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Renewable Energy Sector, Green Power, Solar Energy, Biofuel, Hydroelectric, Wind, Geothermal, Biomass, Non-conventional Energy, New and Renewable Energy Projects

India is said to be one of the seven largest consumers of energy, but the growing gap between consumption and domestic output is a cause of concern. India’s share in global oil reserves is about 0.5 per cent, whereas its share in global consumption is about 3 per cent. India is still dependent to the extent of 30 to 35 per cent on non-commercial fuel sources like cowdung, firewood, agricultural waste, etc. The growing energy needs of the emerging economics, specifically India, risks enhanced environmental demage from conventional carbon based sources of energy. The pressure on petrol is mounting and we have to concentrate on conservation of petroleum. Towards conservation of petroleum consumption, the government has to ration supplies of cooking gas, kerosene and petrol; improve power generation; focus on alternative source of energy such as solar, wind and bio-fuels; setup energy standards for all vehicles and a mass awareness for conservation. As the country’s petroleum bill grows, and future supplies look volatile or insecure, alternatives need to be explored. Ethanol is an environment-friendly oxidant additive to gasoline. There is a growing interest in biodiesel or ethanol blend. Energy majors are determined to tap biofuels. Special attention is being paid to jatropha cultivation. The corporate sector too is focusing on the biofuels sector. It is estimated that globally about one million hectares would cater to biofuels over the next four years, with an estimated 300,000 hectares contributing each year to biofuels in South East Asia, India and Southern African countries. India will itself produce 2 million tones of biodiesel by 2012.

Power and Energy sector is in a positive mood and is leaving no missed opportunity to make hay of it, while the sun shines. India has set up a target of 20000 MW of installed capacity by 2022 for harnessing solar energy. It is leaving no stone unturned to become a solar hub in the world. With such earnest efforts, India’s mission to tap solar energy is not a pipe dream.

Renewable Energy technologies like solar, biomass, hydro, etc are deployed both in rural and urban areas to curb the growing gap between the demand and supply of power, which is due to increase in the per capita energy consumption and importantly, the much hyped climate change concerns. At 10464 MW, India presently ranks fifth in the world in wind power generations. The future of solar photovoltaic development in India seems to be very bright. India’s solar mission envisages the promotion of solar energy to harness and distribute environment-friendly power, available with high scalability, for sustainable economic growth by empowering national energy security.

Indian clean development mechanism projects broadly cover a range of sectors viz power generation from renewable energy, particularly wind and hydro power, biomass applications, waste heat and energy recycling. Accelerated growth is expected in renewable energy sector, particularly wind energy sector, solar energy sector, biofuels sector .etc with favourable conditions in terms of potential, technical support facilities, policy framework and regulatory environment, robust manufacturing base, and investors confidence in the country.

 

 

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GOOD FUTURE PROSPECTS FOR SOLAR THERMAL POWER PLANT - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Production Schedule

