Implement of solar power panel at LPU
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Solar power plant in LPU
A brief case study on solar power plant in Lovely Professional University Campus situated in Jalandhar,Punjab.
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Implentation of solar power plant in lpu
The document summarizes the solar power plant implemented at Lovely Professional University (LPU). The 99kW solar plant, constructed in 2013 with an investment of 1 crore rupees, produces 400-500 units per day and 150,000 units per year. It helps LPU save energy costs and promote sustainable development. The plant's 396 solar panels are connected in series and parallel configurations to five inverters, which convert the direct current to alternating current used by LPU. The plant thereby reduces LPU's reliance on non-renewable energy sources.
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This document discusses solar power plants. It begins by defining solar energy and describing the two main types: thermal and electric. It then discusses why solar energy is important due to depletion of fossil fuels. The main uses of solar energy are in power plants, water treatment, heating, and cooking. The two main types of solar power plants are photovoltaic plants and concentrated solar power plants. Photovoltaic plants directly convert sunlight to electricity using solar panels, while concentrated solar plants use mirrors to focus sunlight and convert it to heat before generating electricity. The document provides examples of techniques used in concentrated solar plants and lists some of the largest solar power plants currently operating in India.
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Solar energy can be harnessed using technologies like solar heating, photovoltaics, and concentrating solar power. There are two main types - passive solar, which uses sunlight without external mechanical power, and active solar, which uses mechanical or electrical power. Solar energy can be directly converted to electricity via photovoltaic panels or indirectly via solar thermal collectors that capture heat. Large solar power plants use thousands of solar panels or mirrors to generate electricity on a utility scale. Solar energy can be stored using batteries in off-grid homes or by feeding excess electricity to the grid via net metering.
solar technology
Solar energy can be harnessed using various technologies such as solar heating, solar photovoltaics, and solar thermal electricity. Photovoltaic cells convert sunlight directly into electricity using semiconducting materials like silicon. Several photovoltaic cells connected together form solar panels, which can be installed on rooftops or in large solar farms. Solar thermal technologies use sunlight to generate thermal energy or heat water/fluids, which can then be used to produce electricity through steam turbines or engines. Common solar thermal collector designs include parabolic troughs, power towers, and dish systems.
solar cells
The document discusses the history and development of solar power as an alternative renewable energy source. It describes how concerns over dependency on non-renewable energy in the 1970s led scientists to research new sources. Their work established solar power generated through concentrating solar and photovoltaic methods. The document then provides details on the technology behind solar cells and panels, and how they are able to convert sunlight into usable electricity through photovoltaic effects and semiconductor materials.
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This document discusses different types of solar power technologies. It begins by explaining how traditional solar panels work by using silicon to convert sunlight into electricity. It then describes potential uses for solar panels, like on highways. A new spray-on solar panel technology is introduced that could lower costs by applying panels like paint. While this new approach may be cheaper and more flexible, traditional panels are currently more efficient. The document concludes by listing additional resources on solar power.
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Solar power plant in LPU
A brief case study on solar power plant in Lovely Professional University Campus situated in Jalandhar,Punjab.
#LPU
#Solar_power_plant
#case_study
#engneering
#Lovely_Professional_University
Implentation of solar power plant in lpu
The document summarizes the solar power plant implemented at Lovely Professional University (LPU). The 99kW solar plant, constructed in 2013 with an investment of 1 crore rupees, produces 400-500 units per day and 150,000 units per year. It helps LPU save energy costs and promote sustainable development. The plant's 396 solar panels are connected in series and parallel configurations to five inverters, which convert the direct current to alternating current used by LPU. The plant thereby reduces LPU's reliance on non-renewable energy sources.
Solarpowerplant
This document discusses solar power plants. It begins by defining solar energy and describing the two main types: thermal and electric. It then discusses why solar energy is important due to depletion of fossil fuels. The main uses of solar energy are in power plants, water treatment, heating, and cooking. The two main types of solar power plants are photovoltaic plants and concentrated solar power plants. Photovoltaic plants directly convert sunlight to electricity using solar panels, while concentrated solar plants use mirrors to focus sunlight and convert it to heat before generating electricity. The document provides examples of techniques used in concentrated solar plants and lists some of the largest solar power plants currently operating in India.
