Forest Sustainable - Solar + Windmill Energy SolutionSandeep Viswanath
PRODUCE OWN ENERGY - ACHEIVE 100% POWER BACKUP
High Growth Indian Solar Market:-
With roof-top solar energy, we can reduce the electricity bill up to 100%.
Every second, the sun produces enough energy to power the earth several times over, and our renewable energy solution is helping home and business owners to produce own power to provide remarkable support to nature and society.
Future Solar Air Conditioning offers solar-powered air conditioning systems for both large-scale and future household applications. The systems use solar thermal energy and operate without compressors or CFCs, providing silent, eco-friendly cooling and potential savings on electricity bills. They can fulfill daily cooling requirements for offices, homes, and other buildings in an environmentally friendly way.
Future Solar Air Conditioning offers solar-powered air conditioning systems for both large-scale and future household applications. The systems use solar thermal energy and operate without compressors or CFCs, providing cooling through absorption technology with over 93% COP efficiency. Benefits include huge electricity savings, free hot and cool water production, a payback period of less than two years, and eligibility for eco-friendly awards. The systems are suitable for various commercial and residential buildings.
The document summarizes the Praterkraftwerk hydroelectric power plant located in Munich, Germany. Water from the Isar River flows through a large pipeline to the plant's turbine, which drives a generator to produce electricity. A filter prevents fish from being absorbed in the pipeline. After passing through the turbine, the water flows back into the river. The Praterkraftwerk provides green energy for 4,000 households in Munich and saves up to 9,000 tons of carbon dioxide per year compared to conventional power plants.
A wind turbine converts the kinetic energy of wind into rotational shaft energy using blades or sails to spin a generator that produces electricity. Wind turbines come in small, intermediate, and large sizes to provide power for homes, farms, villages or large centralized wind farms. The key components of a wind turbine are the blades, shaft, generator, tower and foundation. Wind speed, air density, and the surface area swept by the turbine blades determine the amount of power that can be captured from the wind.
The document provides tips for conserving energy such as turning off taps, monitors, lights, and air conditioners when not in use, as well as switching off the gas when not needed in order to preserve energy for a sustainable future.
Hydroelectric power stations convert the potential energy of water stored in reservoirs into kinetic energy as it flows through turbines, generating electricity with around 90% efficiency. Wind turbines convert the kinetic energy of wind into electricity at 35-60% efficiency. Solar photovoltaic cells emit electrons when struck by sunlight to generate electricity at 12-25% efficiency. Efficiencies vary depending on environmental conditions like wind speed and sunlight. Advantages are being renewable with no pollution, but disadvantages include high initial costs and variability in energy production. Electricity is transmitted at high voltages like 400,000V on grids to reduce energy losses, then stepped down using transformers to 230V for homes.
Forest Sustainable - Solar + Windmill Energy SolutionSandeep Viswanath
PRODUCE OWN ENERGY - ACHEIVE 100% POWER BACKUP
High Growth Indian Solar Market:-
With roof-top solar energy, we can reduce the electricity bill up to 100%.
Every second, the sun produces enough energy to power the earth several times over, and our renewable energy solution is helping home and business owners to produce own power to provide remarkable support to nature and society.
Future Solar Air Conditioning offers solar-powered air conditioning systems for both large-scale and future household applications. The systems use solar thermal energy and operate without compressors or CFCs, providing silent, eco-friendly cooling and potential savings on electricity bills. They can fulfill daily cooling requirements for offices, homes, and other buildings in an environmentally friendly way.
Future Solar Air Conditioning offers solar-powered air conditioning systems for both large-scale and future household applications. The systems use solar thermal energy and operate without compressors or CFCs, providing cooling through absorption technology with over 93% COP efficiency. Benefits include huge electricity savings, free hot and cool water production, a payback period of less than two years, and eligibility for eco-friendly awards. The systems are suitable for various commercial and residential buildings.
The document summarizes the Praterkraftwerk hydroelectric power plant located in Munich, Germany. Water from the Isar River flows through a large pipeline to the plant's turbine, which drives a generator to produce electricity. A filter prevents fish from being absorbed in the pipeline. After passing through the turbine, the water flows back into the river. The Praterkraftwerk provides green energy for 4,000 households in Munich and saves up to 9,000 tons of carbon dioxide per year compared to conventional power plants.
