Adaptive wind-air-light-heat energy optimization system and control method
An energy optimization and self-adaptive technology, applied in solar heating systems, residential hot water supply systems, heating methods, etc., can solve problems such as poor adaptability, unreasonable comprehensive energy utilization, and unsatisfactory energy-saving effects, and achieve building conservation Space, solving building energy supply problems, systems and technologies using a wide range of effects
Active Publication Date: 2016-08-31
NORTHEASTERN UNIV
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[0010] In view of the above shortcomings, the present invention provides an energy optimization system that integrates multiple renewable energy sources, organically combines wind power generation, solar photovoltaic power generation, solar collectors, and air s
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[0074] Embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings.
[0075] Such as figure 1 Schematic diagram of the energy flow of the adaptive air-photothermal energy optimization system shown. Based on the flow direction of energy, the present invention integrates the respective advantages of photothermal, photoelectric and other renewable energy sources, so that the system can maximize energy efficiency. The present invention can be divided into three layers, the first layer is the basic energy layer, the second layer is the energy conversion layer, and the third layer is the energy flow layer. The basic energy layer is composed of renewable energy such as wind energy, photovoltaic, photothermal and air thermal energy. The energy conversion layer is composed of wind turbines, photovoltaic generators, solar collectors, and air source heat pumps. Electricity system, heating system, hot water system, power storage s...
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The invention relates to an adaptive wind-air-light-heat energy optimization system and control method, and belongs to the field of building energy supply. The invention mainly aims at solving problems that the conventional energy-saving technology is not ideal and is not good in adaptability. The system comprises a wind power generator set, a photovoltaic power generator set, an electric heating water storage and energy storage device, a solar energy collector, an air source heat pump set, a control system, an energy acceptor system, and a building power supply system. The control method carries out the adjustment of indoor temperature, power generation and heat storage. The adjustment of indoor temperature is carried out through collecting the indoor and outdoor temperatures and judging the starting of a heat supply system or a cooling system; The adjustment of a power generation system is carried out through the following steps: collecting the weather condition of a geographic position where a building is located, judging the user type of the building, judging whether time is a peak moment or not, and carrying out power storage or power supply. The adjustment of a heat storage system is carried out through the following steps: collecting the pressure value and temperature value of the heat storage system, comparing the pressure value and the temperature value with set values, and controlling the starting of the heat storage system, the air source heat pump set, or the hot water system according to a comparison result.
Description
technical field [0001] The invention relates to the field of building energy supply, in particular to an intelligent energy supply system that optimizes the combination of multiple renewable energy sources. Background technique [0002] At present, the total energy consumption of buildings in my country is increasing year by year, and its proportion in the total energy consumption has risen from 10% in the late 1970s to 27.45%, gradually approaching 30%. Energy consumption generally accounts for about 33% of the country's total energy consumption. Research by the Science and Technology Department of the Ministry of Construction shows that with the acceleration of urbanization and the improvement of people's quality of life, the proportion of my country's building energy consumption will eventually rise to about 35%. With such a large proportion, building energy consumption has become the weakness of my country's economic development. [0003] Until the end of 2002, my count...
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Login to view more IPC IPC(8): H02J7/35F24H4/02F24J2/00F24D17/00
CPCF24D17/00F24H4/02F24S21/00H02J7/35Y02B10/10Y02B10/20Y02B10/70Y02E10/40Y02E10/56Y02E10/76
Inventor 杨东升张化光付国庆王迎春会国涛梁雪杨珺孔亮
Owner NORTHEASTERN UNIV
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