dough used in making bakery items. From Industrial Extension Bureau Mott MacDonald India report , the growth of baker’s yeast market is directly linked to the increasing trend of processed and fast food consumption, especially bakery items. The global yeast market is dominated by baker's yeast which accounted for over 31% of the total market. Growing market for bakery products, beer, wine, animal feed, and bio-ethanol is supposed to be the major driver for global yeast market. Few Major Players are listed below: A B Mauri India Pvt. Ltd. Kalyani Breweries Ltd. Kothari Fermentation & Biochem Ltd. Mauri Yeast India Pvt. Ltd.
Plant capacity: 3000 MT/AnnumPlant & machinery: 277 Lakhs
Working capital: -T.C.I: Cost of Project: 649 Lakhs
Return: 30.00%Break even: 57.00%
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Mini Sugar Plant - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Layout

Sugar is a universal sweetening agent and sugar – cane is the primary age - old source of it. Sugar, as sucrose is important for energy and metabolic activities. The main raw material for sugar production, i.e. sugarcane grows widely and efforts are constantly being made to bring more area under cultivation. The sugar industry in India is second largest, next to textiles. It has an investment of Rs.1500 crores employs 3, 00,000 people, besides the industry provides sustenance to 25 million cultivators. The contribution of industry to the public exchequer by way of excise, cases and taxes, is substantial. Also it is an important foreign exchange earner to the country. Sugar used as sweetener in food product, like Jam, Jellies, Bread, Biscuit & Cake etc., used as raw material for the fermentation Industry. It has largest use as domestic purposes also. India is now the largest consumer of sugar in the world and was expected to overtake Brazil in production. Few Major Players are as under:- Agauta Sugar & Chemicals Ltd. Ashok S S K Ltd. Athani Farmers' Sugar Factory Ltd. B S I Ltd. Babhnan Sugar Mills Ltd. Bajaj Hindustan Ltd. Bajaj Hindustan Sugar & Inds. Ltd. Balrampur Chini Mills Ltd. Bannari Amman Sugars Ltd. Brima Sugar Ltd. Cawnpore Sugar Works Ltd. Champarun Sugar Co. Ltd. Chandrabhaga Sugars Pvt. Ltd. Chhata Sugar Co. Ltd. Chilwaria Sugars Ltd. Chincholi Sugar & Bio Inds. Ltd. Coromandel Sugars Ltd. Cosmos Industries Ltd. D S M Sugar (Kashipur) Ltd. Dalmia Bharat Sugar & Inds. Ltd. Dalmia Sugars Ltd. Delta Sugars Ltd. Dewan Sugars Ltd. Dhampur Sugar Mills Ltd. Dharani Sugars & Chemicals Ltd. Dollex Industries Ltd. Dwarikesh Sugar Inds. Ltd. Dwarkadhish Sakhar Karkhana Ltd. E I D-Parry (India) Ltd. Eastern Sugar Ltd. Empee Sugars & Chemicals Ltd. Gangavati Sugars Ltd. Ganpati Sugar Inds. Ltd. Gayatri Sugars Ltd. Gem Sugars Ltd. Ghaghara Sugar Ltd. Gobind Sugar Mills Ltd. Godavari Biorefineries Ltd. Guru Teg