JP7182808B2 - Microgrid Dispatch Method Including Distributed Generation Based on Smart Gateways - Google Patents

Description

TECHNICAL FIELD The present invention relates to the technical field of microgrids, and more particularly to a dispatch method for microgrids including distributed power sources based on smart gateways.

The traditional energy structure has brought serious pressure on the ecological environment, people need to reconsider the problem of the energy supply structure, and the willingness to develop and use pollution-free distributed renewable green energy is unprecedented. getting stronger. Development and utilization of renewable energy is one of the effective measures to solve global energy and environmental problems. In recent years, with the rapid construction of wind farms and photovoltaic power plants, a large amount of distributed power sources have been introduced and operated, so the penetration rate of renewable energy in the distribution grid has increased rapidly, problems such as reverse power flow and local overvoltage, affecting the safety of power supply. In order to deal with the problems that high-density distributed generation will bring to the development of future power grids, it is necessary to explore and research more effective information introduction and local control technology for distributed generation. Local intelligent control improves the overall utilization efficiency of distributed renewable energy and the safety of the grid.

Chinese patent CN108494022A, published on Sep. 4, 2018, incorporates a peer-to-peer frequency control method into the traditional economical dispatch method to solve the power balance requirement in case of output fluctuation or load fluctuation of distributed power sources. A precise dispatch control method based on distributed generation in a microgrid is described, which satisfies In such a control method, the active and reactive power required by the load and the active and reactive power released by the generator are in balance, compared to the regular economical dispatch method of conventional centralized power systems. By comparison, it can ensure that microgrids achieve high-precision control of economic dispatch in different driving scenarios. However, this method adopts a method of balancing the active and reactive power required by the load and the active and reactive power emitted by the generator, and there are large amounts of renewable energy power plants in the microgrid. If so, the conventional generator will operate in an inappropriate power factor range, resulting in reduced efficiency and may also affect the normal operation of the conventional generator.

The technical problem to be solved by the present invention is that the energy utilization efficiency of current microgrids including distributed power sources is low. The present invention provides a dispatch method for microgrids including distributed power sources based on smart gateways, which can improve energy utilization efficiency.

The substantial effect of the present invention is that it is suitable for dispatching microgrids with renewable energy with a high penetration rate, is easy to install and expand, is suitable for the introduction of distributed power sources, and is suitable for the introduction of renewable energy. The purpose is to reduce the cost of newly increased conventional energy to adapt to the future, improve the reliability and safety of microgrid operation, and improve the overall energy utilization efficiency of the microgrid.

4 is a flow chart of a microgrid dispatching method of Example 1. FIG. 1 is a flow chart of a method for allocating power in a solar/wind power plant according to Embodiment 1; 4 is a flow chart of a local power control method for a smart gateway of Embodiment 1; 1 is a schematic diagram of a configuration of a smart gateway of Embodiment 1; FIG.

100 communication module, 200 monitoring module, 300 control module, 400 phase monitoring module, 500 frequency monitoring module.

Specific embodiments of the present invention will now be described in more detail by way of specific examples and with reference to the drawings.

Example 1:
The invention according to this embodiment is a micro-grid dispatching method including smart gateway-based distributed power generation, where the distributed power generation includes energy storage and solar and wind farms. As shown in FIG. 1, this embodiment includes the following steps A) to D).

This embodiment uses the monitoring module 200, the phase monitoring module 400 and the frequency monitoring module 500 to complete the installation and dispatch tasks by simply acquiring the corresponding status data of the node, which facilitates installation and expansion and distributed It is suitable for introducing a type power supply. When the proportion of reactive power in the distribution network is relatively large, dispatching the distributed generation to output some reactive power will reduce some profits, but will effectively reduce the working power factor of the transformer. A renewable energy microgrid with a high penetration rate, which can significantly reduce the cost of conventional energy, which has been newly increased to improve the stability of the microgrid and adapt to the introduction of renewable energy. suitable for dispatching

The above embodiments are only preferred aspects of the present invention, and do not limit the present invention in any way, and other variations and modifications exist without departing from the technical solutions described in the claims. is doing.

Claims (7)

A method of dispatching a microgrid comprising distributed power generation based on smart gateways, said distributed power generation comprising energy storage and solar and wind farms, the method comprising:

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