How to build your scientific research laboratory

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How to build your scientific research laboratory reasonably

with the rapid development of science and technology, new demands are constantly put forward for the laboratory environment. Scientific research buildings have become a special field that is unique from industrial buildings and civil buildings. Scientific research buildings are characterized by complex functions and vertical and horizontal pipelines. They should not only highlight their scientificity, flexibility, but also have a sense of the times and artistry. At the same time, the emergence of new structures, new materials, new construction processes and new equipment requires the continuous innovation of laboratory environment design

according to relevant statistics, since last year, the medical device industry has entered the policy intensive release period, and the annual reorganization rate of global laboratories is 35%. This requires that the laboratory building should meet the current needs and meet the future development requirements in the design stage, so as to realize the flexibility of the interior of the building from many aspects. Such as: modular experimental space, the combination of closed and open laboratories, removable or easy to disassemble partition walls, flexible technical support system, elastic reserved space, etc

with the continuous development and changes of laboratories, flexibility modularization has become the trend of laboratory design. The modularization of laboratory building space is the main constituent element of each scientific research facility, but different laboratories need different degrees of flexibility, such as the use requirements of teaching laboratories are relatively stable, the changes of laboratory layout are less, and R & D laboratories need a higher degree of flexibility

a well-designed laboratory module will integrate all construction and engineering systems. A well-designed laboratory module planning has many advantages:

1. It can effectively respond to the structural changes in the scientific research space

scientific research projects have been changing, and the laboratory building where it is located must also be changed reasonably. Laboratory modularization should be able to promote changes in the interior of the building. Most academic institutions will change 10% to 20% of the laboratory layout every year. The variability of work means the mobility of experimental personnel and the diversity of working spaces inside and outside the building

the laboratory workspace faces many new choices, including more cooperation and informal interaction spaces where many users simply don't know what to do, more support for virtual individuals and team work, more attention to combining learning with daily work, greater workplace flexibility, and more focus on adapting the work environment to work, rather than adapting work to the environment, Many laboratory working spaces should be integrated into a part of the space that encourages leisure interaction with colleagues, so as to reduce pressure and enhance the sense of community

new scientific research institutions have ordinary functional "rooms", such as public kitchens, public rest rooms, journal rooms and game rooms, as well as walls decorated with works of art and green roofs that reflect the vivid elements of the laboratory. At the same time, open connecting stairs also facilitate researchers to move between floors

2. It can effectively deal with the size change of the experimental space

the use of the laboratory planning module allows the building to expand or shrink at will according to needs, without affecting the functionality of the facilities. The movable workbench is composed of a movable table and a base cabinet. Compared with the fixed workbench, it allows researchers to configure and assemble according to the extremely wide range of needs in the field of their own plastic granulator operation. The laboratory area has flexible zoning, which is convenient to set up working areas of various sizes

modularization will make the setting of the whole engineering system more flexible. Simple connection and disconnection facilities are set on the walls and ceilings of the laboratory to ensure the rapid and economical installation of equipment; The design of engineering system should be easy to add and remove; Public corridors, ceilings and vertical spaces should be reserved for air conditioning, water pipes and power facilities

air service carriers, which can be pipelines, power systems, data equipment, lamps and exhaust channels, are suspended from the ceiling. Because they are elevated above the ground, they have maximum flexibility, so that the ground space can be freely configured according to needs

move the layout of common infrastructure such as pipes into the air, and assemble them based on the suspended layout and components that can be quickly connected, so that in addition to becoming the basic equipment of the laboratory and completing general functions, they are also some basic modules that can be quickly disconnected, moved and reassembled from the ceiling or wall

correspondingly, the water and electrical interfaces in the experimental platform are also configured as pluggable module interfaces to realize the rapid reconfiguration of plug and play between pipelines, so as to maximize the realization of "people-oriented", which is not limited by the existing laboratory layout and equipment functions, and in turn make the equipment meet human needs. At the same time, the top 3 3D printing start-up companies in China landed in Zibo to ensure that the whole laboratory can be adjusted according to different projects, and only need to recombine quickly and flexibly for different modules, so as to minimize the cost and protect the early investment

whether it is a new laboratory or a project to expand or rebuild the laboratory, it is not only to choose reasonable laboratory instruments and equipment, but also to be forward-looking, and formulate the overall planning and design scheme of the laboratory. The core design concept must help the joint cooperation within the laboratory team and meet the personalized needs in the new facilities, so as to meet the requirements of future development

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