Bahadur Sugars Ltd. Gwalior Sugar Co. Ltd. Harinagar Sugar Mills Ltd. I C L Sugars Ltd. India Sugars & Refineries Ltd. Indian Sucrose Ltd. J H V Sugar Ltd. J K Sugar Ltd. Jeypore Sugar Co. Ltd. K C P Sugar & Inds. Corp. Ltd. K M Sugar Mills Ltd. K P R Sugar Mill Ltd. Kamlapur Sugar & Inds. Ltd. Kanoria Sugar & General Mfg. Co. Ltd. Karaikal Sugars Ltd. Karmaveer Kakasaheb Wagh S K Ltd. Kashipur Sugar Mills Ltd. Kirlampudi Sugar Mills Ltd. Koodal Industries Ltd. Kothari Sugars & Chemicals Ltd. Lakshmi Sugar Mills Co. Ltd. Lakshmiji Sugar Mills Co. Ltd. Madras Sugars Ltd. Maheswara Sugars Ltd. Mansurpur Sugar Mills Ltd. Mawana Sugars Ltd. Mawana Sugars Ltd. Mysore Sugar Co. Ltd. N S L Sugars (Tungabhadra) Ltd. N S L Sugars Ltd. Nahar Sugar & Allied Inds. Ltd. Naraingarh Sugar Mills Ltd. Natural Sugar & Allied Inds. Ltd. Nava Bharat Sugar & Bio Fuels Ltd. New India Retailing & Invst. Ltd. New Phaltan Sugar Works Ltd. Northland Sugar Complex Ltd. Novel Sugar Ltd. Oswal Overseas Ltd. Oudh Sugar Mills Ltd. Palwal Co-Op. Sugar Mills Ltd. Parrys Sugar Industries Ltd. Perambalur Sugar Mills Ltd. Pettavaittalai Sugars & Chemicals Ltd. Ponni Sugars (Erode) Ltd. Ponni Sugars (Orissa) Ltd. Prudential Ammana Sugars Ltd. Prudential Sugar Corp. Ltd. Prudential Tirumala Sugars Ltd. Rahuri S K Ltd. Rai Bahadur Narain Singh Sugar Mills Ltd. Rajshree Sugars & Chemicals Ltd. Rana Sugars Ltd. Ravalgaon Sugar Farm Ltd. Riga Sugar Co. Ltd. S B E C Sugar Ltd. S V Sugar Mills Ltd. Sadashiva Sugars Ltd. Sagar Sugars & Allied Products Ltd. Sakthi Sugars Ltd. Saraswati Sugar Mills Ltd. Saraya Sugar Mills Ltd. Sarita Sugars Ltd. Saswad Mali Sugar Factory Ltd. Seksaria Biswan Sugar Factory Pvt. Ltd. Shakumbari Sugar & Allied Inds. Ltd. Shamanur Sugars Ltd. Sharda Sugar & Inds. Ltd. Shervani Sugar Syndicate Ltd. Shree Ambika Sugars Ltd. Shree Bijay Sugar Mills Ltd. Shree Ganesh Khand Udyog Sahakari Mandli Ltd. Shree Hanuman Sugar & Inds. Ltd. Shree Khedut Sahakari Khand Udyog Mandli Ltd. Shree Panchaganga S K Ltd. Shree Renuka Sugars Ltd. Shree Vaani Sugars & Inds. Ltd. Shri Prabhulingeshwar Sugars & Chemicals Ltd. Simbhaoli Sugars Ltd. Sir Shadi Lal Enterprises Ltd. South India Sugars Ltd. Sree Kailas Sugars & Chemicals Ltd. Sri Chamundeswari Sugars Ltd. Sudalagunta Sugars Ltd. Swadeshi Mining & Mfg. Co. Ltd. Tamil Nadu Sugar Corp. Ltd. Thiru Arooran Sugars Ltd. Tikaula Sugar Mills Ltd. Tilan Sugar Ltd. Tirupati Sugars Ltd. Trident Sugars Ltd. Triveni Engineering & Inds. Ltd. Triveni Engineering & Inds. Ltd. Tulsipur Sugar Co. Ltd. Tungbhadra Sugar Works Ltd. Ugar Sugar Works Ltd. United Provinces Sugar Co. Ltd. Upper Ganges Sugar & Inds. Ltd. Uttam Sugar Mills Ltd. Venus Sugar Ltd. Vishnu Sugar Mills Ltd. Wahid Sandhar Sugars Ltd. Wave Industries Pvt. Ltd. Western Orissa Sugar Ltd. Yadu Sugar Ltd. Yogeshwari Sugar Inds. Ltd.