A wind turbine converts the kinetic energy of wind into rotational shaft energy using blades or sails to spin a generator that produces electricity. Wind turbines come in small, intermediate, and large sizes to provide power for homes, farms, villages or large centralized wind farms. The key components of a wind turbine are the blades, shaft, generator, tower and foundation. Wind speed, air density, and the surface area swept by the turbine blades determine the amount of power that can be captured from the wind.
The document provides tips for conserving energy such as turning off taps, monitors, lights, and air conditioners when not in use, as well as switching off the gas when not needed in order to preserve energy for a sustainable future.
Hydroelectric power stations convert the potential energy of water stored in reservoirs into kinetic energy as it flows through turbines, generating electricity with around 90% efficiency. Wind turbines convert the kinetic energy of wind into electricity at 35-60% efficiency. Solar photovoltaic cells emit electrons when struck by sunlight to generate electricity at 12-25% efficiency. Efficiencies vary depending on environmental conditions like wind speed and sunlight. Advantages are being renewable with no pollution, but disadvantages include high initial costs and variability in energy production. Electricity is transmitted at high voltages like 400,000V on grids to reduce energy losses, then stepped down using transformers to 230V for homes.
power consumption of household equipments in indiaAlbi Thomas
This document provides examples to calculate the electricity consumed, in kilowatt-hours (kWh), by various household appliances and electronics. It lists the wattage of common devices like lights, fans, refrigerators, washing machines, and more. It then shows sample calculations of kWh used for each appliance running for a given time period. The examples demonstrate how to find daily or yearly kWh by multiplying the wattage by hours used and dividing by 1000. The document aims to educate people on estimating electricity consumption of appliances and identifying ways to save energy.
Wind energy provides a clean, renewable source of electricity that could meet over twice the current electricity demand in the United States. Wind turbines generate electricity through the rotation of blades connected to a shaft that spins a generator without emitting pollutants or consuming water. Farmers and ranchers can also benefit financially from hosting wind turbines on their land. Additionally, wind turbines are durable and can operate in a variety of climates around 80% of the world.
This document contains FAQs (Frequently Asked Questions) on solar inverters. The reader will get a very good idea about solar inverters, the different types, and where they are used.
Know the Utility of Off-Grid Solar Power System; the Power Solutionsolarplants
Off-grid systems work independently and have batteries which can store the solar power generated by the system. The panels store sunlight during the day and use the excess power generated in the night.
Power electronics technology in wind turbine systempranavi kasina
The document discusses the increasing role of power electronics in wind turbine systems. It describes how power electronics have evolved from simple soft starters for fixed speed wind turbines to advanced full scale power converters that allow for variable speed operation. Variable speed systems improve efficiency and integration with the power grid. Power electronics enable the use of different generator types and provide benefits like improved stability, power quality, and controllability. However, they also present challenges like added cost and power losses that require ongoing research and development.
Turtle Turbines manufactures micro steam turbines that enable firms to generate their own electricity at low cost with minimal waste. Their turbines are significantly more compact than conventional steam turbines, fully oil-free, and can be easily integrated into existing plants. Small and medium companies can save a lot of energy using micro steam turbines in the output range of up to 300 kW to provide more electricity from the same fuel input compared to conventional steam turbines. The micro turbines replace pressure reducing valves in steam systems and generate up to 300 kW of continuous power from steam that would otherwise be wasted.
This document presents a new hybrid rectifier topology for a wind-solar energy system. The proposed topology fuses a Cuk converter and SEPIC converter, eliminating the need for separate input filters. It allows each renewable energy source to operate individually or simultaneously and to achieve maximum power point tracking for optimal power extraction. Simulation results show that when one source is insufficient to meet load demands, the other source can compensate, improving the overall reliability of the hybrid system.
Hybrid power system using wind and solar energyshubhambadhe5
This document discusses a hybrid power system that combines wind and solar energy. It begins by introducing hybrid systems and explaining that they combine two or more modes of electricity generation, such as solar photovoltaics and wind turbines, to provide stable power. The document then covers the components and methodology of a hybrid wind-solar system. It explains that both systems produce DC power that is stored in batteries and controlled through an inverter to supply power. The document highlights advantages like increased stability and lower costs compared to individual systems, as well as disadvantages like requiring more space. It concludes that hybrid wind-solar systems can provide stable power for applications in remote areas.
