This presentation was presented in an Energy Hackathon Event, to explain a concept of Self Energy Monitoring system with consumer participation with reference to Nepalese distribution setting.
Proceedings Eureka da Vinci meeting on Sustainable Energy
Visions of the Future - Februari 13th 2009 - Municipality of Rheden
Arnhem Nijmegen City Region
Wageningen UR
Electricity consumption at LPU is approximately 4 megawatts per month, costing around 2 crore rupees. Most electricity is consumed in the hostels by appliances like geysers, air conditioners, and coolers. Some key measures to reduce consumption include switching off lights and fans when not in use, replacing CFL and fluorescent bulbs with more efficient LEDs, using solar water heaters instead of electric geysers, and generating more electricity through expanded solar panel installations on campus.
This document provides tips for reducing emissions and saving money through sustainable actions like biking or walking instead of driving, adjusting thermostats seasonally, using LED lights, and taking advantage of natural light. It notes that how we use energy impacts the environment by increasing severe weather, disease spread, and coastal flooding. The goal is for UCSB to be carbon neutral by 2025, which it is working towards by installing solar panels to provide 10% of its electricity and reducing gas usage through efficiency efforts. Individual sustainable actions collectively help improve lives.
View my nZEB School presentation from the DIT National Retrofit Conference 2014 held in Bolton Street on 6 June 2014. This is based on the result of work from our Postgraduate Diploma in Retrofit Technology, the semester 3 project in a nested 2.5year, part-time MSC in Retrofit Technologies. Students learned the PHPP energy metric and applied it tot he retrofit of a 1930s school building.
This document discusses conserving energy during a natural disaster by limiting the use of heavy appliances. It provides the average monthly electricity usage and costs of common appliances like dryers, ovens, and refrigerators. The author tracked their own electricity usage after setting appliances to energy saving modes and limiting use of heavy appliances like dryers. This reduced their monthly bill by $52.48 compared to normal usage. If many customers conserved energy in this way, it could save a city like Juneau over $4 million annually based on reduced electricity consumption. The conclusion is that limiting heavy appliance use is an effective way to lower individual bills and reduce overall energy usage during a crisis.
In this deck from the HPC User Forum in Tucson, Jorge L. Balcells from VerneGlobal presents: Verne Global Datacenters for Forward Thinkers.
Watch the video presentation: https://youtu.be/mEgxB0XKF5s
Learn more: https://verneglobal.com
and
http://hpcuserforum.com
Sign up for our insideHPC Newsletter: http://insidehpc.com/newsletter
Italy uses solar panels and wind turbines for green energy production. Solar energy from photovoltaic panels produces 7.9 units of energy per 100 kWh with some loss of production, while biomass energy produces 0.12 units per 100 kWh with higher losses. Piedmont plans to build 17 new photovoltaic plants to increase green energy production and help create more jobs while reducing costs and war through developing the green economy.
To Identify various sources/wastage of energy in LPU hostels (CHE110 Project)Ninder Joshi
This document summarizes a report on identifying sources of energy wastage in LPU hostels and providing recommendations. It finds that the main sources of energy used are electrical power from the grid and a solar power plant. Electrical energy is consumed for devices, lighting, and cooling. Significant wastage occurs from leaving appliances on standby and using inefficient bulbs. Tips to conserve energy include using CFLs, recycling, and engaging the community through programs. New measures proposed are installing more solar panels, generating energy from waste, and publishing conservation information.
Proceedings Eureka da Vinci meeting on Sustainable Energy
Visions of the Future - Februari 13th 2009 - Municipality of Rheden
Arnhem Nijmegen City Region
Wageningen UR
Electricity consumption at LPU is approximately 4 megawatts per month, costing around 2 crore rupees. Most electricity is consumed in the hostels by appliances like geysers, air conditioners, and coolers. Some key measures to reduce consumption include switching off lights and fans when not in use, replacing CFL and fluorescent bulbs with more efficient LEDs, using solar water heaters instead of electric geysers, and generating more electricity through expanded solar panel installations on campus.
This document provides tips for reducing emissions and saving money through sustainable actions like biking or walking instead of driving, adjusting thermostats seasonally, using LED lights, and taking advantage of natural light. It notes that how we use energy impacts the environment by increasing severe weather, disease spread, and coastal flooding. The goal is for UCSB to be carbon neutral by 2025, which it is working towards by installing solar panels to provide 10% of its electricity and reducing gas usage through efficiency efforts. Individual sustainable actions collectively help improve lives.