Plant capacity: 37800 MT/annumPlant & machinery: Rs. 1683 Lakhs
Working capital: -T.C.I: Cost of Project: Rs. 2347 Lakhs
Return: 24.97%Break even: 44.49%
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Ethanol from Molasses (with Spent Wash Treatment) - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study,Investment Opportunities

Ethanol, also known as ethyl alcohol, drinking alcohol or grain alcohol, is a flammable, colorless, mildly toxic chemical compound, and is best known as the alcohol found in alcoholic beverages. In common usage, it is often referred to simply as alcohol. Its molecular formula is variously represented as EtOH, CH3CH2OH and C2H5OH or as its empirical formula C2H6O (which it shares with dimethyl ether).Ethanol can be prepared by the fermentation of molasses. Molasses is the mother liquor left after the crystallization of sugarcane juice. It is a dark coloured viscous liquid. Molasses contains about 45-50% fermentable sugar. The demand for ethanol has been continually increasing on account of the growth of user industries and use of ethanol as a fuel in the country. However, the production and availability of ethanol has largely lagged behind. India is the fourth largest producer of ethanol in the world after Brazil, the United States of America (USA) and China, producing approximately 2000 million litres of ethanol, mainly by fermentation of sugarcane molasses. Ethanol is made by fermentation of sugars: enzymes from yeast change simple sugars into ethanol and carbon dioxide. Potable ethanol and more than half of industrial ethanol is made by this process. As a whole Ethanol from Molasses is one of the project which has good prospect for the entrepreneurs to invest. Few Indian Major Players are as under:- Amines & Plasticizers Ltd. Ammana Bio Pharma Ltd. Athani Farmers' Sugar Factory Ltd. Baramati Agro Ltd. Bhuvan Tripura Inds. Ltd. Dhampur Sugar Mills Ltd. Dwarikesh Sugar Inds. Ltd. Empee Sugars & Chemicals Ltd. Gangamai Industries & Constructions Ltd. Godavari Biorefineries Ltd. H P C L Biofuels Ltd. Hico Products Ltd. Jeypore Sugar Co. Ltd. K M Sugar Mills Ltd. Natural Sugar & Allied Inds. Ltd. Parrys Sugar Industries Ltd. Purti Power & Sugar Ltd. Radico Khaitan Ltd. Shree Renuka Sugars Ltd. Sri Sarvaraya Sugars Ltd. X L Energy Ltd.
Plant capacity: 15000 KLs/AnnumPlant & machinery: -
Working capital: -T.C.I: -
Return: 25.00%Break even: 48.00%
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Blended Alcohol with Bottling Line (Molasses Based)- Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunity

The production of alcohol is based upon fermentation, the natural process of decomposition of organic materials containing carbohydrates. It occurs in nature whenever the two necessary ingredients, carbohydrate and yeast, are available. Yeast is a vegetative microorganism that lives and multiplies in media containing carbohydrates. Distilled spirits are all alcoholic beverages in which the concentration of ethyl alcohol has been increased above that of the original fermented mixture by a method called distillation. Drinking alcohol or grain alcohol, is a flammable, colorless, mildly toxic chemical compound, and is best known as the alcohol found in alcoholic beverages. In common usage, it is often referred to simply as alcohol. Blending is another method of obtaining a balanced product with precise flavour characteristics. Blended products are composed of one or more highly flavoured components, a high-proof component with a low congener content, a colour adjustment ingredient, and perhaps an additional flavouring material. Distilled spirits react upon exposure to many substances, extracting materials from the container that tend to destroy the liquor aroma and flavour. For this reason, glass, being nonreactive, has been the universal container for packaging alcoholic liquors. The Indian market for alcohol — mostly spirits and beer, as well as wine — totaled $14 billion last year, and was one of the fastest-growing alcohol markets in the world. Imports account for only a tiny fraction of that, but with India booming while demand elsewhere stalls, no international beverage company can afford to ignore it. Over the next five years, the Indian market for alcohol is projected to grow at 10% a year — more than in China, the U.S. and Europe combined, according to an estimate by KPMG India. "You've got a sizable population, a growing middle class, a growing economy," says Nigel Fairbrass, a spokesman for SAB Miller, one of the world's largest brewers. "All of that is driving increasing consumption of alcohol products." Few Indian Major Players are as under:- Allied Blenders & Distillers Pvt. Ltd. Amar Alcoholi Ltd. Amber Distilleries Ltd. Amrut Distilleries Ltd. Associated Alcohols & Breweries Ltd. B D A Breweries & Distilleries Ltd. B D A Pvt. Ltd. Bacardi India Pvt. Ltd. Balaji Distilleries Ltd. Balbir Distilleries Ltd. Baramati Grape Inds. Ltd. Beam Global Spirits & Wine (India) Pvt. Ltd. Central Distillery & Breweries Ltd. Dhampur Sugar Distillery Pvt. Ltd. Empee Distilleries Ltd. Glasgow Distilleries Ltd. Globus Spirits Ltd. Hyderabad Distilleries & Wineries Ltd. Interlink Exports Ltd. Jagatjit Industries Ltd. John Distilleries Pvt. Ltd. Jubilant Industries Ltd. Jubilee Beverages Ltd. Kedia Distilleries Ltd. Khoday India Ltd.Mcdowell & Co. Ltd. Mehra Beerages Ltd. Mohan Breweries & Distilleries Ltd.
