Geothermal energy

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Geothermal energy is thermal energy generated and stored in the Earth. (Wikipedia.org)






Conferences related to Geothermal energy

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2017 IEEE Power & Energy Society General Meeting

The annual IEEE Power & Energy Society General Meeting will bring together over 2000 attendees for technical sessions, student program, awards ceremony, committee meetings, and tutorials.

  • 2015 IEEE Power & Energy Society General Meeting

    The annual IEEE PES General Meeting will bring together over 2500 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutorials and more PLEASE NOTE: Abstracts are not accepted for the 2015 IEEE PES General Meeting, full papers only can be submitted to the submission site 24 October 2014 through 21 November 2014.  The site will be available from the PES home page www.ieee-pes.org

  • 2014 IEEE Power & Energy Society General Meeting

    The annual IEEE PES General Meeting will bring together over 2500 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutotials and more

  • 2013 IEEE Power & Energy Society General Meeting

    The annual IEEE Power & Energy Society General Meeting will bring together over 2000 attendees for technical sessions, student program, awards ceremony, committee meetings, and tutorials.

  • 2012 IEEE Power & Energy Society General Meeting

    The annual IEEE Power & Energy Society General Meeting will bring together over 2000 attendees for technical sessions, student program, awards ceremony, committee meetings, and tutorials.

  • 2011 IEEE Power & Energy Society General Meeting

    IEEE Power & Energy Annual Meeting --Papers --Awards --Plenary --Committee Meetings --Governing Board --Receptions --Tech tours --Tutorials --Companions Program

  • 2010 IEEE Power & Energy Society General Meeting

    IEEE Power & Energy Society Annual Meeting --Technical Sessions --Committee Meetings --Plenary Session --Gove Board Meeting --Awards Banquet --Tutorials --Student Activities --Social Events --Companions Program

  • 2009 IEEE Power & Energy Society General Meeting

    Paper and Panel sessions involving topics of interest to electric power engineers, technical committee meetings, administrative committee meetings, awards luncheon and plenary session.

  • 2008 IEEE Power & Energy Society General Meeting

    This meeting has paper and panel sessions on all areas of interest to electric power engineers.


2012 47th International Universities Power Engineering Conference (UPEC)

A major international forum for the presentation, discussion and exchange of information concerning new trends in electrical power engineering. To become better informed about the latest developments in the field of power engineering.

  • 2010 45th International Universities Power Engineering Conference (UPEC)

    The global energy challenge, the ageing of electrical networks in industrial countries, and the extension of the grids in developing countries require significant research effort and the need for talented engineers and innovators is critical to the electrical energy industry. UPEC is an ideal forum to address such issues, and to network and meet experts in these areas

  • 2009 44th International Universities Power Engineering Conference (UPEC)

    UPEC has been long-established as a major annual international forum for the presentation, discussion and exchange of information concerning new trends in all areas of electric power engineering. Contributions from younger engineers and researchers are particularly encouraged at UPEC, where ideas can be aired freely and new relationships developed.

  • 2008 43rd International Universities Power Engineering Conference (UPEC)

    Its aim will be to provide a professional forum for engineers and research scientists from the universities, consultants, and in the manufacturing and supply industries opportunities to present their work and explore potential trends and recent developments, current practices in Power Engineering and related fields.


2012 International Symposium on Power Electronics, Electrical Drives, Automation and Motion (SPEEDAM 2012)

Speedam is a place where experts of industrial and academic world can discuss together with user about recent developments and trends in the field of Power Electronics, Electrical Drives, Automation, Electrical Energy Management, Power Quality, Transportation. Within these areas, Speedam is aimed to identify relevant applications evidencing main problems and strategies.


2010 International Conference on Advances in Energy Engineering (ICAEE)

This conference will provide a unique platform for world-wide academia, engineers, industrialists, scientists and the governmental decision-makers to discuss on the advances in energy engineering and its allied fields. The themes for deliberations during the conference include newer developments in conventional energy sources, alternate energy sources and their utilization, analyses of energy systems, clean energy and bio-fuels, energy transformation and transmission, energy-consuming devices, energy instru


2009 International Conference on Energy and Environment Technology (ICEET)

The main topics are listed as follows: Energy efficency and management power generation technology power technology and application water,air pollution and protection



Periodicals related to Geothermal energy

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Nuclear Science, IEEE Transactions on

All aspects of the theory and applications of nuclear science and engineering, including instrumentation for the detection and measurement of ionizing radiation; particle accelerators and their controls; nuclear medicine and its application; effects of radiation on materials, components, and systems; reactor instrumentation and controls; and measurement of radiation in space.