By Samatha.Anumolu
In 2002, India's power generation capacity was far below peak demand. Currently, India relies heavily on non-renewable energy sources like thermal and natural gas. As fossil fuels are finite, India needs to shift toward renewable sources like solar and wind. The document then proposes capturing energy from vehicle braking at speed breakers using a hydraulic system to power a generator. It provides details of the hydraulic components and design, explaining how kinetic energy from slowing vehicles could be stored and converted to rotational motion to produce electricity. Simulations show a single speed breaker could generate up to 80 watts per hour with moderate traffic flow.
A hybrid power system uses two energy sources to generate electricity. It combines both solar and wind energy, using solar panels and a wind turbine to harvest these renewable resources. When one source is unavailable due to weather or low wind, the other can continue powering loads. Battery storage and power electronics like a charge controller and inverter are needed to store excess energy and convert DC power from the solar and wind sources to AC for loads. Proper sizing of these system components based on location's solar radiation, wind speeds and power demands is important for a successful hybrid power system design.
Energy 101 basics of convential power generationhzb3
Energy is the capacity to do work, while power is the rate of doing work. Power plants convert energy into electricity using turbines powered by heat. Thermal efficiency determines how much energy can be converted, with larger plants generally more efficient but slower to adjust output. To meet varying demand, the electric grid relies on baseload, intermediate, and peaking power plants working together synchronized at 60Hz.
POWER SYSTEMS PROJECTS ABSTRACT-Wind solar energy -hybrid power generation sy...ASHOKKUMAR RAMAR
This document describes a hybrid wind-solar energy generation system called "WISE" that combines a 3W photovoltaic array and an 18W wind turbine to provide residential electricity. It contains a microcontroller to monitor voltages and switch power between the solar and wind sources, charging a 12V/7Ah battery bank. The battery then powers loads like lights through a DC-DC converter, relay driver, and relay. A block diagram outlines the system components and power flow.
SOLAR PROJECTS ABSTRACT-Wind solar energy -hybrid power generation system (wise)ASHOKKUMAR RAMAR
This document discusses a hybrid wind-solar energy system for residential power generation. It introduces renewable energy sources like wind and solar. For wind power, it describes typical wind turbine sizes from 600 kW to 5 MW. For solar energy, it explains the use of photovoltaics and concentrated solar power. The system demonstrated combines a 3W solar panel and 18W wind turbine to provide continuous power to a home. A microcontroller monitors the voltages and switches the power supply accordingly between the wind and solar sources to the battery.
Thermoelectric generators convert heat directly into electrical energy using the Seebeck effect, with efficiencies around 5-10%. Older devices used bimetallic junctions while modern ones use bismuth telluride semiconductor p-n junctions as thin as millimeters. These solid state devices have no moving parts except occasionally a fan. Radioisotope thermoelectric generators power spacecraft, and automotive thermoelectric generators could recover energy from car waste heat.
Small wind electric systems can provide homeowners with renewable energy and lower electricity bills. They generally consist of a rotor, generator, tower, and other balance of system components like batteries or connections to the electric grid. The size of the turbine's rotor determines how much power it can produce, with systems ranging from under 1 kW for battery charging up to 300 kW for institutional use. Taller towers capture higher wind speeds but also increase costs and risk damage in hurricanes. Successful small wind projects in India have shown that depending on wind resources, homeowners can reduce their electricity bills by 50-90% with these systems.
This document summarizes a student project that aims to optimize the use of wind energy from windmills. The project members plan to install modular mini electricity generating units and medium-sized windmills in coastal areas to harness wind power. This will help meet the electricity needs of local villages and avoid dependence on large windmills located far from residences. The system will use sensors and a microcontroller to automatically adjust the windmill blades based on wind direction and optimize idle time. Electricity generated will be stored in batteries and power homes through an inverter. The project aims to provide clean, affordable energy for coastal communities without large investments.
Energy management in an automated solar powered irrigation review full 2Vikram Emmidi
This document describes a project that uses a solar panel, battery, microcontroller, GSM modem, MAX232, and pumping motor to remotely monitor and control an irrigation system via mobile phone. The system senses moisture levels and temperature using sensors connected to an AT89S52 microcontroller. If levels drop, the microcontroller activates the pumping motor through a relay. It also sends SMS alerts to a mobile phone using a GSM modem connected via a MAX232 level converter. The project aims to provide off-grid irrigation control to farmers. It allows remote watering and monitoring to improve productivity and save resources.