Plant capacity: 150 Lakh Bottles/AnnumPlant & machinery: Rs. 290 Lakhs
Working capital: -T.C.I: Cost of Project : Rs. 1268 Lakhs
Return: 27.00%Break even: 49.00%
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FRUIT JUICE (MANGO, ORANGES, LITCHI) & SUGARCANE JUICE WITH ASEPTIC PACKAGING & PET BOTTLE PACKAGING

Fruit juices are health drinks; it is largely used throughout the society and popularity of fruit juices are gradually increasing. There is good scope of export of fresh fruit juices. There is no availability of one type of fruits throughout the year, hence it is necessary to take various type of fruit juice processing in the same plant to keep production throughout the year. Waste fruit skin, seeds are used for the production of pectine, oil, seed butter and for the production of bio-organic fertilizer. For making juice palatable it may be used cane sugar, essence, food colours etc. Fruit juices are packed in the labeled clean bottle and again packed in the corrugated cartoon to transport the bottles. As a whole this is one of the best items now days, which has very good market demand. There is good scope for new entrepreneur to enter into this field. The mango is one of the oldest tropical fruits and has been cultivated by man for over 1000 years, originating apparently in Indo-Burma region. To the large population of Asia, particularly Southern Asia and Malaysia, the mango plays the role as the major fruit of the region, much as the apple looms has importance in North America and Europe. The fruit is eaten in its raw, fresh form when ripe. Un-ripened fruits are commonly used for preparing jellies, jams and preserves. Mango blends well with numerious processed foods, such as ice creams. Properties of Mango Juice 1. It has very good pleasant taste. 2. It has good natural flavour, good taste and good appearance. 3. It contains adequate amount of vitamins & minerals, which is helpful for human body’s growth & energy. 4. In the tetra pack it can be preserve for 6 month or more. 5. In the open atmosphere fruit juices are attacked by yeast or other microorganisms. 6. It contains also adequate amount of vitamins, fibres, low calories and enzymes, which helps to digestion. Few Indian Major Players are as under • Asian Lakto Inds. Ltd. • Atash Industries (India) Ltd. • Bodal Agrotech Ltd. • Dabur Foods Ltd. • Devyani Beverages Ltd. • Duke & Sons Ltd. • Enkay Texofood Inds. Ltd. • Foods & Inns Ltd. • Mother Dairy Fruit & Vegetables Pvt. Ltd. • Nadukkara Agro Processing Co. Ltd. • Rasna Pvt. Ltd. • Schreiber Dynamix Dairies Ltd. • Seabuckthorn Indage Ltd. • Surya Fresh Foods Ltd. • Surya Processed Food Pvt. Ltd. • Tricom Fruit Products Ltd. • Tropicana Beverages Co. • Tunip Agro Ltd. • Vividh Agro Processors Ltd.
Plant capacity: PET Bottle (250 ml Size) : 16000 Packs of Mango Juice/Day,Aseptic Pack (200 ml Size) : 20,000 Packs of Mango Juice/DayPlant & machinery: Rs 156 Lakhs
Working capital: -T.C.I: Cost of Project : Rs 588 Lakhs
Return: 25.00%Break even: 45.00%
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Ethanol from Rice Straw and Rice Husk - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Bio energy–energy produced from biomass–offers the opportunity to reduce not only the carbon dioxide emissions but also the dependence of energy imports, and as well as to diversify the energy matrix, reducing the oil dependence. Second generation bio ethanol is based on raw materials rich in complex carbohydrates like cellulose. This becomes an interesting alternative to reduce competition with the food industry and to generate an added value to the agro- industrial residues. Ethanol is also called ethyl alcohol, and drinking alcohol. It is the principal type of alcohol found in alcoholic beverages, produced by the fermentation of sugars by yeasts. It is a neurotoxic psychoactive drug and one of the oldest recreational drugs used by humans. It can cause alcohol intoxication when consumed in sufficient quantity. Ethanol is used as a solvent, an antiseptic, a fuel and the active fluid in modern (post-mercury) thermometers. It is a volatile, flammable, colorless liquid with a strong chemical odor. Its structural formula CH3CH2OH, is often abbreviated as C2H5OH, C2H6O. India’s production of biodiesel from jatropha seeds is commercially negligible and economically unviable. Farmers have not planted jatropha because it is difficult to market, yields are poor, and seed quality is inconsistent. As a result, most of the biodiesel units operating in India have turned to alternative feed stocks such as edible oil waste (unusable oil fractions), animal fats, and other inedible oils. This hodgepodge of oils accounts for about 28 percent of biodiesel producers’ existing capacity and enables them to continue operations throughout the year. Thus, due to demand it is a good project for entrepreneurs to invest. ? Few Indian Major Players are as under • Ammana Bio Pharma Ltd. • Athani Farmers' Sugar Factory Ltd. • Baramati Agro Ltd. • Dhampur Sugar Mills Ltd. • Dwarikesh Sugar Inds. Ltd. • Empee Sugars & Chemicals Ltd. • Gangamai Industries & Constructions Ltd. • Godavari Biorefineries Ltd. • H P C L Biofuels Ltd. • Jeypore Sugar Co. Ltd. • K M Sugar Mills Ltd. • Natural Sugar & Allied Inds. Ltd. • Purti Power & Sugar Ltd. • Radico Khaitan Ltd. • Sakthi Sugars Ltd. • Saswad Mali Sugar Factory Ltd. • Shamanur Sugars Ltd. • Shree Renuka Sugars Ltd. • Sri Sarvaraya Sugars Ltd. • X L Energy Ltd.