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Solar energy can be harnessed using technologies like solar heating, photovoltaics, and concentrating solar power. There are two main types - passive solar, which uses sunlight without external mechanical power, and active solar, which uses mechanical or electrical power. Solar energy can be directly converted to electricity via photovoltaic panels or indirectly via solar thermal collectors that capture heat. Large solar power plants use thousands of solar panels or mirrors to generate electricity on a utility scale. Solar energy can be stored using batteries in off-grid homes or by feeding excess electricity to the grid via net metering.
solar technology
Solar energy can be harnessed using various technologies such as solar heating, solar photovoltaics, and solar thermal electricity. Photovoltaic cells convert sunlight directly into electricity using semiconducting materials like silicon. Several photovoltaic cells connected together form solar panels, which can be installed on rooftops or in large solar farms. Solar thermal technologies use sunlight to generate thermal energy or heat water/fluids, which can then be used to produce electricity through steam turbines or engines. Common solar thermal collector designs include parabolic troughs, power towers, and dish systems.
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The document discusses the history and development of solar power as an alternative renewable energy source. It describes how concerns over dependency on non-renewable energy in the 1970s led scientists to research new sources. Their work established solar power generated through concentrating solar and photovoltaic methods. The document then provides details on the technology behind solar cells and panels, and how they are able to convert sunlight into usable electricity through photovoltaic effects and semiconductor materials.
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This document discusses different types of solar power technologies. It begins by explaining how traditional solar panels work by using silicon to convert sunlight into electricity. It then describes potential uses for solar panels, like on highways. A new spray-on solar panel technology is introduced that could lower costs by applying panels like paint. While this new approach may be cheaper and more flexible, traditional panels are currently more efficient. The document concludes by listing additional resources on solar power.
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- The solution proposes setting up a solar tracker manufacturing plant in India with a Rs. 25 lakhs investment and combining solar thermal and PV technologies to increase efficiency above 50% with a Rs. 1 crore investment.
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Solar energy harnesses sunlight to produce heat or electricity. It has been used since 1860 when Auguste Mouchout first directly converted solar radiation into mechanical power. Photovoltaic cells convert sunlight into electricity through the photoelectric effect and are commonly made of silicone, CIGS, or CdTe materials. Research is ongoing to improve efficiency, with some solar cells now over 30% efficient. Governments are investing heavily in solar energy through incentives and R&D to help bring costs down and markets online.
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- Solar energy comes from thermonuclear fusion reactions in the sun and includes visible light, infrared, ultraviolet, x-rays, and radio waves.
- Only a small fraction of the sun's energy is absorbed by Earth, but this is enough to meet all our power needs.
- Solar energy can be used for solar thermal energy, solar heating, electricity generation, and photovoltaics. Common applications include water and space heating, electricity generation, transportation, calculators, and more.
- While solar energy has advantages like being renewable, pollution-free and having low maintenance, disadvantages include high initial costs, reliance on sunlight
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- Solar energy comes from the sun's radiation and more energy from the sun hits the Earth in one second than what humanity has used since the beginning of time.
- This energy can be harnessed through passive solar techniques like building orientation or active solar technologies like solar panels that directly convert sunlight to electricity.
- Solar energy has various applications from water heating to generating electricity and powering devices. It is a renewable source that produces no pollution.
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This document discusses developing a 1 MW solar power plant in India. Key points:
- A 1 MW plant can generate Rs. 1.2 lakhs per day by selling electricity at Rs. 15/unit and additional income from carbon credits of Rs. 24 lakhs annually. The government offers higher tariffs and low-interest loans for solar projects.
- The solution proposes setting up a solar tracker manufacturing plant in India with a Rs. 25 lakhs investment and combining solar thermal and PV technologies to increase efficiency above 50% with a Rs. 1 crore investment.
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SOLAR CELL AND APPLICATIONS
This document provides an overview of solar energy, including:
- Solar energy comes from thermonuclear fusion reactions in the sun and includes visible light, infrared, ultraviolet, x-rays, and radio waves.
- Only a small fraction of the sun's energy is absorbed by Earth, but this is enough to meet all our power needs.
- Solar energy can be used for solar thermal energy, solar heating, electricity generation, and photovoltaics. Common applications include water and space heating, electricity generation, transportation, calculators, and more.
- While solar energy has advantages like being renewable, pollution-free and having low maintenance, disadvantages include high initial costs, reliance on sunlight
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The document provides an overview of solar energy, including its sources and applications. Some key points:
- Solar energy comes from the sun's radiation and more energy from the sun hits the Earth in one second than what humanity has used since the beginning of time.
