Data Management Transformation of the Laboratory in the Medical School of a Key Domestic University

26-07-14

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Project Overview: 

  • Project Name: Medical School of a Key University in China 

  • Industry category: Green University 

  • Project Address: Shanghai 

  • Operational project: Integrated educational training facility for research, teaching and technology development 


Project Background: 

The predecessor of a well-known medical university was formed by the merger of three historically renowned medical colleges (established in 1896, 1911, and 1918 respectively) during the national university department reorganization in 1952. It was a comprehensive medical college, and in 1985, it was renamed as a medical university. The research building of this university is equipped with various functional laboratories. As the core place for scientific research, teaching, and technological development, the environmental management of these laboratories is not only related to the accuracy and reproducibility of experiments, but also closely related to the health and safety of the laboratory personnel. 


Project Requirements: 

  • Full-area perception collection: Covers all energy-consuming units including water, electricity, heat, gas, photovoltaic, energy storage, and charging stations, with data collected in minutes. The data accuracy rate exceeds 99%. 

  • Carbon data normalization governance: Align with national standards and the IPCC carbon emission accounting system, standardize data protocols, complete data cleaning and archiving, and connect the campus smart platform with the superior carbon management platform. 

  • Energy and Carbon Visualization Overview: The integrated large screen enables a one-stop visualization of campus energy flow, carbon flow, energy consumption ranking, and emission reduction progress. 

  • Upgrade of Laboratory Intelligent Operation Management: Add a dedicated touch screen for the laboratory, which is bound to the corresponding space. It can display real-time environmental parameters and support on-site viewing and adjustment, eliminating the drawback of only being able to view from the central control. Pre-check the safety of the environment to ensure stable and reliable experimental operation conditions. Provide personnel with the ability to view and adjust to confirm a safe, stable, and reliable experimental environment. 


Solution:

AI Energy Consumption Management Platform, Laboratory Key Data Management Software/Hardware


Scheme Value: 

  • Offer an AI-based carbon management solution featuring dedicated operation and maintenance, regular analysis, and continuous optimization. 

  • Reduce operation and maintenance costs 

  • Enhance the teaching safety and efficiency of university teachers and students 


Case Benefits: 

Efficiency improvement: 

  • Management efficiency improvement: From "manual and extensive" to "digital and precise", energy consumption data is displayed in real time and abnormal situations can be handled promptly. 

  • Compliance and compliance standards: Meeting the requirements for carbon reporting, MRV verification, and green campus evaluation. 

  • Educational function: Establish a low-carbon practice base to cultivate the carbon reduction awareness and capabilities of both teachers and students. 

Improvement in quality/accuracy: 

  • Form a replicable carbon management model for universities, serving regional green development.