View my nZEB School presentation from the DIT National Retrofit Conference 2014 held in Bolton Street on 6 June 2014. This is based on the result of work from our Postgraduate Diploma in Retrofit Technology, the semester 3 project in a nested 2.5year, part-time MSC in Retrofit Technologies. Students learned the PHPP energy metric and applied it tot he retrofit of a 1930s school building.
This document discusses conserving energy during a natural disaster by limiting the use of heavy appliances. It provides the average monthly electricity usage and costs of common appliances like dryers, ovens, and refrigerators. The author tracked their own electricity usage after setting appliances to energy saving modes and limiting use of heavy appliances like dryers. This reduced their monthly bill by $52.48 compared to normal usage. If many customers conserved energy in this way, it could save a city like Juneau over $4 million annually based on reduced electricity consumption. The conclusion is that limiting heavy appliance use is an effective way to lower individual bills and reduce overall energy usage during a crisis.
In this deck from the HPC User Forum in Tucson, Jorge L. Balcells from VerneGlobal presents: Verne Global Datacenters for Forward Thinkers.
Watch the video presentation: https://youtu.be/mEgxB0XKF5s
Learn more: https://verneglobal.com
and
http://hpcuserforum.com
Sign up for our insideHPC Newsletter: http://insidehpc.com/newsletter
Italy uses solar panels and wind turbines for green energy production. Solar energy from photovoltaic panels produces 7.9 units of energy per 100 kWh with some loss of production, while biomass energy produces 0.12 units per 100 kWh with higher losses. Piedmont plans to build 17 new photovoltaic plants to increase green energy production and help create more jobs while reducing costs and war through developing the green economy.
To Identify various sources/wastage of energy in LPU hostels (CHE110 Project)Ninder Joshi
This document summarizes a report on identifying sources of energy wastage in LPU hostels and providing recommendations. It finds that the main sources of energy used are electrical power from the grid and a solar power plant. Electrical energy is consumed for devices, lighting, and cooling. Significant wastage occurs from leaving appliances on standby and using inefficient bulbs. Tips to conserve energy include using CFLs, recycling, and engaging the community through programs. New measures proposed are installing more solar panels, generating energy from waste, and publishing conservation information.
This document appears to be a list of the same phrase repeated multiple times. It contains the phrase "Applied Electricity Two" listed seven separate times, but does not provide any other context or information.
Dr. Charles Levinson bought Owdeswell Manor in Gloucestershire and sought to make it more sustainable by installing renewable energy sources, planting woodland, and rearing traditional livestock. He installed a 10kW solar PV system that will provide a 20% annual return on investment from electricity cost savings and government subsidies. Dr. Levinson also plans to install a biomass boiler to heat the manor with wood pellets and earn subsidies under the Renewable Heat Incentive. Renewable energy investments not only reduce costs but add value to the property for future generations.
The document discusses the importance of renewable energy resources and ways for students to conserve energy. It notes that while energy is essential for modern life, current resources are being overexploited. It encourages the transition to renewable resources like solar and wind to avoid future shortages. The document provides tips for students to conserve energy, such as using more efficient appliances, insulating homes, driving efficiently, and powering down devices when not in use. The overall message is that if everyone does their part to save electricity, it can help create a more sustainable world.
The document discusses ways for individuals to save electricity. It notes that energy resources are being depleted and wasted, harming the environment. The document provides tips for conserving electricity at home, such as turning off lights and devices when not in use, closing doors and windows when heating/cooling, using efficient bulbs, and adjusting thermostats. The conclusion encourages everyone to contribute to sustainability efforts to leave a better world for future generations.
Mind blowing fact about electricity you’ve never heard beforejitendra pawar
This document provides several mind blowing facts about electricity that are rarely discussed. It begins by explaining the history of electricity dating back to Benjamin Franklin's kite experiment in the 18th century. It then discusses various sources of electricity generation including water, wind, animal waste, and coal. Next, it covers the incredible speed of electricity and how fast one could circumnavigate the globe if traveling at the same speed. Finally, statistics are given around worldwide electricity usage and consumption.
One gallon of coal containing approximately 8 pounds can be converted to 8 kWh of electricity, but 0.5 kWh is lost in transmission, resulting in 7.5 kWh delivered to homes. This electricity can power a 14-watt CFL bulb for 537 hours or a 60-watt incandescent bulb for 155 hours.
