�ݺ�ߣshows by User: UKMIEEE

�ݺ�ߣshows by User: UKMIEEE / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: UKMIEEE / Sat, 11 Apr 2015 04:11:56 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: UKMIEEE Fuel cells and hydrogen energy systems /slideshow/fuel-cells-and-hydrogen-energy-systems/46880222 fuelcellsandhydrogenenergysystems-150411041157-conversion-gate01
1839 - Sir William Grove, first electrochemical H2/O2 reaction to generate energy • 1950s - GE developed the solid-ion exchange H2 fuel cell used by NASA • 1960s- GE produced the fuel cell-based electrical power system for NASA Gemini and Apollo space capsules • 1960s other fuel cells discovered – phosphoric acid, SOFC, molten carbonate • 1970s – Vehicle manufacturers began to experiment FCEV. • 1990 – The California Air Resource Board introduced the Zero Emission Vehicle (ZEV) Mandate. • 2000 – Fuel cell buses were deployed as part of the HyFleet/CUTE project • 2007 – fuel cell started to be sold commercially as APU • 2008 – Honda begins leasing the FCX fuel cell electric vehicle. • 2009 – Large scale of residential CHP programme in Japan.]]>
1839 - Sir William Grove, first electrochemical H2/O2 reaction to generate energy • 1950s - GE developed the solid-ion exchange H2 fuel cell used by NASA • 1960s- GE produced the fuel cell-based electrical power system for NASA Gemini and Apollo space capsules • 1960s other fuel cells discovered – phosphoric acid, SOFC, molten carbonate • 1970s – Vehicle manufacturers began to experiment FCEV. • 1990 – The California Air Resource Board introduced the Zero Emission Vehicle (ZEV) Mandate. • 2000 – Fuel cell buses were deployed as part of the HyFleet/CUTE project • 2007 – fuel cell started to be sold commercially as APU • 2008 – Honda begins leasing the FCX fuel cell electric vehicle. • 2009 – Large scale of residential CHP programme in Japan.]]> Sat, 11 Apr 2015 04:11:56 GMT /slideshow/fuel-cells-and-hydrogen-energy-systems/46880222 UKMIEEE@slideshare.net(UKMIEEE) Fuel cells and hydrogen energy systems UKMIEEE 1839 - Sir William Grove, first electrochemical H2/O2 reaction to generate energy • 1950s - GE developed the solid-ion exchange H2 fuel cell used by NASA • 1960s- GE produced the fuel cell-based electrical power system for NASA Gemini and Apollo space capsules • 1960s other fuel cells discovered – phosphoric acid, SOFC, molten carbonate • 1970s – Vehicle manufacturers began to experiment FCEV. • 1990 – The California Air Resource Board introduced the Zero Emission Vehicle (ZEV) Mandate. • 2000 – Fuel cell buses were deployed as part of the HyFleet/CUTE project • 2007 – fuel cell started to be sold commercially as APU • 2008 – Honda begins leasing the FCX fuel cell electric vehicle. • 2009 – Large scale of residential CHP programme in Japan. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/fuelcellsandhydrogenenergysystems-150411041157-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> 1839 - Sir William Grove, first electrochemical H2/O2 reaction to generate energy • 1950s - GE developed the solid-ion exchange H2 fuel cell used by NASA • 1960s- GE produced the fuel cell-based electrical power system for NASA Gemini and Apollo space capsules • 1960s other fuel cells discovered – phosphoric acid, SOFC, molten carbonate • 1970s – Vehicle manufacturers began to experiment FCEV. • 1990 – The California Air Resource Board introduced the Zero Emission Vehicle (ZEV) Mandate. • 2000 – Fuel cell buses were deployed as part of the HyFleet/CUTE project • 2007 – fuel cell started to be sold commercially as APU • 2008 – Honda begins leasing the FCX fuel cell electric vehicle. • 2009 – Large scale of residential CHP programme in Japan.

