DocumentCode :
1409245
Title :
Dynamic-programming approach to the selection and timing of generation-plant additions
Author :
Dale, K.M.
Author_Institution :
Westinghouse Electric Corporation, Pittsburgh, USA
Volume :
113
Issue :
5
fYear :
1966
fDate :
5/1/1966 12:00:00 AM
Firstpage :
803
Lastpage :
811
Abstract :
Many basically different types of generating units, such as nuclear, hydroelectric, steam- and gas-turbine units, could be added to a generating system to meet constantly growing installed-capacity requirements. Since each of these types may also vary considerably in capital cost, size, efficiency, fuel and site location, there are a very large number of possible choices each time a new generating unit is needed. Moreover, once a unit is purchased, its known capital fixed charges continue for the life of the plant, while its fuel and operating costs will initially depend on the composition and characteristics of the system prior to the installation of the new unit, later depending also on the relative efficiencies of units added subsequently, since these will directly affect the future power and energy supplied by the new unit to the system. In order to evaluate the economic merits of a particular type and size of unit to be added to a particular system, it is therefore necessary to determine the total costs associated with this choice over the projected life of the unit, in conjunction with each of the many thousands of combinations of future units that might be added during this lifetime period to be studied. At any stage in the process of making these decisions, the correct choice cannot be made without considering all possible decisions that might have been made during earlier stages and that might be made in future stages. The paper describes a dynamic-programming application to this particular problem, which, by eliminating many alternatives during each stage or year of a long-range study period, reduces the number of possible choices to proportions that can be handled and evaluated by a medium-sized digital computer, when using relatively simple reserve-capacity-requirement and production-cost logic, but which can become an exceptionally accurate tool in system-planning studies when programmed for use on a large computer.
Keywords :
computer applications; data handling; power station auxiliaries; power stations;
fLanguage :
English
Journal_Title :
Electrical Engineers, Proceedings of the Institution of
Publisher :
iet
ISSN :
0020-3270
Type :
jour
DOI :
10.1049/piee.1966.0134
Filename :
5247259
Link To Document :
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