Chemical energy in a battery is converted to electrical energy to power a flashlight. Turning on a TV converts electrical energy from a power plant into both thermal and light energy. Striking a match converts chemical energy into thermal energy. Hitting a baseball converts kinetic energy from the bat into kinetic energy of the baseball. Sunlight hitting solar panels converts light energy into electrical energy, which can then be converted to thermal energy to power a lamp.
People have been using energy from sources like watermills for thousands of years to power devices and mechanisms. Now, energy powers almost everything in modern homes and daily life. Specifically, heating accounts for 60% of home energy use, with water heating and washing appliances making up another 25% and lighting/electricity the remaining 15%. There are several ways to conserve energy at home, such as using more efficient light bulbs, turning off appliances when not in use, saving water to also conserve energy, regulating thermostats when away, and improving home insulation. Globally, hydroelectric power provides about one fifth of all energy, while wind turbines continue increasing in size, and around 17% of worldwide electricity is used for lighting.
This document discusses energy conservation in India. It summarizes that in 2015, thermal power generation made up 64.7% of India's total installed capacity of 161,351 MW. The document outlines various sources of energy in India, both renewable and non-renewable. It provides statistics on household power consumption and discusses practical methods for energy conservation like installing LED lights, fixing air leaks, and using energy efficient appliances.
Phyics M4 Electrical Energy cost and ConservationeLearningJa
The document discusses electricity costs and conservation in Jamaica. It begins by outlining the objectives of calculating electricity usage and costs, defining energy conservation, and identifying domestic and commercial conservation methods. It then provides context that Jamaica imports oil and electricity is expensive. It discusses calculating electricity costs based on usage, various domestic conservation techniques like building design and appliances, and commercial conservation options like solar panels. The document aims to educate about reducing energy costs through conservation.
The Kalgidhar Educational Trust in Baru Sahib, India has installed a 200KW solar energy power plant to meet the power demands of its hostels, hospital, and other facilities. Having over 2,000 students in hostels and 2,000 beds in its hospital, the Trust was using a large amount of fuel for heating water and electricity which was polluting. The solar power plant, costing Rs. 8.7 crore with government subsidies, helps generate power from 6-7 hours of daily sunshine to charge batteries and power the facilities, saving Rs. 8-10 lakh per year on electricity costs. The Trust plans to expand solar power to further reduce costs and environmental impact.
energy conservation / how to conserve/ save energysaksham123ska
please open your hearts and give likes i will thank you if you will give me likes i am saksham kaushal i read in KIIT world school in delhi , india i am a student of class 6the if you see any changes in ppt please mail me at sakshamsci7@gmail.com and if you need any help mail me at same please please please please please please please please give more and more like so that i can upload more ppt thanks to all those you had given likes to tell your friends and give me more and more likes thankssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssss to allllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllll those have givennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn meeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
likessssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssss
Climate change challenge us to review our life style specially on patterns of energy use. Excessiveness in energy uses makes energy management not optimal.
We can handle it very easy, by doing little things following, so much energy can be saved for our future sustainability.
Electricity saving in Buildings using LEDs LightbulbsAkhtar Zeb
In this presentation an effort has been made to understand the potential of electricity saving in buildings by replacing traditional ligthbulbs by LEDs lightbulbs.
This document discusses energy conservation and provides tips for saving energy. It begins by defining energy as the ability to do work, and notes that energy lights cities, powers vehicles and more. It then explains that we need to conserve energy because resources are limited and demands are increasing. Some ways to conserve mentioned include recycling, turning off unused devices, and replacing old light bulbs with energy efficient ones. Specific energy saving tips are provided for both home and public settings. The document emphasizes that conserving energy will save money and resources while reducing pollution. It provides an example of annual savings from replacing a light bulb. Overall, the document promotes energy conservation through various everyday practices.
PowerPoint Presentation on how to save energy made by Diana Mujoiu, student in 7th grade from Magura School for the multilateral Comenius project "Mission into the Future - A Quest for Sustainability" (2012 - 2014)
Nature Center Breaks Ground on Treehouse ProjectDenyse Shannon
The Nature Center broke ground on a new treehouse project that has been three years in the planning. The 20 foot by 16 foot treehouse will be built using over 65 yellow pine telephone poles and will take 6-8 weeks to complete. The treehouse design was originally conceived by Alexandria Bennett's grandfather as a way to honor her memory and love of nature. Funding for the treehouse and Nature Center comes through the Spirit of Alexandria Foundation set up in memory of Alexandria by her parents after her death in 2006.