The growing industrialization and associated use of energy have led the world to face energy crisis which is gaining serious concern day by day. In principle, solar energy can supply all the present and future energy needs of the world on a continuous basis. This makes it one of the most promising of the non-conventional energy sources. India has made marked gains in the construction of both hydro-electric and thermal power generating plants. Installed generating capacity has increased manifold since demand has increased at an even faster rate. Thus the burden of power generation is still on fossil fuels. Solar energy can play an important role in meeting energy demands in future years. Thus greater stress should be given on technical development for collection and storage of solar energy. If this solar energy is converted to electricity this can meet the growing demands. Thus Indian Industries will get a great benefit. Solar systems are powered by energy from the sun. Two generic types of solar-electric systems are solar photovoltaics and solar thermal electric. The direct utilization based on thermal and photovoltaic are of prime importance because it involves both storage and conversion into chemical as well as electrical form of energy. Solar thermal technologies convert radiant energy from the sun of thermal energy. For low-temperature applications (typically below about 200ºF [95ºC]) such as domestic water heating, concentration of the sunlight is not required. To achieve the high temperatures required for generation of electrical power, the solar energy must be concentrated. All solar thermal electric technologies include a collector, which redirects and concentrates the insolation on a receiver. In the receiver, the solar energy is absorbed, heating a fluid that powers a heat engine to generate electricity. In some systems, a heat exchanger may be used for power generation. Three principal solar thermal concentrator concepts are currently under development for power generation: parabolic trough, central receiver, and parabolic dish. The parabolic trough is the most advanced of the concentrator systems. This technology is used in the largest grid connected solar-thermal power plants in the world. A parabolic trough collector has a linear parabolic-shaped reflector that focuses the sun's radiation on a linear receiver located at the focus of the parabola. The collector tracks the sun along one axis from east to west during the day to ensure that the sun is continuously focused on the receiver. Because of its parabolic shape, a trough can focus the sun at 30 to 100 times its normal intensity (concentration ratio) on a receiver pipe located along the focal line of the trough, achieving operating temperatures over 400 degrees Celcius. A collector field consists of a large field of single-axis tracking parabolic trough collectors. The solar field is modular in nature and is composed of many parallel rows of solar collectors aligned on a north-south horizontal axis. A working (heat transfer) fluid is heated as it circulates through the receivers and returns to a series of heat exchangers at a central location where the fluid is used to generate high-pressure superheated steam. The steam is then fed to a conventional steam turbine/generator to produce electricity. After the working fluid passes through the heat exchangers, the cooled fluid is recirculated through the solar field. The plant is usually designed to operate at full rated power using solar energy alone, given sufficient solar energy. Flat Plate Collectors are the most common type of solar water heating systems for residential and commercial applications. Flat plate collector systems are used comfort heating of a home or commercial building in the winter and for domestic hot water production throughout the year. Flat plate collectors usually heat water to temperatures ranging from 150º to 200º F (66º to 93º C). The efficiency of flat plate collectors varies from manufacturer to manufacturer, and system to system, but usually ranges from as low as 20% to as high as 80%. Solar thermal power is one of the most promising ways to provide renewable energy, giving the fact that it can compete in the middle/long term with conventional power plants. As a result of international cooperation and government grants, many demonstration projects have been carried out or are still in progress. India supports development of both solar thermal and solar photovoltaics (PV) power generation. To demonstrate and commercialize solar thermal technology in India, MNES is promoting megawatt scale projects such as the proposed 35MW solar thermal plant in Rajasthan and is encouraging private sector projects by providing financial assistance from the Ministry. Involvement in the project of various players in the energy sector, such as local industries, the private construction and operations contractors, Rajasthan State Power Corporation Limited (RSPCL), Rajasthan State Electricity Board (RSEB), Rajasthan Energy Development Agency (REDA), Central Electricity Authority (CEA), MNES and others, will help to increase the capacity and capability of local 5technical expertise and further sustain the development of solar power in India in the longer term.
Plant capacity: -Plant & machinery: -
Working capital: -T.C.I: -
Return: 1.00%Break even: N/A
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SOLAR PHOTOVOLTAIC POWER 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

