Clean heating all-weather analog simulation system and method

Abstract

The invention discloses a clean heating all-weather analog simulation system and method; the system comprises an analog simulation subsystem which is used for simulating a plurality of working environments and a plurality of clean heating modes of clean heating; a test transmission subsystem, which is used for collecting and testing environmental parameters of various working environments and working parameters of various clean heating modes, and transmitting test data; an evaluation control subsystem, which is used for summarizing and analyzing test data, performing technical evaluation on multiple clean heating modes and performing intelligent control on analog simulation of multiple working environments and multiple clean heating modes; an energy adjusting subsystem, which is used for simulating energy supply of the simulation system and automatically adjusting the energy supply state and efficiency of the system according to the intelligent control signal instruction of the evaluation control subsystem. According to the clean heating all-weather analog simulation method, the working environment and the heating state are automatically adjusted, a scheme for improving the energy utilization efficiency is obtained through experiments, and the comfortable and energy-saving heating effect is achieved.

Description

technical field [0001] The invention relates to the field of clean heating simulation, more specifically, the invention relates to a clean heating all-weather simulation system and method. Background technique [0002] At present, there are still some prominent problems in China's heating technology: first, the proportion of total energy consumption is high; building heating and air conditioning energy consumption accounts for 36% of building energy consumption, which is the largest component of building energy consumption; second, high emissions: equivalent The pollution emission index heating accounts for 55%; the third is the high energy consumption per unit area: the heating energy consumption per unit building area in cities and towns is 2-3 times that of countries at the same latitude; Accelerate the increase in the proportion of clean heating; with the continuous increase in heat energy demand, the heating industry has also entered a stage of rapid development; social...

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Problems solved by technology

[0002] At present, there are still some prominent problems in China's heating technology: first, the proportion of total energy consumption is high; building heating and air conditioning energy consumption accounts for 36% of building energy consumption, which is the largest component of building energy consumption; second, high emissions: equivalent The pollution emission index heating accounts for 55%; the third is the high energy consumption per unit area: the heating energy consumption per unit building area in cities and towns is 2-3 times that of countries at the same latitude; Accelerate the increase in the proportion of clean heating; with the continuous increase in heat energy demand, the heating industry has also entered a stage of rapid development; social and economic development and the improvement of people's quality of life, the people put forward five constant requirements for the indoor environment of buildings Higher requirements, namely constant temperature, constant humidity, constant oxygen, constant static, constant cleanliness, the existing heating and experimental systems have been difficult to adapt to the technical characteristics of artificial intelligence, distributed heating, clean energy and other technical features of the heating 4.0 era, The improvement and improvement of the clean heating experimental system has more urgent technical requirements; therefore, it is necessary to propose a clean heating all-weather simulation system and method to at least partially solve the problems existing in the prior art

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