The document promotes converting equipment from electric to natural gas, citing that natural gas reserves are at their highest levels since 1977 and prices are expected to remain low through 2035 according to the Department of Energy. It notes that on average, natural gas costs $2.75 per million BTU compared to $11.43 per 100 KW for electricity, and encourages contacting Stelter & Brinck for a free savings estimate on converting equipment to natural gas.
Energy conservation is important for several reasons. First, we have limited non-renewable energy resources on Earth and demands are increasing daily. Second, conserving energy saves money and reduces pollution. Third, switching to more efficient options and renewable resources like solar, wind, and hydro can help meet rising demands and lessen the impact on existing supplies. Some tips for conserving energy include recycling products, turning off unused devices, replacing old light bulbs with efficient LED bulbs, and improving insulation and efficiency of home appliances. Widespread conservation efforts can significantly reduce costs and energy imports over time.
GenCell provides backup power solutions using alkaline fuel cell technology. Their fuel cells can provide clean, reliable backup power for as long as needed. GenCell fuel cells offer several advantages over diesel generators and batteries including longer duration backup from a single fuel source, higher efficiency, and lower fuel costs through the use of ammonia. GenCell is also developing hybrid and off-grid solutions to provide continuous power using their fuel cells combined with batteries and renewable energy sources.
A presentation to the Mirpur DOHS Parishad on.pdfSohel Mahboob
The document discusses setting up a microgrid and acrylic swimming pools in Mirpur DOHS Parishad plots. It proposes installing solar panels on the 1700 plots' rooftops to create an energy bank that could minimize load shedding and generate monthly revenue of around 2 crore taka for the society. Engineers from BUET and marine engineers in the joint venture have experience to calculate energy density and power factor for the microgrid project. It also discusses building acrylic swimming pools on DOHS Parishad land using a build-own-operate-transfer model, where the joint venture would build, own, and profit share the pools until the return on investment is achieved, then transfer ownership.
This document appears to be a list of the same phrase repeated multiple times. It contains the phrase "Applied Electricity Two" listed seven separate times, but does not provide any other context or information.
Dr. Charles Levinson bought Owdeswell Manor in Gloucestershire and sought to make it more sustainable by installing renewable energy sources, planting woodland, and rearing traditional livestock. He installed a 10kW solar PV system that will provide a 20% annual return on investment from electricity cost savings and government subsidies. Dr. Levinson also plans to install a biomass boiler to heat the manor with wood pellets and earn subsidies under the Renewable Heat Incentive. Renewable energy investments not only reduce costs but add value to the property for future generations.
The document discusses the importance of renewable energy resources and ways for students to conserve energy. It notes that while energy is essential for modern life, current resources are being overexploited. It encourages the transition to renewable resources like solar and wind to avoid future shortages. The document provides tips for students to conserve energy, such as using more efficient appliances, insulating homes, driving efficiently, and powering down devices when not in use. The overall message is that if everyone does their part to save electricity, it can help create a more sustainable world.
The document discusses ways for individuals to save electricity. It notes that energy resources are being depleted and wasted, harming the environment. The document provides tips for conserving electricity at home, such as turning off lights and devices when not in use, closing doors and windows when heating/cooling, using efficient bulbs, and adjusting thermostats. The conclusion encourages everyone to contribute to sustainability efforts to leave a better world for future generations.
Mind blowing fact about electricity you’ve never heard beforejitendra pawar
This document provides several mind blowing facts about electricity that are rarely discussed. It begins by explaining the history of electricity dating back to Benjamin Franklin's kite experiment in the 18th century. It then discusses various sources of electricity generation including water, wind, animal waste, and coal. Next, it covers the incredible speed of electricity and how fast one could circumnavigate the globe if traveling at the same speed. Finally, statistics are given around worldwide electricity usage and consumption.
One gallon of coal containing approximately 8 pounds can be converted to 8 kWh of electricity, but 0.5 kWh is lost in transmission, resulting in 7.5 kWh delivered to homes. This electricity can power a 14-watt CFL bulb for 537 hours or a 60-watt incandescent bulb for 155 hours.
Chemical energy in a battery is converted to electrical energy to power a flashlight. Turning on a TV converts electrical energy from a power plant into both thermal and light energy. Striking a match converts chemical energy into thermal energy. Hitting a baseball converts kinetic energy from the bat into kinetic energy of the baseball. Sunlight hitting solar panels converts light energy into electrical energy, which can then be converted to thermal energy to power a lamp.
