Optimal scheduling method for power-gas interconnection integrated energy system including p2g abandoned wind start-stop
A technology that integrates energy systems and optimizes scheduling. It is applied in electrical components, information technology support systems, and resources. It can solve the problems of increasing total carbon emissions and no actual benefits, and achieve the effect of low carbon emissions and low operating costs.
Active Publication Date: 2022-02-01
CHINA THREE GORGES UNIV
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This causes P2G to operate as a load when there is no abandoned wind in the system to reduce the total cost of the system. However, because the abandoned wind has been completely absorbed, P2G has no practical effect at this time. When P2G operates as a load, the input power It will all come from the output of the gas turbine, and this part of the extra output has no actual benefits. Although the total cost of the system is reduced at this time, the total carbon emissions increase
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[0202] (1) Example structure:
[0203] The calculation examples adopted by the present invention are IEEE 6-node power system and 7-node natural gas system, as shown in Fig. 2(1) and Fig. 2(2). Among them, the 1st, 3rd, and 5th generators are coal-fired thermal power units, and the 2nd and 4th generators are gas turbines, which are respectively connected to the 1st and 3rd nodes of the natural gas system. The cost coefficient of gas sources W1 and W2 is 2$ / kcf, the cost coefficient of P2G is 20$ / (MW·h), and the use cost of gas storage equipment is 1$ / kcf. image 3 It is the curve of electricity load, wind power available output, and gas load within a day, and Table 1 is the main equipment parameter table.
[0204] Table 1 Main Equipment Parameters
[0205]
[0206] (2) Scenario description:
[0207] Scenario 1: The system does not consider the P2G curtailment start-stop function, only considers the P2G, and optimizes the objective function of the scheduling model to comp...
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An optimal scheduling method for an electricity-gas interconnection integrated energy system including P2G wind curtailment start-stop, comprising constructing an optimal dispatch model, the objective function of which includes a unit operating cost minimum function, a wind curtailment penalty function, and a carbon emission right function. Constraints for constructing optimal dispatch models, including power network constraints and natural gas network constraints, power network constraints include electric power balance constraints, generator set power constraints, P2G power constraints, node voltage constraints, balanced node phase angle constraints, and line power constraints; natural gas network constraints Constraints include gas source point constraints, pipeline flow constraints, pipe storage constraints, gas storage tank capacity constraints, compressor flow constraints, and node energy balance. P2G wind curtailment start-stop constraint: During the operation of the system, the input power of the P2G equipment is all derived from the power of the curtailed wind; when the system has no curtailed wind, the P2G equipment is in a closed state. The method of the invention can effectively reduce the carbon emission and the operating cost of the unit; meanwhile, the established model has more practical benefits.
Description
technical field [0001] The invention relates to the technical field of optimal scheduling of integrated energy systems, in particular to a method for optimal scheduling of electric-gas interconnected integrated energy systems including start-stop of P2G abandoned wind. Background technique [0002] The schematic diagram of the electricity-gas interconnection comprehensive energy system including P2G is as follows: figure 1 As shown, P2G and gas turbines bidirectionally connect the power network and the natural gas network, and the cooperation of the two can reduce the net load of the system while absorbing the curtailed wind. In addition, the electricity-gas interconnection integrated energy system will also reduce carbon emissions. As a clean energy source, natural gas can reduce carbon dioxide emissions by 60% and nitrogen oxide emissions by 50%, improving environmental quality. Gas turbines can replace part of thermal power units to reduce carbon dioxide emissions on the...
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IPC IPC(8): H02J3/00H02J3/46H02J3/38G06N3/00G06Q10/06G06Q30/02G06Q50/06
CPCH02J3/008H02J3/466H02J3/381G06Q10/0631G06Q10/067G06Q50/06G06Q30/0206G06N3/006H02J2203/20H02J2300/40Y04S10/50
Inventor 粟世玮赵一鸣
Owner CHINA THREE GORGES UNIV
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