The growing industrialization and associated use of energy have led the world to face energy crisis which is gaining serious concern day by day. The development of a new energy basis for continued economic growth has therefore become an urgent necessity. With the help of solar power technology, we can tap sun energy in many ways. Solar cells, otherwise known as photovoltaic or photoelectric cells are the most popular devices that help to convert sunlight into electricity. In combination with modules, they are used to manufacture solar panels. Solar energy is also used in the functioning of solar water heaters, melting steel, creating hydrogen fuel and making electricity through solar furnaces. The reflective surfaces used in these solar furnaces helps in concentrating all of sun’s energy into a strategic point which in turn generates a large amount of heat and there by electricity. The majority of photovoltaic modules are used for grid connected power generation. For more than three decades, solar power generated electricity has been dismissed as too costly. But the cost of solar generated electricity is consistently coming down, while the cost of conventional electricity is increasing. Advances in solar cell technology, conversion efficiency and system installation have allowed photovoltaic system (PV) to achieve cost structures that are competitive with other peaking power sources. PV has the unique advantage among renewable resources of being able to produce power anywhere: deserts, cities or suburbs. Though the installation cost of PV is more, but it can be selectively deployed on the grid wherever and whenever needed to reduce distribution capacity constraints and transmission congestion while producing pollution-free power. Both capital costs and operating and maintenance costs are driven by the choice of technology and the area of the solar system. The time is right for the world to adopt the clean and renewable energy source as the major electricity producer. With most part of India enjoying close to 300 sunny days a year, even if 0.5% of land area is brought under solar power, it can meet the entire energy requirement of India in 2030. The Indian government has announced its Solar Mission under the National Action Plan on Climate Change in November 2009 with the goal to generate 1,000 MW of solar power by 2013 and 20,000 MW by 2020. World solar photovoltaic (PV) market installations reached a record high of 7.3 GW in 2009, representing growth of 20% over the previous year, according to the annual PV market report issued by Solarbuzz. The PV industry generated $38.5 billion in global revenues in 2009, while successfully rising over US$13.5 billion in equity and debt, up 8% on the prior year. Indian Government has taken several steps, both on the supply side and the demand side, to offer key incentives to aid the development of solar PV industry. Currently India has 10-12 solar PV cells manufacturers producing about 100 MW of solar PV cells and about 20 manufacturers engaged in module manufacturing with installed capacity of 120 MW. Moreover, currently India has more than 200 manufacturers of solar water heaters and 40 solar cooker manufacturers, and also 5-6 manufacturers are involved in producing solar drying, cooking, process heat, and air conditioning applications. India already is witnessing a huge surge in applications for solar power, varying from street lighting to water heating. Decentralized Distributed Generation (DDG) for meeting rural demand, back-up power for telecommunications, roof based captive systems for individual industries and grid interactive solar power plants are some prominent sectors offering significant market potential for solar PV in India. There is a bright future and good scope for new entrepreneurs in this sector in the coming years.
Plant capacity: 1 MWPlant & machinery: 1435 Lakhs
Working capital: -T.C.I: Cost of Project : 1871 Lakhs
Return: 11.00%Break even: 93.00%
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Bagasse based Cogeneration Power Plant - Manufacturing Plant, Detailed Project Report, Profile, Business Plan, Industry Trends, Market Research, Survey, Manufacturing Process, Machinery, Raw Materials, Feasibility Study, Investment Opportunities