Light source, Choice of lighting, Luminance requirements, and Energy
conservation avenues
Lighting is an essential service in all the industries. The power consumption by the industrial
lighting varies between 2 to 10% of the total power depending on the type of industry.
Innovation and continuous improvement in the field of lighting, has given rise to tremendous
energy saving opportunities in this area.
Lighting is an area, which provides a major
This document provides an overview of lighting systems and terms. It discusses different types of light sources like incandescent lamps, fluorescent lamps, discharge lamps, and their key features. It covers lighting terms such as illuminance, luminous efficacy, color rendering index. It also discusses control gear, luminaires and some good lighting practices for energy efficiency. The key points are that lighting accounts for 2-10% of industrial power, innovation in lighting offers energy savings opportunities, and proper lamp and luminaire selection along with operational practices can improve energy efficiency at the design stage.
power consumption of household equipments in indiaAlbi Thomas
This document provides examples to calculate the electricity consumed, in kilowatt-hours (kWh), by various household appliances and electronics. It lists the wattage of common devices like lights, fans, refrigerators, washing machines, and more. It then shows sample calculations of kWh used for each appliance running for a given time period. The examples demonstrate how to find daily or yearly kWh by multiplying the wattage by hours used and dividing by 1000. The document aims to educate people on estimating electricity consumption of appliances and identifying ways to save energy.
Wind energy provides a clean, renewable source of electricity that could meet over twice the current electricity demand in the United States. Wind turbines generate electricity through the rotation of blades connected to a shaft that spins a generator without emitting pollutants or consuming water. Farmers and ranchers can also benefit financially from hosting wind turbines on their land. Additionally, wind turbines are durable and can operate in a variety of climates around 80% of the world.
This document contains FAQs (Frequently Asked Questions) on solar inverters. The reader will get a very good idea about solar inverters, the different types, and where they are used.
Know the Utility of Off-Grid Solar Power System; the Power Solutionsolarplants
Off-grid systems work independently and have batteries which can store the solar power generated by the system. The panels store sunlight during the day and use the excess power generated in the night.
Power electronics technology in wind turbine systempranavi kasina
The document discusses the increasing role of power electronics in wind turbine systems. It describes how power electronics have evolved from simple soft starters for fixed speed wind turbines to advanced full scale power converters that allow for variable speed operation. Variable speed systems improve efficiency and integration with the power grid. Power electronics enable the use of different generator types and provide benefits like improved stability, power quality, and controllability. However, they also present challenges like added cost and power losses that require ongoing research and development.
Turtle Turbines manufactures micro steam turbines that enable firms to generate their own electricity at low cost with minimal waste. Their turbines are significantly more compact than conventional steam turbines, fully oil-free, and can be easily integrated into existing plants. Small and medium companies can save a lot of energy using micro steam turbines in the output range of up to 300 kW to provide more electricity from the same fuel input compared to conventional steam turbines. The micro turbines replace pressure reducing valves in steam systems and generate up to 300 kW of continuous power from steam that would otherwise be wasted.
This document presents a new hybrid rectifier topology for a wind-solar energy system. The proposed topology fuses a Cuk converter and SEPIC converter, eliminating the need for separate input filters. It allows each renewable energy source to operate individually or simultaneously and to achieve maximum power point tracking for optimal power extraction. Simulation results show that when one source is insufficient to meet load demands, the other source can compensate, improving the overall reliability of the hybrid system.
Hybrid power system using wind and solar energyshubhambadhe5
This document discusses a hybrid power system that combines wind and solar energy. It begins by introducing hybrid systems and explaining that they combine two or more modes of electricity generation, such as solar photovoltaics and wind turbines, to provide stable power. The document then covers the components and methodology of a hybrid wind-solar system. It explains that both systems produce DC power that is stored in batteries and controlled through an inverter to supply power. The document highlights advantages like increased stability and lower costs compared to individual systems, as well as disadvantages like requiring more space. It concludes that hybrid wind-solar systems can provide stable power for applications in remote areas.
By Samatha.Anumolu
In 2002, India's power generation capacity was far below peak demand. Currently, India relies heavily on non-renewable energy sources like thermal and natural gas. As fossil fuels are finite, India needs to shift toward renewable sources like solar and wind. The document then proposes capturing energy from vehicle braking at speed breakers using a hydraulic system to power a generator. It provides details of the hydraulic components and design, explaining how kinetic energy from slowing vehicles could be stored and converted to rotational motion to produce electricity. Simulations show a single speed breaker could generate up to 80 watts per hour with moderate traffic flow.