Potentials, IEEE

This award-winning magazine for technology professionals explores career strategies, the latest research and important technical developments. IEEE Potentials covers theories to practical applications and highlights technology's global impact.


Proceedings of the IEEE

The most highly-cited general interest journal in electrical engineering and computer science, the Proceedings is the best way to stay informed on an exemplary range of topics. This journal also holds the distinction of having the longest useful archival life of any EE or computer related journal in the world! Since 1913, the Proceedings of the IEEE has been the ...




Xplore Articles related to Geothermal energy

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Progress in making hot dry rock geothermal energy a viable renewable energy resource for America in the 21st century

D. V. Duchane IECEC 96. Proceedings of the 31st Intersociety Energy Conversion Engineering Conference, 1996

The geothermal energy in hot dry rock (HDR) is a vast resource found almost everywhere in the world. Research and development work conducted by the Los Alamos National Laboratory at the Fenton Hill test site has taken the technology to extract HDR energy from the conceptual stage through a concrete demonstration such that useful amounts of energy can be routinely ...


The power of water

Sally Adee; Samuel K. Moore IEEE Spectrum, 2010

This paper discusses electricity generation using geothermal energy.


Hot rocks

Sandra Upson IEEE Spectrum, 2009

Four kilometers down below the orange earth of Australia¿s Cooper Basin lies some of the hottest nonvolcanic rock in the world¿rock that the geothermal industry had never seriously considered using to make electricity. But next month Geodynamics, an eight-year-old company based in Milton, Queensland, will prove otherwise when it turns on its 1¿megawatt pilot plant here. The company has done ...


Development of a 1 kW, 200°C Mapham inverter utilizing high temperature components

A. Hammoud; S. Gerber; E. Baumann; E. Overton IEEE 1997 Annual Report Conference on Electrical Insulation and Dielectric Phenomena, 1997

Electronic systems and components often exposed to high temperature environment in space-based applications, nuclear power facilities, and geothermal energy extraction fields. A key requirement for these systems is, therefore, to withstand the high temperature exposure while maintaining efficient and reliable operation. Efforts were taken to design and develop a high temperature power inverter capable of 200°C operation. In this work, ...


High temperature electronics for geothermal energy

Anthony F. Veneruso IEEE Circuits & Systems Magazine, 1979

Instrumentation for geothermal borehole measurements is being expanded beyond today's limited capabilities. Prototype logging tools have been successfully field-tested to 275°C; a high-resolution quartz pressure transducer and a gallium phosphide diode have been successfully tested. Near-term goals of current programs are to develop instrumentation for use at 275° in pressures up to 48.3 MPa (7000 psi).


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Educational Resources on Geothermal energy

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eLearning

Progress in making hot dry rock geothermal energy a viable renewable energy resource for America in the 21st century

D. V. Duchane IECEC 96. Proceedings of the 31st Intersociety Energy Conversion Engineering Conference, 1996

The geothermal energy in hot dry rock (HDR) is a vast resource found almost everywhere in the world. Research and development work conducted by the Los Alamos National Laboratory at the Fenton Hill test site has taken the technology to extract HDR energy from the conceptual stage through a concrete demonstration such that useful amounts of energy can be routinely ...


The power of water

Sally Adee; Samuel K. Moore IEEE Spectrum, 2010

This paper discusses electricity generation using geothermal energy.


Hot rocks

Sandra Upson IEEE Spectrum, 2009

Four kilometers down below the orange earth of Australia¿s Cooper Basin lies some of the hottest nonvolcanic rock in the world¿rock that the geothermal industry had never seriously considered using to make electricity. But next month Geodynamics, an eight-year-old company based in Milton, Queensland, will prove otherwise when it turns on its 1¿megawatt pilot plant here. The company has done ...