Energy demand is fast increasing with rapid industrialization and urbanization in India. In a developing economy like India, generally energy demand is increasing at much faster pace than supply. Increasing demand also leads to increase in cost of energy, hence high power tariffs for consumers. Increasing price of petroleum crude and other fossil fuels, world over and in India in the last two decades, has forced us to look for cheaper, renewable sources of energy. Use of bio-mass generated from Agriculture and Agro-process industries are the prime and readily available sources of renewable energy. Cogeneration based on Rankine Cycle is not new to the sugar industry. The term power generation in the engineering sense implies the production of mechanical or electrical power from some other source of energy e.g., thermal hydroelectric or electrochemical energy. India is the second largest producer of Sugar cane in world after Brazil. Indian Sugar mills both in the private and co-operative or joint sector have accepted the importance of implementing high efficiency grid connected cogeneration power plant for generating exportable surplus. In fact, additional revenue stream by sale of exportable power to State Electricity Boards (or third party customers), has become the only way for achieving long term sustainability, given the fiercely competitive domestic and international sugar markets. Sugarcane Bagasse is an ideal renewable source of energy and is readily available from Sugar mills. Conventional means of power generation have used air, steam or water as a working medium for internal combustion engines reciprocating steam engines and steam and hydraulic turbines. Newer techniques such as magnetohydrodyamics, fuel-cell wind and solar power are under investigation and may eventually prove important. Per capita power consumption is a barometer of country's prosperity, economic growth and industrialization. Major portion of the additional power requirement will have to be met through thermal generation. Co-generation power plant (Power Plant) based on bagasse makes use of generation of power from bagasse as fuel. Cogeneration is the simultaneous production of process heat and electric power using single fuel. Biomass fuel can also be used in cogeneration plants for enhancing their efficiency. Biomass combustion facilities that produce electricity from steam-driven-turbine generators have a conversion efficiency of nearly 17 to 25 percent. Using a boiler to produce both heat and electricity (cogeneration) improves over all system efficiency to as much as 85 percent. That is, cogeneration converts 85 percent of the fuel’s potential energy into useful energy in two forms; electricity and steam heat. Cogeneration facilities increase economic viability and profitability of an industry. Cogeneration projects based on agro waste, like rice husk, bagasse etc. as fuel result is lowering the cost of energy generation, low capital investment, higher profitability of plant due to substantial reduction in cost of production and enhanced productivity and less consumption of costly and scarce fuels like diesel oil. The installed power generation of the country stood at 167,077.36MW during FY2010-2011. The Indian government has set ambitious goals in the 11th plan for power sector owing to which the power sector is poised for significant expansion. In order to provide availability of over 1000 units of per capita electricity by year 2012, it is estimated that, need-based capacity addition of more than 100,000 MW would be required. This has resulted in massive addition plans being proposed in the sub-sectors of Generation, Transmission and Distribution leaving ample space for new players. There is a very good scope in the power sector and new entrepreneurs should venture into this field.
Plant capacity: 10 MWPlant & machinery: 1423 Lakhs
Working capital: -T.C.I: Cost of Project : 3214 Lakhs
Return: 1.00%Break even: 49.00%
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Biomass Power Generation 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

Biomass is biological material derived from living, or recently living organisms. In the context of biomass for energy this is often used to mean plant based material, but biomass can equally apply to both animal and vegetable derived materials. Biomass is a plant matter used to generate electricity or produce heat, usually by direct incineration. Examples include forest residues (such as dead trees, branches and tree stumps), yard clippings, wood chips and even municipal solid waste. In the second sense, biomass includes plant or animal matter that can be converted into fibers or other industrial chemicals, including biofuels. Industrial biomass can be grown from numerous types of plants including nuscanthus thus, switch grass, hemp, corn, poplar, willow, sorghum, sugarcane and variety of tree species ranging from eucalyptus to oil plam. India’s energy development programme has been put to serve pressure with the ever increasing demand gap and mismatch of resources coupled with nonuniform growth curve. Increase in demand for energy due to rapid industrialization and growing population, constraint of financial resources for enhancing infrastructure use facility, limited reserves of coal and fossil fuels the challenges faced by India in the management and development of the power sector. There are good scope for biomass power plant in India. So new entrepreneur entered in this field will be successful. Few Indian Major Players are as under: Agrawal Oil Extractions Ltd. Ankit Metal & Power Ltd. Davangere Sugar Co. Ltd. H P L Cogeneration Ltd. M S P Steel & Power Ltd. Nava Bharat Ventures Ltd. Parrys Sugar Industries Ltd. S R H H L Industries Ltd. Sree Metaliks Ltd. Sree Rayalaseema Alkalies & Allied Chemicals Ltd. Sunflag Iron & Steel Co. Ltd. T C P Ltd.
Plant capacity: 1 MWPlant & machinery: 373 Lakhs
Working capital: -T.C.I: Cost of Project : 543 Lakhs
Return: 50.00%Break even: 51.00%
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Solar Cells - 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