A hybrid power system uses two energy sources to generate electricity. It combines both solar and wind energy, using solar panels and a wind turbine to harvest these renewable resources. When one source is unavailable due to weather or low wind, the other can continue powering loads. Battery storage and power electronics like a charge controller and inverter are needed to store excess energy and convert DC power from the solar and wind sources to AC for loads. Proper sizing of these system components based on location's solar radiation, wind speeds and power demands is important for a successful hybrid power system design.
Energy 101 basics of convential power generationhzb3
Energy is the capacity to do work, while power is the rate of doing work. Power plants convert energy into electricity using turbines powered by heat. Thermal efficiency determines how much energy can be converted, with larger plants generally more efficient but slower to adjust output. To meet varying demand, the electric grid relies on baseload, intermediate, and peaking power plants working together synchronized at 60Hz.
POWER SYSTEMS PROJECTS ABSTRACT-Wind solar energy -hybrid power generation sy...ASHOKKUMAR RAMAR
This document describes a hybrid wind-solar energy generation system called "WISE" that combines a 3W photovoltaic array and an 18W wind turbine to provide residential electricity. It contains a microcontroller to monitor voltages and switch power between the solar and wind sources, charging a 12V/7Ah battery bank. The battery then powers loads like lights through a DC-DC converter, relay driver, and relay. A block diagram outlines the system components and power flow.
SOLAR PROJECTS ABSTRACT-Wind solar energy -hybrid power generation system (wise)ASHOKKUMAR RAMAR
This document discusses a hybrid wind-solar energy system for residential power generation. It introduces renewable energy sources like wind and solar. For wind power, it describes typical wind turbine sizes from 600 kW to 5 MW. For solar energy, it explains the use of photovoltaics and concentrated solar power. The system demonstrated combines a 3W solar panel and 18W wind turbine to provide continuous power to a home. A microcontroller monitors the voltages and switches the power supply accordingly between the wind and solar sources to the battery.
Thermoelectric generators convert heat directly into electrical energy using the Seebeck effect, with efficiencies around 5-10%. Older devices used bimetallic junctions while modern ones use bismuth telluride semiconductor p-n junctions as thin as millimeters. These solid state devices have no moving parts except occasionally a fan. Radioisotope thermoelectric generators power spacecraft, and automotive thermoelectric generators could recover energy from car waste heat.
Small wind electric systems can provide homeowners with renewable energy and lower electricity bills. They generally consist of a rotor, generator, tower, and other balance of system components like batteries or connections to the electric grid. The size of the turbine's rotor determines how much power it can produce, with systems ranging from under 1 kW for battery charging up to 300 kW for institutional use. Taller towers capture higher wind speeds but also increase costs and risk damage in hurricanes. Successful small wind projects in India have shown that depending on wind resources, homeowners can reduce their electricity bills by 50-90% with these systems.
This document summarizes a student project that aims to optimize the use of wind energy from windmills. The project members plan to install modular mini electricity generating units and medium-sized windmills in coastal areas to harness wind power. This will help meet the electricity needs of local villages and avoid dependence on large windmills located far from residences. The system will use sensors and a microcontroller to automatically adjust the windmill blades based on wind direction and optimize idle time. Electricity generated will be stored in batteries and power homes through an inverter. The project aims to provide clean, affordable energy for coastal communities without large investments.
Energy management in an automated solar powered irrigation review full 2Vikram Emmidi
This document describes a project that uses a solar panel, battery, microcontroller, GSM modem, MAX232, and pumping motor to remotely monitor and control an irrigation system via mobile phone. The system senses moisture levels and temperature using sensors connected to an AT89S52 microcontroller. If levels drop, the microcontroller activates the pumping motor through a relay. It also sends SMS alerts to a mobile phone using a GSM modem connected via a MAX232 level converter. The project aims to provide off-grid irrigation control to farmers. It allows remote watering and monitoring to improve productivity and save resources.
Light source, Choice of lighting, Luminance requirements, and Energy
conservation avenues
Lighting is an essential service in all the industries. The power consumption by the industrial
lighting varies between 2 to 10% of the total power depending on the type of industry.
Innovation and continuous improvement in the field of lighting, has given rise to tremendous
energy saving opportunities in this area.