Fuel cells and hydrogen energy systems from IEEE UKM Student Beanch

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0 Picohydro systems /UKMIEEE/picohydro-systems picohydrosystems-150411041006-conversion-gate01
No fossil fuel Low CO2 emissions Dams can be used for flood control may have benefits for tourism long life, low maintenance costs Pumped storage can help to meet variable demand Breaks natural river flow which affects fish, sediment deposits and downstream ecology Dams cannot easily be removed, but gradually fill up with sediment may displace people and affect livelihoods Risk from earthquakes water-borne diseases and other health problems]]>
No fossil fuel Low CO2 emissions Dams can be used for flood control may have benefits for tourism long life, low maintenance costs Pumped storage can help to meet variable demand Breaks natural river flow which affects fish, sediment deposits and downstream ecology Dams cannot easily be removed, but gradually fill up with sediment may displace people and affect livelihoods Risk from earthquakes water-borne diseases and other health problems]]> Sat, 11 Apr 2015 04:10:06 GMT /UKMIEEE/picohydro-systems UKMIEEE@slideshare.net(UKMIEEE) Picohydro systems UKMIEEE No fossil fuel Low CO2 emissions Dams can be used for flood control may have benefits for tourism long life, low maintenance costs Pumped storage can help to meet variable demand Breaks natural river flow which affects fish, sediment deposits and downstream ecology Dams cannot easily be removed, but gradually fill up with sediment may displace people and affect livelihoods Risk from earthquakes water-borne diseases and other health problems <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/picohydrosystems-150411041006-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> No fossil fuel Low CO2 emissions Dams can be used for flood control may have benefits for tourism long life, low maintenance costs Pumped storage can help to meet variable demand Breaks natural river flow which affects fish, sediment deposits and downstream ecology Dams cannot easily be removed, but gradually fill up with sediment may displace people and affect livelihoods Risk from earthquakes water-borne diseases and other health problems

Picohydro systems from IEEE UKM Student Beanch

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0 ENERGY POLICY AND SUSTAINABLE DEVELOPMENT /slideshow/energy-policy-and-sustainable-development/46880146 energypolicyandsustainabledevelopment-150411040653-conversion-gate01
What is Policy? Why create a Policy? How to make a Policy? What is Sustainability? How does Energy Use Impact Sustainability? What is Climate Change? How does Energy Use Contribute to Climate Change? The Energy Challenge? Some thoughts on the Way Forward]]>
What is Policy? Why create a Policy? How to make a Policy? What is Sustainability? How does Energy Use Impact Sustainability? What is Climate Change? How does Energy Use Contribute to Climate Change? The Energy Challenge? Some thoughts on the Way Forward]]> Sat, 11 Apr 2015 04:06:53 GMT /slideshow/energy-policy-and-sustainable-development/46880146 UKMIEEE@slideshare.net(UKMIEEE) ENERGY POLICY AND SUSTAINABLE DEVELOPMENT UKMIEEE What is Policy? Why create a Policy? How to make a Policy? What is Sustainability? How does Energy Use Impact Sustainability? What is Climate Change? How does Energy Use Contribute to Climate Change? The Energy Challenge? Some thoughts on the Way Forward <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/energypolicyandsustainabledevelopment-150411040653-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> What is Policy? Why create a Policy? How to make a Policy? What is Sustainability? How does Energy Use Impact Sustainability? What is Climate Change? How does Energy Use Contribute to Climate Change? The Energy Challenge? Some thoughts on the Way Forward

ENERGY POLICY AND SUSTAINABLE DEVELOPMENT from IEEE UKM Student Beanch

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0 Solar Photovoltaic-Thermal (PV/T) Technology and Development /slideshow/solar-photovoltaicthermal-pvt-technology-and-development/46880095 solarphotovoltaic-thermalpvttechnologyanddevelopment-150411040418-conversion-gate01
Why PV/T? A combination of photovoltaic cell and solar thermal collector, hence maximizing space used. Generate both electricity and heat simultaneously. More efficient solar collector.]]>
Why PV/T? A combination of photovoltaic cell and solar thermal collector, hence maximizing space used. Generate both electricity and heat simultaneously. More efficient solar collector.]]> Sat, 11 Apr 2015 04:04:18 GMT /slideshow/solar-photovoltaicthermal-pvt-technology-and-development/46880095 UKMIEEE@slideshare.net(UKMIEEE) Solar Photovoltaic-Thermal (PV/T) Technology and Development UKMIEEE Why PV/T? A combination of photovoltaic cell and solar thermal collector, hence maximizing space used. Generate both electricity and heat simultaneously. More efficient solar collector. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/solarphotovoltaic-thermalpvttechnologyanddevelopment-150411040418-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Why PV/T? A combination of photovoltaic cell and solar thermal collector, hence maximizing space used. Generate both electricity and heat simultaneously. More efficient solar collector.