Profile Solar cells are the devices where solar energy is directly converted into electricity. Solar cells are made of naturally available semiconductors such as silicon and germanium. The resistivity of these materials is between those of conductors and insulators. Therefore they are called semiconductors. They behave like insulators at low temperature and like conductors above room temperature. To increase its conductivity semiconductors are doped with impurities. Semiconductors which are doped with impurities like boron or aluminium are termed as p-type semiconductors and those doped with impurities like phosphorous, are called n type semiconductors. In p type semiconductors holes are majority carriers and electrons are minority carriers and in n type semiconductors electrons are majority carriers and holes are minority carriers. Properties • High efficiency and stable performance in photovoltaic conversion. • Advanced diffusion technique ensuring the homogeneity of energy conversion efficiency of the cell. • Advanced PECVD film forming, providing a dark blue silicon nitride anti reflection film of homogenous color and attractive appearance. • High quality metal paste for back surface and electrode, ensuring good conductivity, high pulling strength and ease of soldering. • High precision patterning using screen printing, ensuring accurate busbar location for ease with automatic soldering a laser cutting. Advantages Solar cells are used to generate energy using the sun, which is a renewable source of energy, in place of using non eco friendly methods like burning fuel. The increasing use of Solar cell technology to produce energy gives a clear indication of the increasing awareness about the declining level of fossil fuels and their impact on the environment. The electricity produced through solar technology is being used to power homes, cars and appliances. This has made solar technology to be one of the most important advances in technology in recent times. There are many benefits of using Solar cell technology for generating power. • solar energy is renewable • 100% environment friendly technology, this technology is not going to release any greenhouse gases, harmful agents, volatile material or carbon dioxide into the environment. • highly durable and reliable Global Market Scenario Solar electric energy demand has grown by an average 30% per annum over the past 20 years against a backdrop of rapidly declining costs and prices. This decline in cost has been driven by economies of manufacturing scale, manufacturing technology improvements, and the increasing efficiency of solar cells. In 2009, the photovoltaic solar industry generated $38.5 billion in revenues globally, which includes the sale of solar modules and associated equipment, and the installation of solar systems. Solar buzz produces various forecast scenarios which, depending on the factors, see growth in the world PV market from $46.3 billion to $96.8 billion in 2014.PV installations grew to 7.3 GW in 2009, up 20% from the prior year. The various forecast scenarios predict demand rising to 15.4 37 GW in 2014, more than five times the size of the 2009 market. The worldwide on-grid segment grew by 20% in 2009, and the off grid market grew 23% in 2009, faster than on grid for the first time in 15 years but on a much smaller base. Cost Estimation: Capacity : Plant and Machinery: Rate of return : 44% BEP : 32%
Plant capacity: 288000000 Pcs/AnnumPlant & machinery: 360 Crore
Working capital: -T.C.I: Cost of project : 400 Crore
Return: 44.00%Break even: 32.00%
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Power Generation from Garbage - 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

Managing waste is the collection and ultimate disposal of the waste without causing environmental damage. Power generation from waste is one of unique thinking of country growth. It is prime need in all over our countries as well as mostly under developed country and developing countries. Since there is a lot of dry garbages available throughout all the countries in the world; waste is unavoidable by product of any activity. Composting is a spontaneous biological decomposition process of organic materials in a predominantly aerobic environment. Collection is the component of waste management which comprises lifting and removal / passage of a waste material from the source of production to either the point of treatment or final disposal. ? Market Survey Renewable power generation includes biomass gasifiers, biomass power, urban and industrial waste power, wind energy etc. India has a potential for developing these renewable sources to bridge the gap between available and required electricity. Agricultural waste generated by several agricultural activities has many alternative uses. Waste to energy plants burn municipal solid waste (MSW) to generate electricity or heat. The power generation industry in India has been taking rapid strides with greater private participation and diversification of the fuel mix. The government is actively supporting the sectors development by creating a conductive policy environment, with a focus being on promoting investments in domestic manufacturing capacity, clean and efficient supercritical technology, and renewable power, among other things.
Plant capacity: 5 MWPlant & machinery: Rs.1940 Lakhs
Working capital: -T.C.I: Rs.3231 Lakhs
Return: 36.00%Break even: 40.00%
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Solar Panel