- This energy can be harnessed through passive solar techniques like building orientation or active solar technologies like solar panels that directly convert sunlight to electricity.
- Solar energy has various applications from water heating to generating electricity and powering devices. It is a renewable source that produces no pollution.
- Technologies to capture solar energy effectively have advanced, making it more viable to harvest and use, though upfront costs remain high for some applications.
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This document summarizes the manufacturing process of solar panels. It involves several key steps:
1) Cell testing to check parameters of solar cells like efficiency.
2) Laser scribing to cut silicon wafers into cells.
3) Stringing machines that automatically connect cells into strings.
4) Film cutting and layup to assemble cells, EVA, backsheet and glass.
5) Lamination to bond layers and remove air using heat.
6) Testing and quality control of completed panels before final framing and packaging.
The document provides details on the various machines used for each processing step.
Yogesh Solar Cells
The document discusses various types of solar cells and their working principles. It describes traditional p-n junction solar cells and introduces novel structures like back surface field cells, Schottky barrier cells, and grooved junction cells. It also covers thin film solar cells made from cheaper materials and their advantages and limitations. Next generation cell designs are presented, including tandem cells, multi-band gap cells, multiple quantum well cells, and thermophotonic and thermophotovoltaic cells that use heat to generate electricity.
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Nag ss5
The document describes a solar tree, which is a structure that uses multiple solar panels arranged like a tree to efficiently produce solar energy using less land area than traditional solar panel systems. A solar tree generates renewable energy through photosynthesis-like process, with flexible stems allowing panels to track the sun similarly to natural tree leaves. It provides energy for applications like street lighting, hospitals, and household use while reducing land usage compared to traditional solar farms. While high initial costs and potential hazards exist, solar trees offer renewable energy generation with minimal environmental impact.
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- 1. Page - of 5 Implementation of solar power panel in LPU Author Name- Parth Singal Lovely professional university, Jalandhar, Punjab Email: parthsinghal122@gmail.com Introduction- Solar power panel are implemented to make electricity using sunlight, which is known as solar power. Solar power is the conversion of energy from sunlight into electricity, either directly using photovoltaics (PV), indirectly using concentrated solar power, or a combination. Concentrated solar power systems use lenses or mirrors and tracking systems to focus a large area of sunlight into a small beam. Photovoltaic cells convert light into an electric current using the photovoltaic effect. Using solar power plant to make electricity is completely environment friendly there are no harmful effect of using them because solar power is a renewable source of energy.
- 2. Page - of 5 Some of the field works ๏ท our group is going to aware society about the benefits of using solar power. ๏ท Insist people to use solar power panel in their homes and work places. ๏ท We will help the people who wants to use solar power panels by guiding them. ๏ท We will suggest new ideas to LPU team to increase the use of solar power in the campus in more efficient and effective way. ๏ท We can also do nukadnataks to promote usage of solar power plant among the LPU management and vertos. Completed works Lovely professional university is very aware about the environment issues so they have implemented many solar power panels in the university. first solar power plant of LPU was setup in 2013. Solar power plant has placed on the terrace of block no.38 and Baldev raj mittal unipolis of LPU
- 3. Page - of 5 Terrace of baldev raj mittal unipolis Outcome ๏ท There is a least negative impact on the environment of using solar energy ๏ท Electricity bill is reduced ๏ท All the fans and lights which are under the Baldev Raj Mttal Unipolis are running on the electricity generated by solar plant ๏ท It also effects in the increasing of job creation Conclusion First solar power plant was setup in 2013 in lovely professional university and LPU is using solar power in very effective manner and they are increasing the no of solar power panels in the campus day by day and it is very important to use these kind of renewable resources of energy to mark our steps in the direction of sustainable development.
- 4. Page - of 5 And as we are students of environmental studies we have also done some work towards spreading the social awareness to more use solar energy and renewable resources of energy. Acknowledgement we would like to express my special thanks of gratitude to my environmental studies teacher Ravdeep Kaur who gave me the golden opportunity to do this wonderful project on the topic Implementation of solar power panel in LPU, which also helped me in doing a lot of Research and i came to know about so many new things I am really thankful to them. Secondly we would also like to thank our seniors and friends who helped me a lot in finalizing this project within the limited time frame. References: ๏ท www.slideshare.net/sudhanshukumar1/solarpower-plant-at- LPU ๏ท http://en.m.wikipedia.org/wiki/solarpower