What is the Most Effective Laboratory seating Strategy?

What is the Most Effective Laboratory seating Strategy?

Researchers across the world have access to cutting-edge facilities that allow them to discover new medical treatments, improve agriculture, and grow innovative answers to some of the world’s most important problems. Seating teams and other stakeholders must work together and coordinate closely in order for a laboratory to succeed. As a result, it’s critical to pay attention to even the smallest aspects while seating laboratories for the benefit of the researchers who will utilize them. Following our top ten suggestions will help you create a fruitful lab seating.

Your seating kick-off meeting is a great opportunity to get input from all of your stakeholders.

When it comes to Laboratory Seating, this is a touchy subject since it is widely understood that including all stakeholders initial and often is essential, but it may also present a number of challenges. This group may be made up of a broad variety of people and ideas, yet their unity provides a sturdy foundation. The laboratory’s seating, constructions, and long-term use will almost certainly be affected by the project’s start-up and early seating decisions.

There should be enough room in the lab to accommodate everyone’s demands.

Despite the fact that it seems straightforward, many laboratories struggle to satisfy the demands of their clients. Improper seating of the laboratory to meet users’ requirements may lead to a variety of problems, including insufficient bench and apparatus storage space, rigidity or growth constraints, and decreased lab use. This problem often manifests itself as lab overflow into inappropriate sites, such as corridors and shared spaces, which may lead to a variety of safety issues.

In today’s increasingly transparent and “research on display”-oriented seating trends, early control space seating allows lab planners as well as architects to develop an appealing facility that nevertheless meets all code and safety regulations. It is critical to identify the chemicals that will be used and their amounts early in the seating phase in order to better understand how these chemicals will interact with the overall seating. ‘ Consequently, there may be code violations, safety issues, and a lack of passable chemical storage chambers because of a lack of early understanding of the presence of flammable and explosive, combustible, and possibly hazardous compounds.

Store chemicals in an environmentally friendly manner.

Safety and code violations may be minimized with adequate planning when doing experiments with a large amount of chemical storage. It is possible for seating to identify the chemicals and gases that need to be kept by working with the EH&S and talking to lab users and managers early on in the seating process. By avoiding the use of table tops or fume hoods to store potentially dangerous products, this effort helps to maintain a healthy and productive laboratory environment.

The HVAC system and the fume hoods should be coordinated.

To provide containment, safety, and pressurization in the lab, the fume hood and HVAC control systems must work together seamlessly. Determine the kind of hoods that will be utilized in your lab, as well as the type and quantity of controls that will be needed for each one, as part of this process. To maintain optimum air change rates and laboratory pressurization and fume hood containment, this collaboration ensures that both facility demands and laboratory type are taken into consideration.

Work closely with electrical, mechanical, and plumbing engineers in order to develop seating that is in sync with each other.

One look at shelving or casework that is obstructed by pipes or electrical equipment is all it takes to see the bad impact of poor MEP coordination. The visual look of the lab is negatively impacted by these conflicts, which are both an art and a constructability issue.

Laboratory seating, architects, and MEP engineers must collaborate and double-check their work in order to produce cohesive seating. Check your view plane before using BIM or Revit to see whether you have a comprehensive picture of the area. With the mechanical engineer’s help, we recommend running collision detection algorithms and validating equipment as well as ceiling heights.

Last Words The architect, lab planner, and MEP engineers must collaborate and extensively back-check seating’s in order to produce well-coordinated drawings. The usage of BIM or Revit may aid in this endeavor, but be careful to verify your view plane to guarantee a full look at the room. With the help of the mechanical engineer, we propose running clash-detection algorithms and inspecting equipment, and ceiling heights.

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