ResourceLife Sciences
Biological Safety Canopy Exhaust Connection Saves Energy and Improves Overall Safety Performance
Biological Safety Canopy Exhaust Connection Saves Energy and Improves Overall Safety Performance
22 Jul 2015With environmental resources becoming more and more limited and energy costs on the rise, reducing energy consumption is an important consideration for every laboratory. As one of the most frequently used devices in the laboratory, biological safety cabinets (BSCs) provide the primary source of containment for microbiological research but are often operated continuously, so conditioned air can add considerable operating costs to a laboratory over time. This white paper demonstrates how the FlexAIR reduces both total exhaust flow and the amount of conditioned air required, while providing a higher level of protection than traditional canopy connections.
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MicrobiologyMicrobiology is the study of microorganisms including protists, prokaryotes, fungi, and, often, viruses. Microorganisms are a useful research tool as genetic vectors and, in immunology, for antibiotic susceptibility testing, cellular biology and genetics. Microorganisms commonly grow readily in incubators with microbial culture media; this can contain chromogenic supplements to differentiate between cell lines. Estimate your culture’s density of microorganisms with colony counters, or screen and select colonies for desirable clones with automated colony pickers. Additionally, equipment is available to monitor environments for the presence of microbes and identify with microbial identification instruments. Find the best microbiology products in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Safety EquipmentLaboratory safety equipment is essential to the effective operation of all laboratories and is required to minimize the risk of harm during experiments. Safety equipment includes radiation safety, radioactive / hazardous waste disposal, alarms and personal safety.Fumehoods and Biological Safety CabinetsFume hoods and biological safety cabinets are used to provide personnel, sample and environmental protection by limiting exposure to hazardous materials either by venting or enclosing hazardous sample space. Fume hoods include filtered and ductless fume hoods, general ducted fume hoods, laminar flow cabinets and cabinets for powder weighing. There are three classes of biological safety cabinet, dependent on the level of protection provided. Class I provide personnel and environmental protection, class II provide product, personnel and environmental protection. Class III provide the highest level of protection and are designed for use with high-risk biological agents. Other ventilated workspaces for the laboratory include glove boxes, glove bags, anaerobic and hypoxic workstations. Find the best fume hoods and biological safety cabinets in our peer-reviewed product directory: compare products, check customer reviews and receive pricing direct from manufacturers.Laboratory SafetyLaboratory safety is essential to the effective operation of all laboratories and is required to minimize the risk of harm during experiments. Guidelines, regulations, and equipment should be available in all laboratories to ensure that the working environment is safe and secure.Microbial DetectionMicrobial detection is crucial for identifying and quantifying bacteria, viruses, fungi, and other microorganisms. This process is essential for food safety, environmental monitoring, clinical diagnostics, and pharmaceutical manufacturing. Explore the best microbial detection tools in our peer-reviewed product directory; compare products, check reviews, and get pricing directly from manufacturers.Contamination PreventionContamination prevention aims to control and minimize the risk of contamination during experiments. Biological safety cabinets and sterilization equipment are examples of technologies used to prevent contamination.