Coursecode: wbtp202 d2a
Coursename: project diesel engine
DUT creditpoints: 2,5
ECTS creditpoints: 4 |
| Faculty Design,
Engineering and Production |
| Lecturer(s): Klein Woud, prof. ir. J. |
Tel.: +31 15 278 1556 |
Catalog data:
- thermodynamic cycles
- design of combined heat/electricity generation plant
- modelling of and measurements on a diesel engine
|
Course year: 2
Period:
Hours p/w:
Other hours: 100
Assessment: report
Assessm.period(s):
(see calendar) |
| Prerequisites:
wb1123 |
| Follow up: wb1224 |
| Detailed
description of topics: Project task will be worked out by a group of 4 students.
Thermodynamic cycles for power generation and refrigeration/heatpumps
- process diagrams and p,V-, T,s-, h,s-, p,h- diagrams
- energy flows, efficiency, coefficient of performance
- comparison theoretical and actual process
Design of combined heat/electricity generation plant:
- calculation of heat and electricity needs
- evaluation of different options to meet demands on basis of economic and ecological
criteria
- engineering: determination of type and dimensioning of equipment, process and
instrumentation diagrams, control, economic analysis, emissions.
Modelling of and measurements on a diesel engine:
- modelling of diesel engine as a Seiliger cycle, energy flows, theoretical and actual
efficiency
- determination of instrumentation
- measurement of heat balance, efficiency, fuel and air consumption and emissions for
different types of engine loading e.g. according propeller law or constant speed operation
|
| Course material:
Fundamentals of engineering thermodynamics. Moran, M.J. , Shapiro, H.N.
Heat transfer. Holman, J.P.
|
| References from
literature: in project task description. |
Remarks (specific
information about assesment, entry requirements, etc.):
For all 3 parts a report has to be provided. The reports are evaluated by the lecturer
and will be discussed with the project group. |
| Goals:
ability to apply theory of thermodynamics, fluid mechanics, heat transfer and control
engineering
ability to design durable systems from an environmental viewpoint
|
| Computer use:
a.o. reporting, information acquisition through the www
data acquisition, data manipulation
|
| Laboratory
project(s): measurements on a diesel engine |
| Design content: design
of a combined heat/electricity generation plant |
| Percentage of
design: 60 % |