Laboratory planning and design encompass multiple aspects, including laboratory layout and interior design, ventilation and exhaust systems, water supply and drainage systems, gas supply systems, cleanroom systems, electrical engineering, fire protection engineering, environmental protection engineering, laboratory safety and intelligent control systems, laboratory furniture and supporting equipment, user training, and maintenance services. From initial investment planning, budgeting, and site selection to the design and construction of internal systems, system training and handover, and subsequent operation and maintenance, a comprehensive investment plan tailored to the project's objectives must be developed. Laboratory construction is characterized by its high degree of specialization, high density of equipment, and the complexity of coordinating multiple trades during construction.
Safe and Reliable
From functional layout, airflow control, intelligent monitoring, emergency fire protection, and system management, we consider all aspects to ensure the safety of office and laboratory personnel, samples, data, instruments, systems, and the environment.
Advanced and Cutting-Edge
Adhering to European and American standards and aligning with cutting-edge international technologies, the design is forward-looking, fully considering the expansion and upgrading needs of testing projects, instruments, and technologies, achieving humanized, intelligent, and integrated operation.
Elegant and Aesthetically Pleasing
The design fully showcases industry characteristics and regional features, creating an elegant and aesthetically pleasing environment. Emphasis is placed on color coordination, spatial transitions, and environmental shaping, with differentiated designs to meet the diverse functional needs of people, samples, and instruments.
Environmentally Friendly and Energy-Saving
The design focuses on energy conservation in electricity, air conditioning, and ventilation, optimizing waste treatment to meet the three-star green building standard. It emphasizes energy saving, land saving, water saving, and material saving, promoting low-carbon environmental protection and a people-centered approach.
Laboratory Overall Planning and Design Concepts
Functionality Concept
Based on the different testing projects, the testing equipment should be classified, forming several areas where different testing projects can be carried out simultaneously. Each area should be assigned a specific function, maximizing the ability of each area to independently complete its specific function.
Safety Concept
Based on the different testing projects, the hazard levels of each area should be classified and arranged in order from low to high. Storage areas for strong acids, strong bases, toxic and flammable substances, and high-pressure devices should be located in the high-hazard zone, away from the office area; other hazardous substances and equipment should be placed in the medium-hazard zone; and the area with the lowest hazard level should be the safest area closest to the office area. The laboratory should implement an access control system for each hazard level area, determining the responsibilities of personnel entering each area.
Economic Efficiency Concept
The laboratory should fully consider the frequency of use of equipment and facilities, avoid waste of area and space, and reduce protection costs.
Scalability Concept
The laboratory should fully consider the scalability of its functions and have a forward-looking approach in its construction concept. The laboratory should plan ahead for future development, leaving room for expansion, and allowing for the contraction or expansion of laboratory functions based on the existing functions of each area. Scalability facilitates the introduction of new testing projects and improves testing capabilities, while also effectively reducing the cost of expanding laboratory functions.
Service Process
Preliminary Design
Site survey, understanding the characteristics of the site environment; understanding and analyzing the client's ideas and requirements; collecting relevant information, including relevant instruments and equipment, laboratory operating procedures, etc.; determining the design style, planning the overall layout, and communicating with the client; after determining the layout plan, conducting the overall design, drawing color renderings, adding notes and explanations, preparing written plans, and estimating project costs.
Construction Plan
Determining the overall design plan; conducting a detailed site inspection to understand the client's specific requirements for material brands or other aspects; refining the drawings: including design specifications, written plans, project budget, floor plans, elevations, sections, color renderings, detailed drawings of key parts, plumbing, electrical, HVAC, and other details, to meet the standards for construction according to the drawings; after determining the plan, outputting a complete set of construction drawings. Project Implementation
Confirm and explain the construction plan, establish the project team, and prepare all necessary resources (personnel, finances, and materials) before construction begins; strictly follow the construction process and schedule to ensure construction quality and progress; hidden works must be inspected and approved by the supervising party before proceeding to the next construction stage. Strengthen communication with the client and adjust the project plan promptly as needed; submit completion documents in a timely manner and ensure a smooth project handover.