last modified 26/06/2002
Coursecode: wb4302 |
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Coursename:
Thermodynamics of energy conversion |
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DUT creditpoints: 3 |
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ECTS creditpoints: 4,5 |
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Faculty of Mechanical
Engineering and Marine Technology |
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Lecturer(s): Woudstra, ir N. |
Tel.: 015-278 21 78 |
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Catalog data: thermodynamics, energy conversion, exergy analysis,
chemical exergy, exergy efficiency, value diagram, fuel combustion, heat
exchange, turbine, compressor, conventional power station, gas turbine
processes, combined cycle systems, combined heat and power, fuel cell systems,
refrigerators, heat pumps, absorption cycles |
Course year: |
MSc 1st year |
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Period: |
1A |
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Hours per week: |
4 |
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Other hours: |
- |
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Assessment: |
written |
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Assessm.period: |
1, 2 |
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(see academic calendar) |
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Detailed description of topics: ·
Short recapitulation
of the fundamentals of engineering thermodynamics: first law, energy balance
of closed and open systems, second law, entropy and irreversibility. ·
Specific thermodynamic
properties of fluids: properties of water and steam, properties of ideal gas. ·
Extended definition of
exergy and environment. Chemical exergy. Exergy of fuels. Exergy
efficiencies. ·
Value diagrams.
Application for heat exchanging equipment and combustion processes. ·
Exergy losses of basic
processes: fuel conversion, heat transfer, turbines, compressors. ·
Exergy analysis and
optimisation of conventional power stations (boiler/steam cycle): boiler: air preheating, steam conditions, feedwater
temperature; steam cycle: selection of working fluid, friction
losses in boilers, losses in condensor and piping, feedwater pump, extraction
feed water heating. ·
Gas turbine processes,
losses and optimization: closed cycle GT process: pressure ratio, turbine
inlet temperature, cycle configuration (intercooling, recuperation, reheat); open cycle GT process: cycle configuration, value
diagram; combined cycle systems: exergy losses HRSG, multiple
pressure steam cycles, supplementary firing; ·
Combined heat and
power production (CHP): thermodynamic principle of CHP, evaluation criteria,
applications, power to heat matrix. ·
Fuel cells:
calculation of reversible power and reversible cell voltage, effect of
irreversibilities on cell performance, Nernst equation and some characteristics
of SPFC (PEMFC), MCFC and SOFC, exergy losses in fuel cell systems. ·
Refrigeration cycles
and heat pumps: properties of working fluids, processes with mixtures,
absorption processes, water/lithium bromide systems, ammonia/water systems. |
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Course material: ·
Thermodynamica voor
energiesystemen. J.J.C. van Lier, N. Woudstra. (Delft University Press, ISBN
90-407-2037-1) ·
Absorption chillers
and heat pumps. K.E. Herold, R. Radermacher, S.A. Klein. (CRC Press, ISBN
0-8493-9427-9) |
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References from literature: · Thermodynamik. Eine Einführung in die Grundlagen und ihre technische Anwendungen. Baehr, H.D.. ISBN 3-540-08963-2 · Thermodynamik. Grundlagen und technische Anwendungen. Einstoffsysteme. Stephan, K., Mayinger, F.. ISBN 3-540-15751-4 ·
Technische Thermodynamik. Mehrstoffsysteme und chemische
Reaktionen. Schmidt, E.. ISBN
3-540-07978-5 ·
Fundamentals of Engineering
Thermodynamics. Moran, M.J., Shapiro, H.N.. John
Wiley & Sons, ISBN 0 471 97960 0 ·
Chemical Engineering
Thermodynamics. Smith, J.M., Van Ness, H.C., Abbott, M.M.. ISBN 0-07-118957-2 ·
Combined-Cycle Gas & Steam
Turbine Power Plants. Kehlhofer, R..ISBN 0-88173-076-9 |
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Remarks (specific information about assesment, entry
requirements, etc.): |
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Learning goals: the course provides
the student the theoretical basis and tools for the thermodynamic evaluation
of state of the art and future energy conversion systems in order to: ·
perform thermodynamic
(exergy) analyses of energy conversion systems ·
take decisions with
regard to the design, optimization and operation of energy conversion systems |
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Computer use: |
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Laboratory project(s): |
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Design content: design and optimization of system components and
system lay-out |
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Percentage of design: 50 % |
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