i.Introduction.
a.Introduce the importance and necessity of the purification problem of lithium battery workshop.
The purification of lithium battery workshop is a key link to ensure the safety of the production environment, product quality and the health of employees. With the rapid development of the lithium battery industry, there may be many harmful gases and dusts in the workshop, which poses a potential threat to product quality and employee health.
b.The impact of lithium battery workshop purification engineering on production efficiency, product quality and employee health is described.
The design and operation management of the purification project of the lithium battery workshop are directly related to production efficiency, product quality and employee health. Through the effective implementation of purification engineering, production efficiency can be improved, product defect rate can be reduced, and employees can be protected from harmful gases and dust, and the quality of the working environment and physical health of employees can be improved.
ii.Design phase.
a.Purification needs are determined based on the size and process flow of the workshop.
According to the scale and process flow of the lithium battery workshop, the capacity and purification efficiency requirements of the purification equipment need to be determined by comprehensively considering the types and quantities of harmful gases and dust generated in the production process.
b.Determine the level of purification and related standards, such as national and regional environmental protection requirements.
According to the relevant national and regional environmental protection regulations and standards, determine the level and requirements of lithium battery workshop purification to ensure that environmental protection requirements are met, and ensure the stability of air quality in the workshop.
c.Properly designed ventilation and air conditioning systems to ensure air quality and temperature and humidity control.
According to the actual situation of the workshop, a reasonable ventilation system and air conditioning system are designed to ensure that the indoor air flows smoothly and maintains a constant temperature and humidity to provide a comfortable working environment and air quality that meets the requirements of product production.
d.Choose the right filtration equipment and materials, such as high-efficiency filters, activated carbon adsorption devices, etc.
Depending on the type and concentration of hazardous substances in the workshop, appropriate filtration equipment and materials are selected, such as high-efficiency filters for the removal of dust particles, and activated carbon adsorption devices for the removal of harmful gases.
e.Arrange a reasonable workshop layout, so that the purification equipment and production equipment are coordinated with each other.
In the layout of the workshop, the location of the purification equipment and production equipment should be reasonably arranged to ensure that they are coordinated with each other and reduce the impact on the production process.
iii.Construction phase.
a.Carry out engineering modifications, including the construction of the separation wall, the installation of ventilation ducts and air-conditioning equipment, etc.
According to the purification engineering design plan, the engineering transformation is carried out, including the construction of separation walls, the installation of ventilation ducts and air conditioning equipment, etc., and the workshop is divided into different functional areas to ensure the normal operation of the purification equipment and avoid the spread of harmful substances.
b.Install filtration equipment and materials to ensure their proper operation and maintenance.
According to the design requirements, install the selected filtration equipment and materials, and check and maintain them in strict accordance with the operation and maintenance manual to ensure the normal operation of the equipment and the stability of the filtration effect.
c.Air flow tests and adjustments are performed to meet purification requirements.
After the installation, an air flow test is carried out, which is adjusted and optimized based on the test results to ensure that the air quality in the workshop can meet the purification requirements.
d.Do a good job in safety measures, such as fire prevention, explosion prevention, etc., to ensure the safety of the workshop purification project.
In the process of purification project construction, it is necessary to operate in strict accordance with the relevant safety specifications, install fire prevention, explosion-proof and other safety facilities to ensure the safety of the workshop purification project.
iv.Operations management phase.
a.Establish standard operating procedures for purification projects, and clarify responsibilities and requirements.
Formulate standard operating procedures for purification projects, clarify the responsibilities and requirements of all relevant personnel, and provide specifications and guidance for the operation and management of purification projects.
b.Conduct regular equipment maintenance and inspections to ensure its proper operation and effective purification.
Establish a plan for equipment maintenance and inspection, and implement it regularly to ensure the normal operation of the purification equipment, prevent problems before they occur, and ensure the continuity and stability of the purification effect.
c.Monitor and record the air quality and purification effect in the workshop, and adjust and improve it in time.
Set up an air quality monitoring system to monitor and record the air quality and purification effect in the workshop, find problems in time and take corresponding adjustments and improvement measures to improve the purification effect.
d.Conduct staff training and publicity to improve the understanding and attention to purification equipment and processes.
Regularly organize staff training and publicity activities to improve employees' understanding and attention to purification equipment and processes, strengthen the implementation of operation specifications, and improve the management level of purification projects.
e.Regularly evaluate and improve the purification project, and optimize and upgrade according to the actual situation.
Regularly evaluate and improve the purification project, and optimize and upgrade accordingly according to the actual production situation and technology development trend, so as to improve the efficiency and sustainable development ability of the purification project.
v.Conclusion.
a.Summarize the importance and role of lithium battery workshop purification engineering.
The implementation of the purification project of the lithium battery workshop has played a significant role in ensuring the health of employees, product quality and production efficiency. Through good design and operation management, a safe, comfortable and efficient production environment is provided.
b.Emphasize the need for continuous improvement and innovation.
In the context of the rapid development of the lithium battery industry, continuous improvement and innovation are the core requirements of purification engineering. Only by continuously improving the level of purification technology and management can we meet the increasingly stringent environmental protection requirements and meet the needs of industrial development.
c.Propose possible future challenges and coping strategies.
With the further development and application of lithium battery technology, the requirements for the purification project of lithium battery workshop will continue to increase. Among the challenges that may be faced in the future, it is necessary to strengthen technological research and innovation, adopt more advanced purification technology and equipment, and ensure the sustainable development and environmental friendliness of lithium battery production.