People have been using energy from sources like watermills for thousands of years to power devices and mechanisms. Now, energy powers almost everything in modern homes and daily life. Specifically, heating accounts for 60% of home energy use, with water heating and washing appliances making up another 25% and lighting/electricity the remaining 15%. There are several ways to conserve energy at home, such as using more efficient light bulbs, turning off appliances when not in use, saving water to also conserve energy, regulating thermostats when away, and improving home insulation. Globally, hydroelectric power provides about one fifth of all energy, while wind turbines continue increasing in size, and around 17% of worldwide electricity is used for lighting.
This document discusses energy conservation in India. It summarizes that in 2015, thermal power generation made up 64.7% of India's total installed capacity of 161,351 MW. The document outlines various sources of energy in India, both renewable and non-renewable. It provides statistics on household power consumption and discusses practical methods for energy conservation like installing LED lights, fixing air leaks, and using energy efficient appliances.
Phyics M4 Electrical Energy cost and ConservationeLearningJa
The document discusses electricity costs and conservation in Jamaica. It begins by outlining the objectives of calculating electricity usage and costs, defining energy conservation, and identifying domestic and commercial conservation methods. It then provides context that Jamaica imports oil and electricity is expensive. It discusses calculating electricity costs based on usage, various domestic conservation techniques like building design and appliances, and commercial conservation options like solar panels. The document aims to educate about reducing energy costs through conservation.
The Kalgidhar Educational Trust in Baru Sahib, India has installed a 200KW solar energy power plant to meet the power demands of its hostels, hospital, and other facilities. Having over 2,000 students in hostels and 2,000 beds in its hospital, the Trust was using a large amount of fuel for heating water and electricity which was polluting. The solar power plant, costing Rs. 8.7 crore with government subsidies, helps generate power from 6-7 hours of daily sunshine to charge batteries and power the facilities, saving Rs. 8-10 lakh per year on electricity costs. The Trust plans to expand solar power to further reduce costs and environmental impact.
energy conservation / how to conserve/ save energysaksham123ska
please open your hearts and give likes i will thank you if you will give me likes i am saksham kaushal i read in KIIT world school in delhi , india i am a student of class 6the if you see any changes in ppt please mail me at sakshamsci7@gmail.com and if you need any help mail me at same please please please please please please please please give more and more like so that i can upload more ppt thanks to all those you had given likes to tell your friends and give me more and more likes thankssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssss to allllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllllll those have givennnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn meeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee
likessssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssssss
Climate change challenge us to review our life style specially on patterns of energy use. Excessiveness in energy uses makes energy management not optimal.
We can handle it very easy, by doing little things following, so much energy can be saved for our future sustainability.
Electricity saving in Buildings using LEDs LightbulbsAkhtar Zeb
In this presentation an effort has been made to understand the potential of electricity saving in buildings by replacing traditional ligthbulbs by LEDs lightbulbs.
This document discusses energy conservation and provides tips for saving energy. It begins by defining energy as the ability to do work, and notes that energy lights cities, powers vehicles and more. It then explains that we need to conserve energy because resources are limited and demands are increasing. Some ways to conserve mentioned include recycling, turning off unused devices, and replacing old light bulbs with energy efficient ones. Specific energy saving tips are provided for both home and public settings. The document emphasizes that conserving energy will save money and resources while reducing pollution. It provides an example of annual savings from replacing a light bulb. Overall, the document promotes energy conservation through various everyday practices.
PowerPoint Presentation on how to save energy made by Diana Mujoiu, student in 7th grade from Magura School for the multilateral Comenius project "Mission into the Future - A Quest for Sustainability" (2012 - 2014)
Nature Center Breaks Ground on Treehouse ProjectDenyse Shannon
The Nature Center broke ground on a new treehouse project that has been three years in the planning. The 20 foot by 16 foot treehouse will be built using over 65 yellow pine telephone poles and will take 6-8 weeks to complete. The treehouse design was originally conceived by Alexandria Bennett's grandfather as a way to honor her memory and love of nature. Funding for the treehouse and Nature Center comes through the Spirit of Alexandria Foundation set up in memory of Alexandria by her parents after her death in 2006.
The document promotes converting equipment from electric to natural gas, citing that natural gas reserves are at their highest levels since 1977 and prices are expected to remain low through 2035 according to the Department of Energy. It notes that on average, natural gas costs $2.75 per million BTU compared to $11.43 per 100 KW for electricity, and encourages contacting Stelter & Brinck for a free savings estimate on converting equipment to natural gas.