Development of a 1 kW, 200°C Mapham inverter utilizing high temperature components

A. Hammoud; S. Gerber; E. Baumann; E. Overton IEEE 1997 Annual Report Conference on Electrical Insulation and Dielectric Phenomena, 1997

Electronic systems and components often exposed to high temperature environment in space-based applications, nuclear power facilities, and geothermal energy extraction fields. A key requirement for these systems is, therefore, to withstand the high temperature exposure while maintaining efficient and reliable operation. Efforts were taken to design and develop a high temperature power inverter capable of 200°C operation. In this work, ...


High temperature electronics for geothermal energy

Anthony F. Veneruso IEEE Circuits & Systems Magazine, 1979

Instrumentation for geothermal borehole measurements is being expanded beyond today's limited capabilities. Prototype logging tools have been successfully field-tested to 275°C; a high-resolution quartz pressure transducer and a gallium phosphide diode have been successfully tested. Near-term goals of current programs are to develop instrumentation for use at 275° in pressures up to 48.3 MPa (7000 psi).


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IEEE-USA E-Books

  • Renewable Energy Flows

    This chapter contains sections titled: Solar Radiation and Its Conversions to Heat and Electricity, Wind and Wind-Generated Electricity, Water Power and Hydro Generation, Phytomass for Traditional and Modern Uses, Geothermal Energy

  • Geothermal Energy Power from the Deep

    This chapter contains sections titled: Tapping into the Earth's Heat Geothermal Heat and Power Plants Planning and Design Economics Ecology Geothermal Markets Outlook and Development Potential

  • Gallium Phosphide DevicesThis work was sponsored by Sandia Laboratory for the division of Geothermal Energy, U.S. Department of Energy.

    "HIGH-TEMPERATURE ELECTRONICS provides expert coverage of the applications, characteristics, design, selection, and operation of electronic devices and circuits at temperatures above the conventional limit of 125 degrees Celsius. This edited volume contains approximately 100 key reprinted papers covering a wide range of topics related to high-temperature electronics, eight invited papers, extensive references, and a comprehensive bibliography. Containing more than 200 pages of new material, it brings the reader a well-rounded review of high-temperature electronics from its beginnings decades ago through the present and beyond to possible future technologies. The scope of HIGH TEMPERATURE ELECTRONICS includes active components from standard and advanced semiconductor materials, passive components, as well as technologies for metallizations, interconnections, and the assembly and packaging of electronic components. This book will provide active researchers, technology developers, managers, materials scientists, and advanced students with a sound fundamental grounding in high-temperature electronics technology." Sponsored by: IEEE Components, Packaging, and Manufacturing Technology Society.

  • Appendix B: Geothermal Energy

    This appendix contains sections titled: Introduction Geothermal as a Source of Energy References

  • High Temperature Electronics for Geothermal EnergyWork performed under the auspices of the U.S. Department of Energy, Contract No. DEAC0476PD00789 for the Division of Geothermal Energy (DGE).

    The worldwide production of electric power from geothermal energy sources at present is 1.2 GW. The largest facility is in the United States at The Geysers, in Northern California, where 605 MW is on-line. Recent estimates indicate that geothermal energy sources could produce over 10 GW of power in the USA by 1990; however, to achieve this goal there must be accelerated exploration and development. Developers and investors may be reluctant to make the necessary commitments if there is high risk or uncertainty in a geothermal reservoir's production potential. Also, once a system is in operation, engineers periodically need accurate and timely downhole information from each well in order to obtain optimum production. Instrumentation for geothermal borehole measurements is being expanded beyond today's limited capabilities. Prototypical logging tools have been successfully field-tested to 275° C; a highresolution quartz pressure transducer and a gallium phosphide diode have been successfully tested. Near-term goals of current programs are to develop instrumentation for use at 275° in pressures up to 48.3 MPa (7,000 psi).

  • Geothermal Energy

    This chapter contains sections titled: The Geothermal Resource, Hydrothermal Fluids, Geopressured Brines, Hot Dry Rock, Magma, Environmental and Siting Issues, Notes



Standards related to Geothermal energy

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