Plant capacity: Ethanol:40 KLs/DayPlant & machinery: -
Working capital: -T.C.I: -
Return: 26.00%Break even: 47.00%
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BIOETHANOL - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities, Cost and Revenue, Plant Economics

The principle fuel used as a petrol substitute for road transport vehicles is bioethanol. Bioethanol fuel is mainly produced by the sugar fermentation process, although it can also be manufactured by the chemical process of reacting ethylene with steam. There is renewed interest in bioethanol technology in view of its large potential as a transportation fuel. Bioethanol production based on lignocellulosic biomass, being the technology of the future, has been examined. The major issue is the production of ethanol at a competitive price. Biomass-based ethanol technologies are still evolving and the commercialization of this technology has to overcome various bottlenecks. Keeping this perspective in view, bioethanol technologies are analyzed in terms of feedstock availability, pretreatment strategies, efficient hydrolytic agents, availability of recombinant ethanologens and process economics with a focus on Indian research efforts. It provides indicators for research priorities to achieve these objectives. APPLICATIONS Bioethanol is used in a wide range of industrial applications, in the pharmaceutical sector, the chemical industry, and as a fuel. Bioethanol is by far the most commonly used biofuel world-wide and is used alongside conventional petrol to fuel petrol engines in road vehicles. Bioethanol can also be used as the basis for the production of ETBE (ethyl-tertiary-butyl-ether) which is an octane booster and used in many types of petrol. Bioethanol - mobility with a future The future of bioethanol is proverbially "on the road". Bioethanol is already available as a fuel in several different forms today. Renewable and climate-friendly, it is helping to ensure that mobility has a future. Over 80% of the world's ethanol production is used in the fuel sector. Dried Distillers Grain (DDG) concentration After bio ethanol production, the remaining unconverted biomass is usually dried to obtain DDG (dried distillers grains). This process involves concentrating the biomass to a high percentage of dry matter with an evaporative process, followed by a drying process to obtain dry grains. For difficult biomass that may cause fouling during the evaporation process HRS successfully applies the Unicus scraped surface evaporator. Combining a Unicus evaporation process with waste heat from the dryer can be a very cost effective way of handling difficult DDG concentration processes. Chemicals A number of chemicals are produced in the ethanol industry and potentially even more in the 2 nd generation bioethanol industry, serving a wide range of uses in the pharmaceuticals, cosmetics, beverages and medical sectors as well as for industrial uses. The market potential for bioethanol is therefore not just limited to transport fuel or energy production but has potential to supply the existing chemicals industry. Transport Fuel: Bioethanol has mostly been used as a biofuel for transport, especially in Brazil. Indeed it was in Brazil where the first bioethanol fuelled cars emerged on a largescale. Although generally unknown to the average consumer, a large volume of bioethanol is already used in Europe as it is blended with petrol at 5%. It is used as a substitute for lead as an oxygenating additive and has a high octane rating, which improves performance. Although the eventual target is the private consumer, few are aware of bioethanol’s potenial to, at least, partly replace petrol as a transport fuel in Europe. Methanol (CH3OH) Methanol is a mobile, clear (water white), inflammable liquid having a characteristic smelL. Major application sector • Acetic acid • Chloromethanes • Dimethyl terephthalate • Methylamine cells • Methyl methacrylate Indian demand for methanol: 1.65 million metric tonnes per annum AAGR in through 2018 7% Bio- ethanol market The global fuel ethanol market has experienced significant growth over the last five years and is expected to continue its growth momentum, reaching approximately US $98.5 billion by 2017with a CAGR of 14.2% over the next five years. Key growth drivers in the global fuel ethanol market are the sharp rise in crude oil prices, rising green house gas emissions, and government encouragement through incentives to produce ethanol.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: 1.00%
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