Energy conservation is important for several reasons. First, we have limited non-renewable energy resources on Earth and demands are increasing daily. Second, conserving energy saves money and reduces pollution. Third, switching to more efficient options and renewable resources like solar, wind, and hydro can help meet rising demands and lessen the impact on existing supplies. Some tips for conserving energy include recycling products, turning off unused devices, replacing old light bulbs with efficient LED bulbs, and improving insulation and efficiency of home appliances. Widespread conservation efforts can significantly reduce costs and energy imports over time.
GenCell provides backup power solutions using alkaline fuel cell technology. Their fuel cells can provide clean, reliable backup power for as long as needed. GenCell fuel cells offer several advantages over diesel generators and batteries including longer duration backup from a single fuel source, higher efficiency, and lower fuel costs through the use of ammonia. GenCell is also developing hybrid and off-grid solutions to provide continuous power using their fuel cells combined with batteries and renewable energy sources.
A presentation to the Mirpur DOHS Parishad on.pdfSohel Mahboob
The document discusses setting up a microgrid and acrylic swimming pools in Mirpur DOHS Parishad plots. It proposes installing solar panels on the 1700 plots' rooftops to create an energy bank that could minimize load shedding and generate monthly revenue of around 2 crore taka for the society. Engineers from BUET and marine engineers in the joint venture have experience to calculate energy density and power factor for the microgrid project. It also discusses building acrylic swimming pools on DOHS Parishad land using a build-own-operate-transfer model, where the joint venture would build, own, and profit share the pools until the return on investment is achieved, then transfer ownership.
The development of a country is dependent on the per person energy consumption rate, which is very low
in Bangladesh. Bangladesh installed a capacity of 10416 MW electricity on June 2014 and three fourth of
which is considered to be accessible. Near about 45% people has no access to electricity. Therefore,
electricity shortage is an acute crisis in Bangladesh. As Saint Martin Island is far away from the main
land, it is almost impossible and cost ineffective to supply electricity from the national grid. For
connection of nearly 6000 peoples of Saint Martin to the main stream of development and to make this
island more attractive to the tourists, it is very essential to provide electricity for them. Power generation
by combining solar, wind and diesel, known as hybrid system can be the most efficient technique for the
electrification of these types of Island. Based on this principle, in this paper a hybrid system is designed
for electrification of Saint Martin’s Island. In the analysis, realistic data is used for load calculation and
optimization analysis for most effective solution. Hybrid Optimization Model for Electric Renewable
(HOMER) software is used to find out the final optimization and sensitive analysis of hybrid system. This
system satisfies the load demand and reduces carbon emission which will help to generate green energy.
Feasibility and Efficiency of Renewable Energy Habitat Nilam Shah
This document provides an overview of renewable energy sources and applications in India. It discusses the current energy landscape and generation capacity in India. It then examines perceptions around the feasibility and returns of investing in different asset classes like real estate, stocks, and bonds compared to renewable energy. The document outlines applications of renewable energy with breakout potential, including solar water pumps, solar rooftops, solar microgrids, and installing solar panels on wastelands. It provides economic case studies for each of these applications and discusses challenges around shifting perceptions and policies to promote renewable energy adoption.
This document discusses energy conservation and provides tips for saving energy. It begins by defining energy as the ability to do work, and notes that energy lights cities, powers vehicles and more. It then explains that energy resources are limited on Earth and demands are increasing, so conservation is important. Some ways to conserve mentioned include recycling, turning off unused devices, and replacing old light bulbs with energy efficient ones. Specific energy saving tips are provided for both home and public settings. The document emphasizes that conservation will help save money and reduce pollution by saving energy. It provides an example showing potential annual savings from replacing a light bulb. Overall, the document promotes energy conservation through various everyday practices.
Science provides a tool to find truth and leads to innovation and improvements in life for humanity. It helps solve world problems and enables happy and comfortable living for all through sustainability and progress. Examples of scientific advances that benefit humanity include faster and more comfortable transportation, new medicines like vaccines, detecting food adulteration, electric vehicles, solar energy, increased food production, better housing, and online education. Proper use of science allows for convenient train travel and detecting harmful adulterants in common food items like milk and sugar.
Do you know how much electricity you use in your personal office, cubicle or home? Do you know how much energy your desktop computer or laptop uses? Will you save more electricity by turning off your computer at night or shortening your daily shower by five minutes? Discover some counter-intuitive facts about saving energy, money and the environment.
