Coursecode:
wbtp202d2
Coursename: Project Heat Pump Boiler
DUT creditpoints: 2.5
ECTS creditpoints: 5 |
Faculty
of Mechanical Engineering and Marine Technology |
Lecturer(s): Infante Ferreira, dr. ir. C. A.,
Haan, ir. A. de and Haasnoot, drs. M. |
Tel.: 015-2784894 |
Catalog data:
Thermodynamic cycles. Cycle analysis based on entropy production and exergy losses. Heat
transfer and pressure drop in heat exchangers used in thermodynamic cycles. Experimental
techniques. Sustainability, economy and energy aspects in design. Application example:
design of a heat pump for tap water heating. |
Course year: 2
Period: 0/0/0/0/0
Hours p/w: 16 2/3
Other hours:
Assessment: report
Assessm.period(s):
(see academic calendar) |
Prerequisites:
wb1123, wb1220, wb1224, wb2103, wb2206 |
Follow
up: wb4301A, wb4407, wb4410A
e.a. |
Detailed description of topics:
- Thermodynamic cycles:
Performance and performance presentation. Cycle analysis based on entropy production and
exergy losses. Quantification of parameter effects on performance. Processes in
thermodynamic cycles in state diagrams. Sizing of pumps and compressors. Control
strategies.
- Momentum and heat transfer: Heat
transfer and pressure drop in heat exchangers used in thermodynamic cycles. Heat exchanger
sizing.
- Experimental techniques:
Measurements of temperature, pressure and flow in thermodynamic cycles.
Theory/experimental data comparison.
- Design aspects: Program of
requirements. Exploitation versus investment costs. Sustainability, economy and energy
aspects in design. Emissions related to heating systems. Laws, norms and evaluation of
(sustainability) criteria. Non-sustainable use of resources. Impact of design choices on
environment. Application example: design of a heat pump for tap water heating.
|
Course material:
- Boer, P. de, M. P. Brouwers
and W. Koetzier, "Basisboek Bedrijfseconomie", 5de druk, Wolters
Noordhoff, 1998
- Holman, J. P., "Heat
Transfer", 8th Ed., McGraw-Hill, 1997.
- Infante Ferreira, C. A.,
"Compressiewarmtepompen", syllabus wbpt202, Faculteit WbMT, TUD, 1998
- Moran, M. J. and H. N. Shapiro,
"Fundamentals of Engineering Thermodynamics", 3rd SI Ed., Wiley,
1998.
- Touber, S., "Thermische
machines -een compressie warmtepomp", collegedictaat, Faculteit WbMT, TUD, 1996.
|
References
from literature: Brodowicz, K. en T. Dyakowski, "Heat pumps", Butterworth-Heinemann Ltd,
Oxford, 1993.
Alefeld, G. and R. Radermacher, "Heat conversion systems", CRC Press, 1993
|
Remarks
(specific information about assesment, entry requirements, etc.): |
Goals:
The purpose of this project is:
- to apply to a real machine (tap
water heat pump boiler) part of the theory provided to the students in the courses
"thermodynamics and fluid mechanics" (wb1123), fluid mechanics (wb1120) and
"thermodynamics" (wb1224).
- to apply, for design purposes, the
entropy-production and the exergy loss concepts for the quantification of the contribution
of the different heat pump components to the irreversibility of the complete system.
- To develop skills and knowledge of
sustainable development in relation to thermodynamic cycles.
|
Computer
use:
Computers are used throughout the project: for information search (program of
requirements); during design steps; for thermodynamic data calculation; for experimental
data acquisition and processing; for reporting. |
Laboratory
project(s):
Experimental work with compression heat pump boiler
installations. Collection of experimental cycle performance data. |
Design
content:
The project has a design character. At the end of the project a tap water heat pump
boiler has been roughly designed. The evaluation of the project is based on the design
steps followed and not on the resulting design. The advantages of the application of
second law analysis during the design of thermodynamic cycles such as heat pumps follow
from the design procedure. |
Percentage
of design: 80% |