logging in or signing up GETI - Energy Campus GETI Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 1128 Category: Science & Tech.. License: All Rights Reserved Like it (1) Dislike it (0) Added: April 24, 2009 This Presentation is Public Favorites: 1 Presentation Description The Sustainable Energy Campus is a comprehensive approach to using various green energy production methods together to improve efficiency and total energy output. Comments Posting comment... By: obaidaaljobory (26 month(s) ago) thanks Saving..... Post Reply Close Saving..... Edit Comment Close Premium member Presentation Transcript Global Energy Technologies, Inc. : Global Energy Technologies, Inc. GETI Sustainable Energy Campus Sustainable Energy Campus Defined : Sustainable Energy Campus Defined Not a school or series of buildings Collection of energy sources working together When energy sources are implemented at a macro scale, bigger issues can be addressed. GETI has proprietary technologies that allow these systems to work together in ways that can improve efficiency and maximize output. Whole is greater than the sum of the parts Green Energy Production : Green Energy Production New hydroelectric is cost prohibitive and time consuming to build. Shorter term implementation of wind, solar and geothermal. Can operate initially as secondary resources. Can become primary energy sources. Wind and Solar as Primary Energy Sources : Wind and Solar as Primary Energy Sources Wind and solar are effective albeit inconsistent energy sources. Allows less strain on stored, dispatchable resources – like hydroelectric. More reliable energy stream. Phase 1 – Supplement Primary Generation Sources : Phase 1 – Supplement Primary Generation Sources Not “dispatchable” systems Reduce power costs Create energy production backup and redundancy Must be regarded as part of a larger-scale approach Storage of Excess Capacity : Storage of Excess Capacity Hydrogen Production and Storage : Hydrogen Production and Storage Excess energy from windmills will be able to operate our Advanced Hydrogen Electrolysis systems. This system produces and stores hydrogen which can then be utilized as required. Stored Hydrogen : Stored Hydrogen Hydrogen is stored in the same manner as propane or natural gas. Burned in turbines that produce electricity. Turbine heat can also be used for co-generation Building heat, Water, etc. Flash Carbonization Phase 2 – Add Stored Energy Source : Phase 2 – Add Stored Energy Source Reduce Power Costs Energy Redundancy Meet Peak Power Demand Energy Export Cap-and-Trade Benefits 2 Hydrogen The Carbon Problem : The Carbon Problem Carbon Tax and Cap-and-Trade programs are on the horizon. Forested countries are given some latitude by the Kyoto Protocol but sequestering carbon is an increasingly expensive problem. Some proponents suggest: Ocean storage (sinking organic material to 1000m) Geological storage (direct injection) Mineral Storage (chemically reacting) Current methods are expensive and inefficient. There is a better way to manage CO2 emissions. Flash Carbonization : Flash Carbonization Excess heat from hydrogen, concentrated solar or geothermal sources can be used to burn organic material via Pyrolysis. Any organic material can be used. The energy used for this process is generated by 100% green energy sources. Flash Carbonization creates a sequestered carbon solid from organic materials and prevents CO2 from entering the atmosphere. Phase 3 – Flash Carbonization : Phase 3 – Flash Carbonization Reduce Power Costs Energy Redundancy Peak power Demands Energy Export Cap and Trade Benefits Carbon Sequestration 2 Hydrogen Flash Carbonization 3 Bio-Fuels : Bio-Fuels Concentrated carbon can be mixed with locally generated hydrogen using Fischer-Tropsch and other processes. This process creates clean Bio-Gas and Bio-Diesel Fuel. Any organic carbon material can be used – including deleterious coal. Properties similar to fossil-generated fuels and unlike bio-fuels generated with vegetable oil. No coagulation at low temps No separation at high temps Phase 4 – Create Bio-Fuels : Phase 4 – Create Bio-Fuels Reduce Power Costs Energy Redundancy Peak Power Demands Energy Export Cap and Trade Benefits Carbon Sequestration Self-Sufficiency National Security Grid Decentralization Stable Fuel Prices Hydrogen Flash Carbonization 3 4 Bio-Fuels 2 In Conclusion : In Conclusion GETI provides a comprehensive answer to worldwide energy/fuel requirements. The GETI platform is fully scalable. Further savings through economies of scale. Wind and biomass resources are abundant. No “fossil fuel transition” is required. System is flexible and can be integrated with additional technologies. Thank You : Thank You Contact Information: Contact@gblnrg.com (435) 216-5577 Website: www.gblnrg.com You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
