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H. Khater

Rensselaer Polytechnic Institute
Bio: H. Khater is an academic researcher from Rensselaer Polytechnic Institute. The author has an hindex of 1, co-authored 1 publications receiving 59 citations.
Papers
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Journal ArticleDOI
ARIES-RS safety design and analysis

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Don Steiner1, L. El-Guebaly1, S. Herring1, H. Khater1, E. Mogahed1, R. Thayer1, Mark S. Tillack1 
Rensselaer Polytechnic Institute1
01 Dec 1997-Fusion Engineering and Design
TL;DR: In this paper, a 1000 MWe conceptual fusion power plant design with a very low projected cost of electricity is presented, which contains many innovative features to improve both the physics and engineering performance of the system.

59 citations

Cited by
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BookDOI
Global Energy Assessment: Toward a Sustainable Future

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Global Energy Assessment Writing Team
01 Oct 2012
TL;DR: The Global Energy Assessment (GEA) as mentioned in this paper brings together over 300 international researchers to provide an independent, scientifically based, integrated and policy-relevant analysis of current and emerging energy issues and options.
Abstract: The Global Energy Assessment (GEA) brings together over 300 international researchers to provide an independent, scientifically based, integrated and policy-relevant analysis of current and emerging energy issues and options. It has been peer-reviewed anonymously by an additional 200 international experts. The GEA assesses the major global challenges for sustainable development and their linkages to energy; the technologies and resources available for providing energy services; future energy systems that address the major challenges; and the policies and other measures that are needed to realize transformational change toward sustainable energy futures. The GEA goes beyond existing studies on energy issues by presenting a comprehensive and integrated analysis of energy chalenges, opportunities and strategies, for developing, industrialized and emerging economies. This volume is a invaluable resource for energy specialists and technologists in all sectors (academia, industry and government) as well as policymakers, development economists and practitioners in international organizations and national governments.

812 citations

Journal ArticleDOI
The ARIES-AT advanced tokamak, Advanced technology fusion power plant

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Farrokh Najmabadi1, A. Abdou2, Leslie Bromberg3, Thomas Brown4, V.C. Chan5, M.C. Chu5, F. Dahlgren4, Laila El-Guebaly2, P.J. Heitzenroeder4, Douglass L. Henderson2, H.E. St. John5, C.E. Kessel4, L. L. Lao5, G. R. Longhurst, S. Malang3, T. K. Mau1, Brad J. Merrill, Ronald L. Miller1, E. A. Mogahed2, R. L. Moore, T.W. Petrie5, David A. Petti, P. A. Politzer5, A.R. Raffray1, Don Steiner6, I.N. Sviatoslavsky2, P. Synder5, G.M. Syaebler5, A. D. Turnbull5, Mark S. Tillack1, Lester M. Waganer, X. R. Wang1, P. West5, Paul P. H. Wilson2 
University of California, San Diego1, University of Wisconsin-Madison2, Massachusetts Institute of Technology3, Princeton Plasma Physics Laboratory4, General Atomics5, Rensselaer Polytechnic Institute6
01 Jan 2006-Fusion Engineering and Design
TL;DR: The ARIES-AT as discussed by the authors is a simple low-pressure design consisting of SiC composite boxes with a SiC insert for flow distribution that does not carry any structural load.

208 citations

Journal ArticleDOI
Configuration and engineering design of the ARIES-RS tokamak power plant

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Mark S. Tillack1, Siegfried Malang1, L. Waganer1, X.R. Wang1, D.-K. Sze1, Laila El-Guebaly1, C.P.C Wong1, J.A Crowell1, T. K. Mau1, Leslie Bromberg1 
University of California, San Diego1
01 Dec 1997-Fusion Engineering and Design
TL;DR: ARIES-RS as discussed by the authors is a conceptual design study which has examined the potential of an advanced tokamak-based power plant to compete with future energy sources and play a significant role in the future energy market.

143 citations

Journal ArticleDOI
Overview of the ARIES-RS reversed-shear tokamak power plant study

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Farrokh Najmabadi1, Charles G. Bathke2, Michael C. Billone3, James Blanchard4, Leslie Bromberg5, Edward Chin6, Fredrick R Cole, Jeffrey A. Crowell4, David A. Ehst3, Laila El-Guebaly4, J. Stephen Herring, Thanh Q. Hua3, Stephen Jardin7, Charles Kessel7, H.Y. Khater4, V. Dennis Lee, Siegfried Malang1, T. K. Mau1, Ronald L. Miller1, E. A. Mogahed4, Thomas W Petrie6, Elmer E Reis6, J.H. Schultz5, M. Sidorov5, Don Steiner8, I.N. Sviatoslavsky4, Dai-Kai Sze3, Robert Thayer8, Mark S. Tillack1, Peter H. Titus5, Lester M Wagner, X.R. Wang1, C.P.C. Wong6 
University of California, San Diego1, Los Alamos National Laboratory2, Argonne National Laboratory3, University of Wisconsin-Madison4, Massachusetts Institute of Technology5, General Atomics6, Princeton Plasma Physics Laboratory7, Rensselaer Polytechnic Institute8
01 Dec 1997-Fusion Engineering and Design
TL;DR: The ARIES-RS tokamak is a conceptual, D-T-burning 1000 MWe power plant as mentioned in this paper, which employs a reversed-shear plasma and employs a moderate aspect ratio (A40).

140 citations

Journal ArticleDOI
Fusion power core engineering for the ARIES-ST power plant

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Mark S. Tillack1, X.R. Wang1, J. Pulsifer1, Siegfried Malang, D.K. Sze2, Michael C. Billone2, I.N. Sviatoslavsky3 
University of California, San Diego1, Argonne National Laboratory2, University of Wisconsin-Madison3
01 Feb 2003-Fusion Engineering and Design
TL;DR: The details of the power core design are presented together with analysis of the thermal–hydraulic, thermomechanical and materials behavior of in-vessel components for an advanced helium-cooled ferritic steel blanket with flowing PbLi breeder and tungsten plasma-interactive components.

66 citations