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In the field of textile industry, textile industrial air conditioning as an indispensable infrastructure in the production process, its energy consumption costs often occupy an important part of the enterprise operating expenses. How to scientifically identify and effectively reduce energy consumption has become the focus of the industry. This paper will analyze the core factors leading to high energy consumption of textile air conditioning from the technical point of view, and provide targeted optimization ideas.
First, equipment selection and system matching degree
The precise control of temperature and humidity in the textile workshop requires the dynamic adjustment ability of the air conditioning system. In order to pursue initial investment costs, some enterprises choose equipment models that do not match the workshop area and process requirements, resulting in long-term overload operation of the unit. According to industry data, 15% deviation in equipment selection will directly lead to an 8-12% increase in energy consumption. It is suggested that professional load calculation and modular combination design should be adopted to ensure the dynamic match between the system and the actual demand.
Second, the intelligent level of operation management
The traditional manual control mode is difficult to cope with the real-time changes of temperature and humidity in the workshop. A large textile enterprise research found that under the manual control mode, the energy consumption of the air conditioning system can fluctuate by 20-30%. The intelligent control system collects data in real time through iot sensors and automatically optimizes operating parameters combined with AI algorithms, which can achieve energy savings of 15-25%. It is recommended to introduce adaptive control technology and establish device health records to realize preventive maintenance.
Third, air flow organization and heat recovery efficiency
The unreasonable layout of the workshop leads to the widespread occurrence of air short circuit. A weaving workshop renovation case shows that after optimizing the design of the return air pipeline, the workshop temperature uniformity is increased by 30% and the energy consumption is reduced by 18%. In addition, the insufficient application of heat recovery technology is also an important reason for the high energy consumption. The rotary heat recovery device can recover 70% of the energy of the exhaust wind, and with the waste heat utilization system, the comprehensive energy-saving effect is remarkable.
Four, maintenance cycle and technical standards
Equipment dust resulting in reduced heat transfer efficiency is a common problem. Test data show that when the dust accumulation thickness of the fin reaches 0.5mm, the heat transfer efficiency is reduced by 15%. It is suggested to establish a standardized maintenance process, and use robot cleaning technology to clean heat exchangers and filters regularly. At the same time, refrigerant leak detection should be included in daily inspection, and less than 10% of the system refrigerant can lead to a 5-8% increase in energy consumption.
Energy structure and regional climate adaptability
The climate characteristics of different regions have significant influence on the energy efficiency of air conditioning systems. In winter, the northern region should focus on the application of heat pump technology, and the southern humid thermal environment should strengthen the dehumidification system design. A company through climate compensation technology, combined with local meteorological data to dynamically adjust the operation strategy, the annual comprehensive energy saving rate of 22%.
In terms of energy-saving technology innovation, innovative solutions such as magnetic levitation frequency conversion technology, evaporative cooling and mechanical refrigeration coupling system have achieved good application results in the industry. It is suggested that enterprises establish an energy consumption monitoring platform, accurately locate energy consumption bottlenecks through big data analysis, and implement technological transformation in stages.
As a technical service provider in the field of textile air conditioning for more than ten years, we are always committed to providing customers with customized energy saving solutions. Through the system energy efficiency assessment, intelligent control upgrade, waste heat recovery and other professional services, has successfully helped hundreds of textile enterprises to achieve more than 30% of the comprehensive energy saving target. For free energy efficiency diagnostics, please contact our technical team.
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Jiangsu Jincheng Air Conditioning Engineering Co., Ltd. is a comprehensive manufacturer of special air-conditioning equipment design, production, installation, and commissioning of clean room, electricity, tobacco, civil air defense engineering, medical clean room, clean room, electricity, tobacco, civil air defense engineering, medical clean room. Mainly produce JCZK combined air conditioning unit, cooling tower, glass steel ventilated galvanized sheet pipe, stainless steel pipe, polyurethane ventilation pipe and air conditioning accessories, Jincheng air conditioner is wide, the type, the unique model, superior performance, and user Favused.
