Method of acquiring available transfer capacity of electricity-gas interconnected energy system

An energy system and power transmission capability technology, applied in electrical components, circuit devices, AC network circuits, etc., can solve the problems of not considering the operation constraints of the primary energy system-natural gas system, affecting the primary energy supply of NGFPP, etc.

Active Publication Date: 2015-06-24
HOHAI UNIV
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  • Abstract
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Problems solved by technology

It is worth noting that the existing ATC acquisition method only takes into account the security constraints of the power system, and does not consider the operational constraints of the primary energy system-natural gas system
Especially when the proportion of NGFPP power generation is large, the large increase of NGFPP output power may force the operating state of the natural gas system to exceed the safety constraints (such as node pressure limit, pipeline flow limit), thus affecting the primary energy supply of NGFPP

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  • Method of acquiring available transfer capacity of electricity-gas interconnected energy system
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  • Method of acquiring available transfer capacity of electricity-gas interconnected energy system

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Embodiment Construction

[0062] Below in conjunction with embodiment the present invention will be further described.

[0063] Such as figure 1 As shown, the method for obtaining the available transmission capacity of the electric-gas interconnected energy system of the present invention includes the following steps: Step 1: Steady-state modeling of the natural gas system

[0064] Natural gas systems have certain similarities to electric systems:

[0065] 1) The energy is transported by the supplier over a long distance (power transmission, gas transmission), and finally distributed (power distribution, gas distribution) to the energy consumer;

[0066] 2) The direction of energy transmission, that is, the direction in which the state quantity (voltage or pressure) of the node decreases;

[0067] 3) The higher the voltage (pressure) level of the power transmission (gas) line (pipeline), the greater the capacity that can be transported;

[0068] 4) The inflow and outflow energy of each node in the n...

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Abstract

The invention discloses a method of acquiring available transfer capacity of an electricity-gas interconnected energy system and provides a concept of a static safety domain of the electricity-gas interconnected energy system. By means of solution by the continuous power flow method, solved is the problem that the traditional method of acquiring available transfer capacity, making no consideration on primary energy supply of NGFPP (natural-gas fired power plants) and operation constraints of a natural gas system, may drive the operation state of the natural gas system to exceed the safety constraint, thus influencing primary energy supply of the NGFPP. Verification by the interconnected energy system composed of an IEEE 39-node power transfer system and a 20-node Belgium gas transfer system shows that the method is generally applicable, ensuring safety and reliability of primary energy supply of the NGFPP; meanwhile, ATCs (available transfer capacities) of different areas are analyzed with a uniform energy market, and greater economic benefit is brought to participants of the whole energy market at the premise of ensuring the safety of the interconnected energy system.

Description

technical field [0001] The invention relates to a method for obtaining the available power transmission capacity of an electric-gas interconnected energy system, and belongs to the technical fields of analysis, optimization and marketing of the electric-gas interconnected energy system. Background technique [0002] Traditional generator sets that use non-renewable fossil fuels as primary energy cause serious environmental pollution and are difficult to adapt to the development needs of modern smart grids and low-carbon societies. In contrast, natural gas reserves are abundant, and natural-gas fired power plants (NGFPP) with natural gas as primary energy have the following advantages: 1) high power generation efficiency; 2) small carbon emissions; 3) action response block. Therefore, the proportion of NGFPP power generation has increased significantly in recent years, and the coupling between the power system and the natural gas system has continued to increase. At the same...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H02J3/00
CPCH02J3/003H02J3/38
Inventor 陈胜卫志农孙国强孙永辉臧海祥朱瑛陈霜
Owner HOHAI UNIV
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