Textile enterprise air conditioning system control method based on dynamic adjustment algorithm

Abstract

The invention discloses a textile enterprise air conditioning system control method based on a dynamic adjustment algorithm. The method specifically comprises the following steps that 1, workshop temperature and humidity data are collected; 2, taking the humidity as a primary adjustment object, taking the deviation between the acquired humidity data of the textile workshop and the set humidity as an input quantity, and calculating through a dynamic adjustment formula to obtain an output quantity to adjust an operation equipment group a; step 3, selecting a temperature deviation value obtained by mutual coupling of workshop temperature and humidity and a change rate of the deviation as input quantities, performing decoupling compensation, and establishing a fuzzy decoupling compensation control rule table to obtain an output quantity of a fuzzy decoupling compensator; 4, combining the obtained output quantity of the fuzzy decoupling compensator with a dynamic adjustment formula, and calculating the input quantity of the operation equipment group b; and 5, adjusting the operation equipment group b according to the obtained actual control input quantity. The temperature and humidity of the air conditioning system of the textile mill can be accurately adjusted, and the energy consumption of the system is reduced.

Description

technical field [0001] The invention belongs to the technical field of control engineering, and in particular relates to a control method for an air conditioning system of a textile enterprise based on a dynamic adjustment algorithm. Background technique [0002] Textile air-conditioning system is one of the important components of modern textile industry. The environmental factors such as temperature and humidity in the textile production workshop it controls have a decisive impact on the quality and production efficiency of textile products. At present, the temperature and humidity control of textile air-conditioning systems can be divided into two categories: manual control and automatic control. The traditional manual control is essentially performed by workers based on experience, so there are problems such as heavy reliance on skilled workers, insufficient adjustment accuracy, long adjustment process time, and energy waste. In order to make up for various deficiencies...

AI Technical Summary

Problems solved by technology

With the advancement of textile materials and the advancement of green development strategies in recent years, the textile industry has higher and higher requirements for temperature and humidity accuracy and energy consumption ratio, so the complexity of the adjustment process of the air conditioning control system is also getting higher and higher. Object structure and parameter changes are becoming more and more complex, and a single automatic control algorithm is gradually inapplicable in the textile air conditioning control system

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