The document discusses fossil fuels as the main source of energy and how burning them releases carbon dioxide into the atmosphere. It then provides details on Ireland's current energy situation, including its dependence on imported oil. It introduces the carbon calculator as a tool to measure individual and organizational carbon footprints. Lastly, it offers various energy solutions that schools can implement to reduce their energy usage and lower their carbon footprint.
Do you know how much electricity you use in your home? Do you know how much energy your desktop computer or laptop uses? Will you save more electricity by turning off your computer at night or shortening your daily shower by five minutes? Discover some counter-intuitive facts about saving energy, money and the environment.
Solarify is a platform to accelerate the deployment of rooftop solar energy by making it easier for end consumers to access information, expertise & financing for solar power.
Get in touch with us to understand how rooftop solar can be a cheaper, reliable and feasible technology for all your energy needs.
Did you know that a Single LED lamp in your existing fixture can return 635% over its lifetime? Are you doing your part to ensure a sustainable way of life for the younger generations? Choose how to invest your savings versus
Power consuption in household and hostel roomsANURAG GIRI
it will help you on the project power consuption in hostal rooms with different devices.you will also come to know about power reading og lpu in the year 2015-16 and also you will come to know about the modern technology.
This document proposes several ideas to reduce energy and water consumption at a university hostel. Some key proposals include installing aerator taps, which could save over 5000 liters of water per day; using melamine cups instead of paper cups in the mess, which would save trees and reduce costs; adding vertical moss gardens to exterior walls to decrease cooling electricity usage by 288 kWh per day; and installing a concentrated solar panel system to generate 830 kWh of electricity daily from the hostel terrace. Overall, the proposals suggest the potential for significant daily savings of both water and electricity across the hostel campus.
Replacing Kerosine based lighting with White LED through solar energyindividual
The document discusses replacing kerosene lighting with white LED lighting in rural Bangladesh. It outlines the objectives of finding affordable and sustainable lighting options. It then describes the current use of kerosene lighting and issues with it like pollution, costs, and safety hazards. It introduces white LEDs as a new lighting technology that is more efficient, durable, and cost effective than kerosene or other options over the long run. The document presents two proposed LED lighting system designs and surveys their uses in homes and businesses in rural villages.
This document discusses the potential for a mini-hydro system using rainwater runoff at the King Street Center, which collects 1.4 million gallons of rainwater annually from its 44,000 square foot roof. It explores building a low-cost turbine from repurposed materials to test if enough energy can be produced. Calculations will compare expected energy production to measurements from a homemade turbine. The goals are to demonstrate mini-hydro possibilities on campus and provide an educational resource for renewable energy.
This document provides a case study and summary of a solar lighting project implemented in the rural community of Odighi, Nigeria. The project aimed to increase access to clean energy for lighting by installing solar home systems for 40 households. It trained 50 local youth to install and maintain the systems. The project helped the community transition from using smoky and hazardous kerosene lamps to cleaner solar lighting. This improved quality of life, boosted economic activities, and reduced carbon emissions by over 5 tons annually. In conclusion, the small project helped save the community nearly $4,000 per year in fuel costs while contributing to climate change mitigation.
The document discusses energy issues and solutions for rural Alaska from a tribal perspective. It notes that most rural Alaskan communities rely on microgrids and pay much higher electricity costs than urban areas. Recommendations include prioritizing energy efficiency, developing small-scale renewable energy projects, and providing related training and education. Specific projects highlighted include solar installations, LED lighting upgrades, and small wind turbines.
ADA power high effeciency presentataion summary 02.05.2019Avanindra Yadav
The Unique Hyper Solar Innovation/Technology which we have designed can produce multi-fold units of energy as compared to the existing solar plants and is also environment-friendly.
Developing Solar Projects under REC Mechanism in IndiaBhargav Parmar
Instead of signing MoU, PPA, submitting performance bank guarantee etc for 25 years or participating in cut throat bidding process (project is viable only to module manufacturers for the rate it can be achieved), I suggest to develop the solar project under REC Mechanism, as for selling the power through average exchange rate and realizing the mean value of REC rate for first five years and half of the floor price for next 5 years, yields levellised rate of Rs.10.536*. [Solar Tariff in Gujarat: Rs. 9.28 for project commissioned up to 2013, Rs. 8.63 for project commissioned up to 2014 and Rs. 8.03 for project commissioned up to 2015].