Lighting is an area, which provides a major
This document provides an overview of lighting systems and terms. It discusses different types of light sources like incandescent lamps, fluorescent lamps, discharge lamps, and their key features. It covers lighting terms such as illuminance, luminous efficacy, color rendering index. It also discusses control gear, luminaires and some good lighting practices for energy efficiency. The key points are that lighting accounts for 2-10% of industrial power, innovation in lighting offers energy savings opportunities, and proper lamp and luminaire selection along with operational practices can improve energy efficiency at the design stage.
Cgls Presentation Induction & Led Lighting And The Environment 2011RichardBosteder
This document discusses how induction and LED lighting can reduce environmental impact in several ways: by saving energy, reducing CO2 emissions from lower energy consumption, reducing materials and mercury consumption compared to other lighting types, and reducing recycling issues. It provides details on energy savings from higher electrical conversion efficiency and secondary reductions from lower thermal loads and ability for on-demand usage.
The document discusses various techniques for conserving energy in lighting systems, including replacing lamps with more efficient options, using efficient ballasts and transformers, installing light controls, and establishing maintenance programs. Some key points covered are replacing incandescent lamps with CFLs or LEDs, using electronic ballasts instead of electromagnetic ones, installing sensors and dimmers to control lighting based on occupancy or daylight, and periodically cleaning lamps and fixtures to maintain light output over time.
That the presentasion stade about leeding plan of LED as a street light's....
i descriped the major advantage's over incandecent lamp or dubelight's as a street light with some standard calculation's.
The document discusses energy management and electrical power quality. The goals of energy management are to minimize energy costs and environmental impacts while maintaining production. Key factors in energy management include rising energy prices and environmental pollution. The document also covers types of energy sources, importance of power factor correction, electrical motors, and strategies for improving energy efficiency.
This document discusses the benefits of induction lighting compared to other lighting technologies such as high pressure sodium (HPS) and metal halide lighting. Induction lights last significantly longer at 100,000 hours compared to 22,000 hours for HPS and 10,000 hours for metal halide. They also maintain higher lumen output over their lifetime. This results in substantial savings for cities and businesses in reduced maintenance and energy costs when replacing existing lighting with induction fixtures. Induction lighting also produces light that appears brighter to the human eye due to its higher color rendering index and color temperature.
Energy Audit is the systematic process for finding out the energy conservation
opportunities in industrial processes. The project carried out studies on various energy conservation
measures application in areas like lighting, motors, compressors, transformer, ventilation system etc.
In this investigation, studied the technical aspects of the various measures along with its cost benefit
analysis.
Investigation found that major areas of energy conservation are-
1. Energy efficient lighting schemes.
2. Use of electronic ballast instead of copper ballast.
3. Use of wind ventilators for ventilation.
4. Use of VFD for compressor.
5. Transparent roofing sheets to reduce energy consumption.
So Energy Audit is the only perfect & analyzed way of meeting the Industrial Energy Conservation.
This document discusses lighting for poultry production. It covers the biology of how chickens perceive light and the importance of light for various stages of production. It also discusses different types of lighting systems including incandescent, fluorescent, LED and others; recommended light levels for different types and ages of poultry; and factors to consider for lighting system design and electrical wiring. The document provides lighting recommendations for various areas of poultry farms and processing facilities. In summary, it provides guidance on designing efficient and effective lighting systems for poultry operations.
This document summarizes the services provided by Acre Systems, an Indian company that specializes in solar photovoltaic and thermal energy integration. They provide both residential and commercial solar energy solutions including solar water heaters, street lights, home lighting systems, and mobile device chargers. Their mission is to convert traditional electricity systems to solar power to save costs and reduce environmental impacts.
Kaiser Maks Pvt Ltd is an energy solutions company that provides energy efficient products and services including LED lighting, solar power solutions, and energy management. They work with major OEM manufacturers to deliver optimal and customized solutions for clients. Their solar power packs and water pumps are designed to provide energy security and reduce dependency on the unreliable grid through decentralized energy generation. Their LED lighting uses high efficiency components and design to provide long life and high lumen output while saving customers up to 70% on energy costs compared to conventional lights.
The document discusses various energy efficient and renewable energy systems that could be implemented at a university campus. It proposes replacing existing lights with more efficient T5 lights, implementing solar water heaters to reduce electricity costs for water heating, improving air conditioning efficiency, and setting up solar-wind hybrid systems. Cost-benefit analyses are provided for each proposed system that show potential cost savings from reduced electricity consumption.