Solar Photovoltaic-Thermal (PV/T) Technology and Development from IEEE UKM Student Beanch

]]> 8104 7 https://cdn.slidesharecdn.com/ss_thumbnails/solarphotovoltaic-thermalpvttechnologyanddevelopment-150411040418-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds presentation Black http://activitystrea.ms/schema/1.0/post

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0 Low Energy Architecture: An Overview /slideshow/low-energy-architecture-low-energy-architecture-an-overview/46879992 lowenergyarchitecture-150411035806-conversion-gate01
7th Asian School]]>
7th Asian School]]> Sat, 11 Apr 2015 03:58:06 GMT /slideshow/low-energy-architecture-low-energy-architecture-an-overview/46879992 UKMIEEE@slideshare.net(UKMIEEE) Low Energy Architecture: An Overview UKMIEEE 7th Asian School <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/lowenergyarchitecture-150411035806-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> 7th Asian School

Low Energy Architecture: An Overview from IEEE UKM Student Beanch

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0 Biomass As A Renewable Energy Source: �The case of Converting Municipal Solid Waste (MSW) to Energy /slideshow/biomass-as-energy-resource/46879860 biomassasenergyresource-7thasianschool-150411034811-conversion-gate01
The paper describes the importance of biomass as a source of renewable energy. Biomass materials have greatest potential to be processed as feedstocks in bio-energy production or as fuels in combustion, gasification and pyrolysis systems. It discusses various methods of preparing the biomass materials. It identifies various applications and focus areas of research and development in handling, storage of biomass.]]>
The paper describes the importance of biomass as a source of renewable energy. Biomass materials have greatest potential to be processed as feedstocks in bio-energy production or as fuels in combustion, gasification and pyrolysis systems. It discusses various methods of preparing the biomass materials. It identifies various applications and focus areas of research and development in handling, storage of biomass.]]> Sat, 11 Apr 2015 03:48:11 GMT /slideshow/biomass-as-energy-resource/46879860 UKMIEEE@slideshare.net(UKMIEEE) Biomass As A Renewable Energy Source: �The case of Converting Municipal Solid Waste (MSW) to Energy UKMIEEE The paper describes the importance of biomass as a source of renewable energy. Biomass materials have greatest potential to be processed as feedstocks in bio-energy production or as fuels in combustion, gasification and pyrolysis systems. It discusses various methods of preparing the biomass materials. It identifies various applications and focus areas of research and development in handling, storage of biomass. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/biomassasenergyresource-7thasianschool-150411034811-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /> The paper describes the importance of biomass as a source of renewable energy. Biomass materials have greatest potential to be processed as feedstocks in bio-energy production or as fuels in combustion, gasification and pyrolysis systems. It discusses various methods of preparing the biomass materials. It identifies various applications and focus areas of research and development in handling, storage of biomass.

Biomass As A Renewable Energy Source: The case of Converting Municipal Solid Waste (MSW) to Energy from IEEE UKM Student Beanch

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0 https://cdn.slidesharecdn.com/profile-photo-UKMIEEE-48x48.jpg?cb=1523607566 The IEEE Student Branch at the National University of Malaysia. We are an active association, working in a friendly international group, to develop our academic performance as well as our social skills. We are most welcome to accept any new UKM student as a member and any novel idea to improve our team efficiency. ukmieee.org https://cdn.slidesharecdn.com/ss_thumbnails/fuelcellsandhydrogenenergysystems-150411041157-conversion-gate01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/fuel-cells-and-hydrogen-energy-systems/46880222 Fuel cells and hydroge... https://cdn.slidesharecdn.com/ss_thumbnails/picohydrosystems-150411041006-conversion-gate01-thumbnail.jpg?width=320&height=320&fit=bounds UKMIEEE/picohydro-systems Picohydro systems https://cdn.slidesharecdn.com/ss_thumbnails/energypolicyandsustainabledevelopment-150411040653-conversion-gate01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/energy-policy-and-sustainable-development/46880146 ENERGY POLICY AND SUST...