Even if REC floor price is reduced by half for next 5 years and NIL thereafter, developing the project under REC and selling the power through Energy Exchange, would yield rate of Rs.9.647 which is more than maximum rate of NVVN against cost of generation not more than Rs.6.50. [NVVN is the nodal agency of NTPC for procuring solar power to meet their REC requirement. In the 1st phase NVVN finalized bid for 150 MW Solar Projects and in latest bid for 350 MW Solar Projects. In the latest NVVN bid the price offer for solar power projects were minimum Rs.7.49 and maximum Rs.9.44]
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Using data from 41 years in Patna’ India’ the study’s goal is to analyze the trends of how often it rains on a weekly, seasonal, and annual basis (1981−2020). First, utilizing the intensity-duration-frequency (IDF) curve and the relationship by statistically analyzing rainfall’ the historical rainfall data set for Patna’ India’ during a 41 year period (1981−2020), was evaluated for its quality. Changes in the hydrologic cycle as a result of increased greenhouse gas emissions are expected to induce variations in the intensity, length, and frequency of precipitation events. One strategy to lessen vulnerability is to quantify probable changes and adapt to them. Techniques such as log-normal, normal, and Gumbel are used (EV-I). Distributions were created with durations of 1, 2, 3, 6, and 24 h and return times of 2, 5, 10, 25, and 100 years. There were also mathematical correlations discovered between rainfall and recurrence interval.
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Originality and value: The results of the rainfall IDF curves can provide useful information to policymakers in making appropriate decisions in managing and minimizing floods in the study area.
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1. ENERGY EFFIECIENCY ENERGY
ENERGY MONITORING APP
PREPAREDBY for LOCUS Energy
Hackathon 2017
PRASHANT NIROULA
SUSHANT RIJAL
RAJ DANGOL
DHIRAN KARKI
Energy Hackathon 2017
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4. विधुत बचाउन सककने के हि साधारण तररकािरु
ways to reduce electric consumption
1. Turn off unnecessary lights
Two 100-watt incandescent bulbs switched off for an average of two hours per day could save you $12 over a year.
2. Use natural light
A single south-facing window can illuminate 20 to 100 times its area. Turning off one 60-watt bulb for four hours a day is a $9 saving
over a year.
3. Use task lighting
Turn off ceiling lights and use table lamps, track lighting and under-counter lights in work and hobby areas as well as in kitchens.
4. Turn it off or down while on vacation
Unplugging electronics, and turning down the heat to 15ºC or less while you're away in the winter can cut your energy use
by 30% or more.
Energy Hackathon 2017
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5. विधुत बचाउन सककने के हि साधारण तररकािरु
ways to reduce electric consumption
7. Unplug unused electronics
Standby power can account for 10% of an average household's annual electricity
use. Unplug unused electronics and save $50 a year.
8. Ditch the desktop computer
If you're still using that old desktop, recycle it and switch to your laptop. If you use
your laptop two hours per day, you'll save $11 over a year.
9. Be efficient with refrigeration
Keep your fridge and freezer at their ideal temperature. For your fridge this is
between 2°C and 3°C and your freezer should be at -18°C.
10. Recycle or donate that old TV
Recycle or donate your old T.V.. Even if you're just using it an hour a day, that 42-inch
LCD is costing you 8$ a year.
Energy Hackathon 2017
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6. ने.वि.प्रा को अनुसार peak hour मा माग बढेर 1300 MW सम्म पुग्छ । मध्य रातमा 400 MW माग िुन्छछ ।
उपत्यकामा peak hour मा माग बढेर 300 MW पुग्छ र हिउसो 200 MW माग िुन्छछ ।
(As per NEA Peak demand in Nepal is 1300 MW and 400MW is demand at mid-night. Kathmandu valley
has peak demand of 300MW and normal demand of 200MW)
Energy Hackathon 2017
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7. िाम्रो िेशमा hydro power बनाउन कम्म्तमा पनन ५-७ िर्ाा लग्ने गरेको छ ।
Construction of hydropower in Nepal takes from 5-7 years in average.
Energy Hackathon 2017
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8. आन्छधकार धेरै टाढा भागेको छैन
Darkness is still not very far
Energy Hackathon 2017
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16. तुरुन्छतै गना सककने काम
steps of development
Energy Hackathon 2017
1. Consumer acceptance and Utility permissions
2. Hardware Research based on our Analog Meters
3. Development of Electronics
4. Testing of Electronics
5. Development of APP
6. Testing of APP
7. Creation of Database
8. Circulation of APP
9. Improve and update continuously
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