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EQUIPMENT HAZARD CORRECTED SAFETY FEATURES Loop microinciner- Spatter from transfer loops Shielded in open-ended glass or ators, disposable ceramic tube Heated by gas or loops electricity Disposable, no heating necessary Leakproof vessels Aerosols, spillage and Leakproof construction with lid or for collection and leakage cover transport of Durable infectious materials · Autoclavab|e for sterilization within a facility Sharps disposal Puncture wounds Autoclavable containers Robust, puncture-proof
EQUIPMENT HAZARD CORRECTED SAFETY FEATURES Transport containers Release of microorganisms Robust between laboratories Watertight primary and secondary institutions containers to contain spills Absorbent material to contain spills Autoclaves, manual Infectious material(made Approved design or automatic safe for disposal or reuse Effective heat sterilization Screw-capped bottles Aerosols and spillage Effective containment Vacuum line Contamination of laboratory Cartridge-type filter prevents protection vacuum system with passage of aerosols(particle size aerosols and overflow fluids 0. 45 um) Overflow flask contains appropriate disinfectant. Rubber bulb may be used to close off vacuum auto matically When storage flask is full Entire unit autoclavable
Negative-pressure flexible-film isolators The negative-pressure flexible-film isolator is a self- contained primary containment device that provides maximum protection against hazardous biological materials. It may be mounted on a mobile stand. The workspace is totally enclosed in a transparent polyvinylchloride(Pvc)envelope suspended from a steel framework
Negative-pressure flexible-film isolators The negative-pressure flexible-film isolator is a selfcontained primary containment device that provides maximum protection against hazardous biological materials. It may be mounted on a mobile stand. The workspace is totally enclosed in a transparent polyvinylchloride (PVC) envelope suspended from a steel framework
The isolator is maintained at an internal pressure lower than atmospheric pressure. Inlet air is passed through one HEPA filter and outlet air is passed through two hePa filters, thus obviating the need to duct exhaust air outside the building. The isolator may be fitted with an incubator, microscope and other laboratory equipment, such as centrifuges, animal cages, heat blocks, etc
The isolator is maintained at an internal pressure lower than atmospheric pressure. Inlet air is passed through one HEPA filter and outlet air is passed through two HEPA filters, thus obviating the need to duct exhaust air outside the building. The isolator may be fitted with an incubator, microscope and other laboratory equipment, such as centrifuges, animal cages, heat blocks, etc
Material is introduced and removed from the isolator through supply and sample ports without compromising microbiological security. Manipulations are performed using gloved sleeves incorporating disposable gloves. A manometer is installed to monitor envelope pressure
Material is introduced and removed from the isolator through supply and sample ports without compromising microbiological security. Manipulations are performed using gloved sleeves incorporating disposable gloves. A manometer is installed to monitor envelope pressure