A solar panel is a collection of solar cells. Lots of small solar cells spread over a large area can work together to provide enough power to be useful. The more light that hits a cell the more electricity it produces, so spacecraft are usually designed with solar panels that can always be pointed at the Sun even as the rest of the body of the spacecraft moves around, much as a tank turret can be aimed independently of where the tank is going. Solar panel refers either to a photovoltaic module, a solar thermal energy panel, or to a set of solar photovoltaic (PV) modules electrically connected and mounted on a supporting structure. A PV module is a packaged, connected assembly of solar cells. Solar panels can be used as a component of a larger photovoltaic system to generate and supply electricity in commercial and residential applications. Uses Assemblies of photovoltaic cells are used to make solar modules which generate electrical power from sunlight, as distinguished from a "solar thermal module" or "solar hot water panel." The electrical energy generated from solar modules, colloquially referred to as solar power, is an example of solar energy. The PV MARKET has been on an upward trend for years now. The market is expected to continue to grow until 2050. The demand far outstrips supply and there is a huge gap to be filled. In India, there is about 1.4 GW of module manufacturing capacity and this is expected to increase in the future since the solar PV segment is one part of the entire value chain where the barriers to entry is relatively low. Thus, as an entrepreneur, solar module production offers an exciting opportunity to you. Few Indian Major Players are as under • Central Electronics Ltd. • Environ Energy-Tech Services Ltd. • Epic Energy Ltd. • Euro Multivision Ltd. • H B L Power Systems Ltd. • Helios Photo Voltaic Ltd. • I T I Ltd. • Indosolar Ltd. • J S W Green Energy Ltd. • Jupiter Solar Power Ltd. • N E P C India Ltd. • P L G Power Ltd. • Pentafour Solec Technology Ltd. • Photon Energy Systems Ltd. • Rajasthan Electronics & Instruments Ltd. • Reliance Industries Ltd. • Renewable Energy Systems Ltd. • Res Photovoltaics Ltd. • Shurjo Energy Pvt. Ltd. • Surana Ventures Ltd. • Tata Power Solar Systems Ltd. • Titan Energy Systems Ltd. • Udhaya Semiconductors Ltd. • Ujaas Energy Ltd. • Usha (India) Ltd. • Websol Energy System Ltd. • X L Energy Ltd.
Plant capacity: Solar Panel 5MW/AnnumPlant & machinery: Rs 109 Lakhs
Working capital: -T.C.I: Cost of Project: Rs 450 Lakhs
Return: 25.00%Break even: 62.00%
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Solar Power 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

Renewable energy in India comes under the purview of the Ministry of New and Renewable Energy. India was the first country in the world to set up a ministry of non-conventional energy resources, in early 1980s. India's cumulative grid interactive or grid tied renewable energy capacity (excluding large hydro) has reached 33.8 GW, of which 66% comes from wind, while solar PV contributed nearly 4.59% along with biomass and small hydro power of the renewable energy installed capacity in India. Fossil fuel reserves are diminishing rapidly across the world, intensifying the stress on existing reserves day-by-day due to increased demand. Not only that, fossil fuels, presently contributing to 80% of world primary energy, are inflicting enormous impacts on environment. Climatic changes driven by human activities, in particular the production of greenhouse gas emissions, directly impact the environment. Energy sector has a key role in this regard since energy during its production, distribution and consumption is responsible for producing environmentally harmful substances. A secure and accessible supply of energy is thus very crucial for the sustainability of modern societies. There is an urgent need for a quicker switch over of energy systems from conventional to renewable that are sustainable and can meet the present and projected world energy demand. Solar power is one of the most promising renewable. It is reliable and less vulnerable to changes in seasonal weather patterns. Hydrogen, in the capacity of energy vector, is expected to be the optimum solution for intermittency and storage of energy produced by renewable. Thus, coupled with hydrogen as an energy carrier, solar energy has a large potential to become the fuel of the future. The present study is aimed to explore such potential for India in 2025. India is expected to have a high growth rate in energy demand over the coming years due to its huge population and rapid economic development. Few Indian Major Players are as under • Bhagyanagar India Ltd. • C P E C Ltd. • Central Electronics Ltd. • Environ Energy-Tech Services Ltd. • Epic Energy Ltd. • Gujarat Mineral Devp. Corpn. Ltd. • H B L Power Systems Ltd. • Harsha Engineers Ltd. • I T I Ltd. • Indian Metals & Carbide Ltd. • Indosolar Ltd. • J S W Green Energy Ltd. • Jai Bharat Gum & Chemicals Ltd. • Jain Irrigation Systems Ltd. • Moser Baer Solar Ltd. • N E P C India Ltd. • P L G Power Ltd. • Rajasthan Electronics & Instruments Ltd. • Reliance Industries Ltd. • Shurjo Energy Pvt. Ltd. • Star Delta Transformers Ltd. • Surana Solar Ltd. • Surana Telecom & Power Ltd. • Swelect Energy Systems Ltd. • Titan Energy Systems Ltd. • Ujaas Energy Ltd. • Usha (India) Ltd. • Websol Energy System Ltd. • X L Energy Ltd.
Plant capacity: Solar Power 10 MW: 60,000 KWH/ DayPlant & machinery: Rs 5512 Lakhs
Working capital: -T.C.I: Cost of Project : Rs 8447 Lakhs
Return: 5.68%Break even: 53.14%
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Solar Power 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