GETI - Energy Campus GETI Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 1128 Category: Science & Tech.. License: All Rights Reserved Like it (1) Dislike it (0) Added: April 24, 2009 This Presentation is Public Favorites: 1 Presentation Description The Sustainable Energy Campus is a comprehensive approach to using various green energy production methods together to improve efficiency and total energy output. Comments Posting comment... By: obaidaaljobory (26 month(s) ago) thanks Saving..... Post Reply Close Saving..... Edit Comment Close Premium member Presentation Transcript Global Energy Technologies, Inc. : Global Energy Technologies, Inc. GETI Sustainable Energy Campus Sustainable Energy Campus Defined : Sustainable Energy Campus Defined Not a school or series of buildings Collection of energy sources working together When energy sources are implemented at a macro scale, bigger issues can be addressed. GETI has proprietary technologies that allow these systems to work together in ways that can improve efficiency and maximize output. Whole is greater than the sum of the parts Green Energy Production : Green Energy Production New hydroelectric is cost prohibitive and time consuming to build. Shorter term implementation of wind, solar and geothermal. Can operate initially as secondary resources. Can become primary energy sources. Wind and Solar as Primary Energy Sources : Wind and Solar as Primary Energy Sources Wind and solar are effective albeit inconsistent energy sources. Allows less strain on stored, dispatchable resources – like hydroelectric. More reliable energy stream. Phase 1 – Supplement Primary Generation Sources : Phase 1 – Supplement Primary Generation Sources Not “dispatchable” systems Reduce power costs Create energy production backup and redundancy Must be regarded as part of a larger-scale approach Storage of Excess Capacity : Storage of Excess Capacity Hydrogen Production and Storage : Hydrogen Production and Storage Excess energy from windmills will be able to operate our Advanced Hydrogen Electrolysis systems. This system produces and stores hydrogen which can then be utilized as required. Stored Hydrogen : Stored Hydrogen Hydrogen is stored in the same manner as propane or natural gas. Burned in turbines that produce electricity. Turbine heat can also be used for co-generation Building heat, Water, etc. Flash Carbonization Phase 2 – Add Stored Energy Source : Phase 2 – Add Stored Energy Source Reduce Power Costs Energy Redundancy Meet Peak Power Demand Energy Export Cap-and-Trade Benefits 2 Hydrogen The Carbon Problem : The Carbon Problem Carbon Tax and Cap-and-Trade programs are on the horizon. Forested countries are given some latitude by the Kyoto Protocol but sequestering carbon is an increasingly expensive problem. Some proponents suggest: Ocean storage (sinking organic material to 1000m) Geological storage (direct injection) Mineral Storage (chemically reacting) Current methods are expensive and inefficient. There is a better way to manage CO2 emissions. Flash Carbonization : Flash Carbonization Excess heat from hydrogen, concentrated solar or geothermal sources can be used to burn organic material via Pyrolysis. Any organic material can be used. The energy used for this process is generated by 100% green energy sources. Flash Carbonization creates a sequestered carbon solid from organic materials and prevents CO2 from entering the atmosphere. Phase 3 – Flash Carbonization : Phase 3 – Flash Carbonization Reduce Power Costs Energy Redundancy Peak power Demands Energy Export Cap and Trade Benefits Carbon Sequestration 2 Hydrogen Flash Carbonization 3 Bio-Fuels : Bio-Fuels Concentrated carbon can be mixed with locally generated hydrogen using Fischer-Tropsch and other processes. This process creates clean Bio-Gas and Bio-Diesel Fuel. Any organic carbon material can be used – including deleterious coal. Properties similar to fossil-generated fuels and unlike bio-fuels generated with vegetable oil. No coagulation at low temps No separation at high temps Phase 4 – Create Bio-Fuels : Phase 4 – Create Bio-Fuels Reduce Power Costs Energy Redundancy Peak Power Demands Energy Export Cap and Trade Benefits Carbon Sequestration Self-Sufficiency National Security Grid Decentralization Stable Fuel Prices Hydrogen Flash Carbonization 3 4 Bio-Fuels 2 In Conclusion : In Conclusion GETI provides a comprehensive answer to worldwide energy/fuel requirements. The GETI platform is fully scalable. Further savings through economies of scale. Wind and biomass resources are abundant. No “fossil fuel transition” is required. System is flexible and can be integrated with additional technologies. Thank You : Thank You Contact Information: Contact@gblnrg.com (435) 216-5577 Website: www.gblnrg.com