Intensive solar storage heating and cooling control method and control system
A control system and intensive technology, applied in the direction of ice making, ice making, current collectors, etc., can solve problems such as instability, difficulty in coordination, scattered layout of subsystems, etc., to achieve stable output voltage, accurate output results, and easy operation and management Effect
Active Publication Date: 2015-10-28
CHINA ENERGY ENG GRP GUANGDONG ELECTRIC POWER DESIGN INST CO LTD
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Problems solved by technology
Each subsystem in the traditional optical storage system needs to meet different working environments, and the layout of each subsystem is scattered, difficult to cooperate, with loss of coordination, very inconvenient to debug and maintain, high investment cost and low cost performance
The traditional optical storage system does not adopt any integrated control method. The subsystems of the optical storage system operate independently and are very unstable. When the subsystems cannot communicate with each other, it will bring a lot of inconvenience to the upgrade and maintenance of the system.
Method used
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Embodiment Construction
[0029] Embodiments of the present invention are described in detail below:
[0030] like figure 1 As shown, an intensive light-storage-heat-cooling control system includes a photovoltaic module 10 for converting light energy into electrical energy, an energy storage component, and a boost inverter 20, and the photovoltaic module 10 passes through the boost inverter The inverter 20 is connected to the electric device 40, and the electric device 40 and the photovoltaic module 10 are both connected to the energy storage component. The intensive solar storage, heat and cooling control system of the present invention also includes a controller 200, such as Figure 5 As shown, the controller 200 includes a first acquisition module 210 for acquiring the output voltage signal and output current signal of the photovoltaic module 10, and a first acquisition module 210 for acquiring the output voltage signal and output current signal of the boost inverter 20 The second acquisition modu...
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Disclosed in the utility model is an intensive light-storage thermal and cold control system comprising a photovoltaic assembly for converting the luminous energy into the electric energy, an energy storage component, and a boost inverter. The photovoltaic assembly is connected with electric equipment by the boost inverter; and the electric equipment and the photovoltaic assembly are connected with the energy storage component. The photovoltaic assembly converts the luminous energy into the electric energy; and the electric energy is not only stored by the energy storage battery but also is transmitted to the electric equipment by the boost inverter. When the electric energy generated by the photovoltaic assembly is insufficient, the electric energy stored by the energy storage battery can be provided for the electric equipment for power supplying by the boost inverter. The provided system has the advantages of simple structure, high integration, convenient operation and management, and low cost.
Description
technical field [0001] The present invention relates to a power generation system, in particular to an intensive light-storage heat-cooling control method and a control system. Background technique [0002] The large area of my country has abundant and evenly distributed light sources. Compared with hydropower, wind power, nuclear power, etc., solar power generation has no pollution, no noise, mature application technology, safety and reliability. In addition to large-scale grid-connected power generation and off-grid applications, solar energy can also be stored in various ways such as pumping water, superconducting, storage batteries, and hydrogen production. The use of solar energy can meet my country's demand for energy. [0003] The traditional solar storage system is mainly a micro-grid structure composed of distributed cooling, heating and electricity. Each subsystem in the traditional optical storage system needs to meet different working environments, and the la...
Claims
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IPC IPC(8): H02J7/35H02J3/38F25C1/00
CPCY02A30/60Y02E10/56Y02P60/85
Inventor 谭茂强李鹏飞张旭光张雪焱徐龙博杨生华刘代智裴辉明陈虎
Owner CHINA ENERGY ENG GRP GUANGDONG ELECTRIC POWER DESIGN INST CO LTD