Abstract Development of optimal coal mining and stockpiling strategies for a new 960 MW thermal power station depends strongly on the operation of New Zealand's mixed hydro/thermal power system. To overcome the large dimensionality of the problem the optimization proceeds in two phases for each future scenario studied. Phase 1 finds optimal hydro operating strategies with thermal generation in merit order of marginal fuel costs. It uses stochastic dynamic programming. The hydro generating strategies are used as input to the phase 2 stochastic simulation of the coal mining and stockpiling operation at the new thermal station. Finally, a strategy is identified which is a priori best over all future scenarios of industrial development and oil prices studied.
[1]
John D. C. Little,et al.
The Use of Storage Water in a Hydroelectric System
,
1955,
Oper. Res..
[2]
R. R. Booth,et al.
Power System Simulation Model Based on Probability Analysis
,
1972
.
[3]
R. Turvey,et al.
Electricity Economics: Essays and Case Studies
,
1977
.
[4]
J. Lindqvist,et al.
Operation of a Hydrothermal Electric System: A Multistage Decision Process
,
1962,
Transactions of the American Institute of Electrical Engineers. Part III: Power Apparatus and Systems.
[5]
Jakob Rosing,et al.
Composite Representation of a Multireservoir Hydroelectric Power System
,
1970
.