Acid and Alkali Resistant Explosion Proof Corrosion Resistance High Performance Lab Chemical Fume Hood Heat Resistant

Laboratory ventilation is an important engineering control measure used to protect laboratory personnel from exposure to hazardous materials used in the laboratory. The chemical exhaust hood is the most useful of these engineering controls. The purpose of a chemical exhaust hood is to prevent or minimize the escape of airborne contaminants from the hood to the laboratory air.

A properly operating and correctly used fume hood will protect workers by containing vapors, dusts, gases, and mists. The sash can also act as a shield to workers from splashes and minor explosions or fires that may occur inside the hood. A fume hood is not designed to protect the skin or hands of workers placed inside the fume hood during activities. Personal Protective equipment (eye protection, gloves and lab coat) must be used to protect the skin that is exposed to the open area of the fume hood.

Fume hoods are the primary engineering controls used to control inhalation exposures to hazardous substances in University research buildings. There are other types of local exhaust such as vented enclosures for large pieces of equipment or chemical storage, and snorkel and canopies for capturing contaminants near the point of release. Work is performed directly underneath the canopy or snorkel and is typically intended for machines such as gas chromatographs or mass spectrometers. This type of local exhaust does not guarantee 100% removal of gases.

• Engineered to exhaust 50% less conditioned air from the laboratory
• Designed to capture fumes while working in today's modern laboratories with varying factors such as lab traffic, fluctuating temperatures and interior hood loading
• Fume capture and containment can be demonstrated with tracer gas testing
• Low airflow provides an ideal environment for working with powders and delicate work

A fume hood is a ventilated enclosure used to control exposure to hazardous or odorous chemicals. An exhaust fan draws air into the front opening of the hood, then up and out of the hood through the ductwork. Because the air that is pulled into the hood is not filtered, fume hoods only offer protection to its users and no protection to the products inside the hood.

Hood performance and efficiency depends on an adequate and uniform velocity of air moving through the sash opening. Hood performance is adversely affected by many factors including mechanical malfunction, drafts or open doors and windows, and poor operating procedures of the person using the hood.