The document discusses cooling systems and solar cooling. It provides specifications for different types of cooling equipment, including chillers, air handling units, cooling towers, pumps, and air-cooled condensers. It also describes an experimental study to evaluate the performance of a chiller system using different refrigerants (R22, R437A, and R438A). The study involves collecting temperature and pressure readings at the evaporator and condenser under different operating conditions.
Hybrid power generation by and solar –windUday Wankar
With the development of industry and
agriculture, a great amount of energy such as coal, oil
and gas has been consumed in the world. Extensive
use of these fossil energies deteriorates a series of
problems like energy crisis, environmental pollution
and so on. Everybody knows that the fossil energy
reserves are finite, some day it will be exhausted.
It is possible that the world will face a
global energy crisis due to a decline in the
availability of cheap oil and recommendations to a
decreasing dependency on fossil fuel. This has led to
increasing interest in alternate power/fuel research
such as fuel cell technology, hydrogen fuel, biodiesel,
Karrick process, solar energy, geothermal energy,
tidal energy and wind. Today, solar energy and wind
energy have significantly alternated fossil fuel with
big ecological problems.
With the development of the science and
technology, power generation using solar energy and
wind power is gradually known by more and more
people. And it is widespread used in many developed
countries. The merits of the solar and wind power
generation are very obvious-infinite and nonpolluting.
The raw materials of the solar and wind
power generation derived from nature, and wind
power generation can work twenty-four hours a day,
solar power generation only works by daylight. In
addition, this kind of power generation has no
exhaust emission and there is no influence to the
nature. But it also has some shortcomings. Because
of the imperfect of the technology, equipment of the
solar and wind power generation is very expensive.
By far, it cannot be widely used.
In addition, solar and wind power
generation system affected by the changing of the
weather very much, so it has obvious defects in
reliability compared with fossil fuel, and it is difficult
to make it fit for practical use the lack of economical
efficiency .Because of these problems it needs to
increase the reliability of energy supply by
developing a system which interacts Solar and wind
energy. This kind of system is usually called windsolar
hybrid power generation system significantly
This document provides information on electrical energy and ways to save power. It defines different types of energy and classifies energy as primary, commercial, renewable, and non-renewable. It then discusses electrical energy in more detail, explaining how it is generated through various power plants like thermal, nuclear, hydro, solar, and wind. Key metrics for measuring electrical energy like watt, kilowatt hour, and power factor are also explained. The document concludes by outlining various tools and strategies for conserving energy in industry and everyday life, such as variable frequency drives, energy efficient motors, lighting controls, and adjusting air conditioner temperatures.
This document provides information on electrical energy and ways to save power. It defines different types of energy and classifies energy as primary, commercial, renewable, and non-renewable. It then discusses electrical energy in more detail, explaining how it is generated through various power plants. The document outlines India's electrical energy consumption and losses. It emphasizes the importance of energy efficiency and lists some basic principles. Specific tools and strategies for saving energy in industry, lighting, and from electrical motors, air conditioners, and computers are described. The document also addresses plant harmonics, multi-stage pumps, and more efficient equipment like variable frequency drives, energy efficient motors, and LED lighting.
The Exorg Group introduces itself as an upcoming company in South India's market established in 2012 in Kerala. It provides innovative solar energy and energy efficient products like solar power plants, solar water heaters, LED lights, and voltage stabilizers. These products aim to provide uninterrupted power supply, reduce electricity bills and carbon footprint, and save nature.
1. Wel Come OHMS LVD BY APSARA INTERIOR SOLUTION Introducing for the first Time in india!!! Most revolutionary energy efficient and long life 4th Generation lamps - By APSARA INTERIOR SOLUTION
2. HOW DOES INDUCTION LAMP WORK WITHOUT ELECTRODES ? INDUCTION LAMP - 4th GENERATION LAMP COMBINING ALL THE ADVANTAGES OF OTHER LAMPS FEATURING
3. FEEL THE DIFFERENCE Green under Induction Lamp Green under Metal Halide Close to full spectrum light....
5. A STREET IN CALIFORNIA LIT WITH 120W INDUCTION LAMPS
6.
7. APSARA INTERIOR SOLUTION PRESENT THE MOST ADVANCE ENERGY EFFICIENT LIGHTING SYSTEM WITH Guaranteed 60% to 80% Energy Savings*** ***Compared to HPSV/HPMV/MHL