Renewable energy in India comes under the purview of the Ministry of New and Renewable Energy. India was the first country in the world to set up a ministry of non-conventional energy resources, in early 1980s. India's cumulative grid interactive or grid tied renewable energy capacity (excluding large hydro) has reached 33.8 GW, of which 66% comes from wind, while solar PV contributed nearly 4.59% along with biomass and small hydro power of the renewable energy installed capacity in India. Fossil fuel reserves are diminishing rapidly across the world, intensifying the stress on existing reserves day-by-day due to increased demand. Not only that, fossil fuels, presently contributing to 80% of world primary energy, are inflicting enormous impacts on environment. Climatic changes driven by human activities, in particular the production of greenhouse gas emissions, directly impact the environment. Energy sector has a key role in this regard since energy during its production, distribution and consumption is responsible for producing environmentally harmful substances. A secure and accessible supply of energy is thus very crucial for the sustainability of modern societies. There is an urgent need for a quicker switch over of energy systems from conventional to renewable that are sustainable and can meet the present and projected world energy demand. Solar power is one of the most promising renewable. It is reliable and less vulnerable to changes in seasonal weather patterns. Hydrogen, in the capacity of energy vector, is expected to be the optimum solution for intermittency and storage of energy produced by renewable. Thus, coupled with hydrogen as an energy carrier, solar energy has a large potential to become the fuel of the future. The present study is aimed to explore such potential for India in 2025. India is expected to have a high growth rate in energy demand over the coming years due to its huge population and rapid economic development. Few Indian Major Players are as under • Bhagyanagar India Ltd. • C P E C Ltd. • Central Electronics Ltd. • Environ Energy-Tech Services Ltd. • Epic Energy Ltd. • Gujarat Mineral Devp. Corpn. Ltd. • H B L Power Systems Ltd. • Harsha Engineers Ltd. • I T I Ltd. • Indian Metals & Carbide Ltd. • Indosolar Ltd. • J S W Green Energy Ltd. • Jai Bharat Gum & Chemicals Ltd. • Jain Irrigation Systems Ltd. • Moser Baer Solar Ltd. • N E P C India Ltd. • P L G Power Ltd. • Rajasthan Electronics & Instruments Ltd. • Reliance Industries Ltd. • Shurjo Energy Pvt. Ltd. • Star Delta Transformers Ltd. • Surana Solar Ltd. • Surana Telecom & Power Ltd. • Swelect Energy Systems Ltd. • Titan Energy Systems Ltd. • Ujaas Energy Ltd. • Usha (India) Ltd. • Websol Energy System Ltd. • X L Energy Ltd.
Plant capacity: Solar Power 10 MW:60,000 KWH/ DayPlant & machinery: Rs 5512 Lakhs
Working capital: -T.C.I: Cost of Project :Rs 8447 Lakhs
Return: 5.68%Break even: 53.14%
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SOLAR PANEL- 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

