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From August 4 to 6, the first Beijing-Tianjin-Hebei University Analysis and Testing Forum and CSTM/FC98/TC02/SC founding Conference were held in Cangzhou City, Hebei Province. The conference was sponsored by the Analysis and Testing Branch of Colleges and Universities of China Association of Analysis and Testing, the Standardization Technical Committee of Scientific Experimental Innovation Methods of China Standards Committee of Materials and Testing Groups, and was hosted by the Central Laboratory of Nankai University, the Green Chemical Research Institute of Nankai University-Cangzhou Bohai New Area, and Cangzhou Lingang Xinghong Technology Development Co., LTD. Co-organized by Analysis Center of Tsinghua University, Analysis and Testing Center of Peking University and Analysis and Testing Center of Beijing Normal University. The conference aims to strengthen the exchange of analysis and testing workers in the Beijing-Tianjin-Hebei region in the aspects of experimental technology innovation, laboratory management, discipline construction and social services, and promote the integrated development of analysis and testing science and technology.

Wang Haizhou, Academician of Chinese Academy of Engineering and Chairman of CSTM Standardization Committee; Yin Weijiang, Vice Mayor of Cangzhou City; Song Guilan, Chief engineer of China Entry-Exit Inspection and Quarantine Association; Zeng Yan, Director of Scientific Research and Development Center of Higher Education Institutions of the Ministry of Education; Li Jing, Vice President of Nankai University, attended and addressed the forum. Experts from Peking University, Tsinghua University, Tianjin University, Hebei University of Technology and other Beijing-Tianjin-Hebei University analysis and testing center, Sun Yat-sen University, Shanghai Jiaotong University, Nanjing University, Xi 'an Jiaotong University and other more than 30 domestic universities and research institutes analysis and testing platform, and Nankai University representatives more than 150 people participated in the meeting.

"Laboratory Management and Platform Construction Sub-Forum" Mr. Gong Changhua, Manager of Sales Department of DYNA, senior engineer, researcher of Qingdao University and postdoctoral industry mentor, shared "Future University Laboratory Design Based on 2050 Challenge", from how to create flexible and flexible laboratory space to adapt to future scientific research through design. The laboratory space challenges brought about by laboratory robots and automation intelligence, lower energy consumption, less emissions and higher order of low-entropy laboratory design three aspects share the laboratory design concept of DYNA.

• Regular, easy to adjust the experimental area, to create a regular experimental space to improve efficiency, conducive to development.
• Efficient core design Often experimental buildings will have the core set up on the side of the building rather than the center to ensure the efficiency, flexibility and adaptability of the experimental space.
• Efficient floor planning and reduced walking distance between scientists can significantly improve research and development efficiency.
• Open, shared laboratory Spaces facilitate the re-division and reorganization of laboratory Spaces, improve the sustainability of the laboratory, and achieve the flexibility of the experimental space without large-scale renovation. The premise of open sharing is pollution control.
• No ceiling laboratory for inspection, maintenance and adjustment is safer, more beautiful, easier to maintain and repair, and more conducive to the adjustment of experiment space.

• The laboratory layout will be adjusted from a functional layout to a technological layout. The traditional laboratory is composed of different functional rooms such as: balance room, high greenhouse, pre-treatment room, standard solution room, chromatography room and other functional rooms, while the robot laboratory will complete all experimental operations in one space, and the research group will be able to complete all experimental work in one space, rather than walking back and forth.
• Multiple functions of the robot laboratory are completed in one space, which requires more free space for the robot, and a more suitable column network module will be more conducive to the sustainability of the experiment space.
• Traditional laboratories are composed of dry area laboratories and wet area laboratories, which are easier to form vertical unity in design, thereby reducing costs and improving safety. Most robot laboratories will no longer distinguish between dry and wet areas, and the experimental area will integrate the characteristics of dry and wet areas.
• The robot lab will no longer require natural landscape and natural lighting, and the experimental space will be transferred from the landscape side to the middle of the building space, which will be occupied by office areas, rest areas, discussion areas, etc. Due to the high-speed processing of equipment and experiments by robots, the laboratory area will be greatly reduced, and a large number of experimentalists will be liberated from complex work and can carry out more research and innovative work. The proportion of laboratories in the building will be reduced, and the proportion of public Spaces, meeting areas, and discussion breaks will be increased.

• Low entropy laboratory means lower energy consumption, less emissions and higher order, the orderly flow of personnel is an important means to control the increase in entropy. Reducing the walking distance between the experimental area and the data processing interval can significantly improve efficiency and increase laboratory safety.
• The adoption of "ghost corridors" will not only reduce the walking distance of the main work area, save time, but also increase the effective use area of the laboratory.
• The use of prefabricated production laboratories will greatly reduce the energy consumption, pollution, waste emissions during the construction phase of the full life cycle of the laboratory, and increase the unit output and service life.
• Energy saving in HVAC, instrument distribution, lighting.