Details
Coupling Power Generation with Syngas-Based Chemical Synthesis
A Process Chain Evaluation from a Power Plant Viewpoint|
53,49 € |
|
| Verlag: | Springer Vieweg |
| Format: | |
| Veröffentl.: | 13.06.2018 |
| ISBN/EAN: | 9783658226091 |
| Sprache: | englisch |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
Coupling power generation with syngas-based chemical synthesis according to the so-called ‘Polygeneration-Annex’ concept offers economic and technical benefits. Clemens Forman assesses the integration of incoming streams by the Annex plant from a power plant point of view across its full load range. Analyses are done by load-dependent flowsheet simulation. The pulverized lignite combustion power plant process is covered by two generic technical states: an existing 650 MW(el) power plant and a near future 1,100 MW(el) power plant with duo block design and dry lignite co-firing. Modeling comprises both the flue gas path and the water-steam circuit. Appropriate stream interfaces are identified and determined depending on the load status. The technical feasibility of integration can be proven.
Material Processing of Coal.- Reference Case Lignite-Fired Power Plant.- Modeling of the Part Load Behavior.- Syngas-Based Annex Plant.- Coupling of Power Block and Annex Plant.- Evaluation of Preferential Technology Combination.
Clemens Forman worked as a research associate at the Institute of Energy Process Engineering and Chemical Engineering at TU Bergakademie Freiberg in the field of power plant technologies.
Coupling power generation with syngas-based chemical synthesis according to the so-called ‘Polygeneration-Annex’ concept offers economic and technical benefits. Clemens Forman assesses the integration of incoming streams by the Annex plant from a power plant point of view across its full load range. Analyses are done by load-dependent flowsheet simulation. The pulverized lignite combustion power plant process is covered by two generic technical states: an existing 650 MW(el) power plant and a near future 1,100 MW(el) power plant with duo block design and dry lignite co-firing. Modeling comprises both the flue gas path and the water-steam circuit. Appropriate stream interfaces are identified and determined depending on the load status. The technical feasibility of integration can be proven.<p><b>Contents</b><br></p>
<p></p><ul><li>Material Processing of Coal<br></li><li>Reference Case Lignite-Fired Power Plant<br></li><li>Modeling of the Part Load Behavior<br></li><li>Syngas-Based Annex Plant<br></li><li>Coupling of Power Block and Annex Plant<br></li><li>Evaluation of Preferential Technology Combination<br></li></ul><p></p>
<p><b>Target Groups</b><br></p>
<p></p><ul><li>Researchers and students in the fields of power plant and energy technologies as well as process engineering<br></li><li>Power plant, process, and chemical engineers<br></li></ul><p></p>
<p><b>The Author</b><br></p>
<p>Clemens Forman worked as a research associate at the Institute of Energy Process Engineering and Chemical Engineering at TU Bergakademie Freiberg in the field of power plant technologies.</p>
<p></p><ul><li>Material Processing of Coal<br></li><li>Reference Case Lignite-Fired Power Plant<br></li><li>Modeling of the Part Load Behavior<br></li><li>Syngas-Based Annex Plant<br></li><li>Coupling of Power Block and Annex Plant<br></li><li>Evaluation of Preferential Technology Combination<br></li></ul><p></p>
<p><b>Target Groups</b><br></p>
<p></p><ul><li>Researchers and students in the fields of power plant and energy technologies as well as process engineering<br></li><li>Power plant, process, and chemical engineers<br></li></ul><p></p>
<p><b>The Author</b><br></p>
<p>Clemens Forman worked as a research associate at the Institute of Energy Process Engineering and Chemical Engineering at TU Bergakademie Freiberg in the field of power plant technologies.</p>
Publication in the field of technical sciences Includes supplementary material: sn.pub/extras
Publication in the field of technical sciences
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