Solar Panels are in general Silicon made Rectangular Shaped Glass Covered Products which Produce Electricity when exposed to the Sun. These Panels produce Direct Current (DC) Electricity which has to be converted by a Solar Invertr to Alternating Current (AC) Electricity to be used by Consumers. . Solar Panel produced Electricity usually costs between Rs 15-18 /KwH (much higher than the Rs 3-6/unit paid normally) which makes it uneconomical except in special cases like off grid applications. Replacing expensive Diesel powered Telecom Towers with Solar Panels is also an option. Sharply falling Solar Panel costs should make it competitive with your electricity in 2-3 years. In places like Italy, Solar Electricity is already competitive due to high prices of electricity. Conversion of light energy in electrical energy is based on a phenomenon called photovoltaic effect. Silicon is the most widely used semiconductor material for constructing photovoltaic cell. When semiconductor materials are exposed to light, the some of the photons of light ray are absorbed by the semiconductor crystal which causes significant number of free electrons in the crystal. This is the basic reason of producing electricity due to photovoltaic effect. The heart of the solar energy generation system is the Solar cell. It consists of three major elements, namely:- the semiconductor material, junction formed within the semiconductor, the contacts on the front and back of the cell that allow the current to flow to the external circuit. Uses and Application of photovoltaic are in agriculture, industry, telecommunication and public services. Solar power is attractive because it is abundant and offers a solution to fossil fuel emissions and global climate change. Earth receives solar energy at the rate of approximately 1,73,000 TW. In terms of all renewable energy, currently India is ranked fifth in the world with 15,691.4 MW grid-connected and 367.9 MW off-grid renewable energy based power capacity. India is among top 5 destinations worldwide for solar energy development as per Ernst & Young’s renewable energy attractiveness index. As a whole there is a good scope for entrepreneurs for investment.
Plant capacity: Solar PV Module (240 watt) : 350 Nos/day (25 MW)Plant & machinery: Rs 278 Lakhs
Working capital: -T.C.I: Cost of project: Rs 852 Lakhs
Return: 29.00%Break even: 58.00%
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Information
  • 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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NIIR PROJECT CONSULTANCY SERVICES (NPCS) is a reliable name in the industrial world for offering integrated technical consultancy services. NPCS is manned by engineers, planners, specialists, financial experts, economic analysts and design specialists with extensive experience in the related industries.

Our various services are: Detailed Project Report, Business Plan for Manufacturing Plant, Start-up Ideas, Business Ideas for Entrepreneurs, Start up Business Opportunities, entrepreneurship projects, Successful Business Plan, Industry Trends, Market Research, Manufacturing Process, Machinery, Raw Materials, project report, Cost and Revenue, Pre-feasibility study for Profitable Manufacturing Business, Project Identification, Project Feasibility and Market Study, Identification of Profitable Industrial Project Opportunities, Business Opportunities, Investment Opportunities for Most Profitable Business in India, Manufacturing Business Ideas, Preparation of Project Profile, Pre-Investment and Pre-Feasibility Study, Market Research Study, Preparation of Techno-Economic Feasibility Report, Identification and Selection of Plant, Process, Equipment, General Guidance, Startup Help, Technical and Commercial Counseling for setting up new industrial project and Most Profitable Small Scale Business.

NPCS also publishes varies process technology, technical, reference, self employment and startup books, directory, business and industry database, bankable detailed project report, market research report on various industries, small scale industry and profit making business. Besides being used by manufacturers, industrialists and entrepreneurs, our publications are also used by professionals including project engineers, information services bureau, consultants and project consultancy firms as one of the input in their research.

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