Add to ORKGLawrence Berkeley National Laboratory researchers have developed a new fume hood -- the Berkeley Lab High-Performance Fume Hood. In addition to cutting exhaust airflow requirements by 50-70%, the hood offers lower-cost installations than state-of-the-art VAV systems, and enhanced worker safety by introducing clean room-air into the operator's breathing zone. Further, installing the low-flow High-Performance Fume Hood can "free up" airflow capacity in laboratories starved for air
A fume hood (Fume Hood) is one of the most widely used equipment in chemical and engineering laborat...
In order to avoid the inherent aerodynamic difficulties of the conventional fume hood, an innovative...
A `user tracer gas test` was performed on laboratory hoods, with a human subject standing in front o...
Existing approaches for saving energy in hoods are complicated and costly to implement, and do not ...
Fume hoods are the primary engineering control used to minimize worker exposure to airborne contamin...
A supply air hood is described that provides a curtain of clean air just outside of the hood surface...
The "roll " of air which forms inside a fume hood immediately behind the sash can be a res...
<div><p>Assured containment at low airflow has long eluded the users of ventilated enclosures includ...
The air quality in laboratories has a profound affect on occupant health and safety. Reducing the ti...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Ventilation, including fume hoods, consumes 40–70% of the total energy used by modern laboratories. ...
The laboratory hoods found at the National Institute of Environmental Health Sciences were quantitat...
One of the prerequisites for high safety in laboratories for chemical and microbiological research i...
Laboratory buildings are characterized by the production of potentially hazardous fumes within the o...
This paper describes results from tests made with the aim of investigating how quickly the exhaust a...
A fume hood (Fume Hood) is one of the most widely used equipment in chemical and engineering laborat...
In order to avoid the inherent aerodynamic difficulties of the conventional fume hood, an innovative...
A `user tracer gas test` was performed on laboratory hoods, with a human subject standing in front o...
Existing approaches for saving energy in hoods are complicated and costly to implement, and do not ...
Fume hoods are the primary engineering control used to minimize worker exposure to airborne contamin...
A supply air hood is described that provides a curtain of clean air just outside of the hood surface...
The "roll " of air which forms inside a fume hood immediately behind the sash can be a res...
<div><p>Assured containment at low airflow has long eluded the users of ventilated enclosures includ...
The air quality in laboratories has a profound affect on occupant health and safety. Reducing the ti...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Ventilation, including fume hoods, consumes 40–70% of the total energy used by modern laboratories. ...
The laboratory hoods found at the National Institute of Environmental Health Sciences were quantitat...
One of the prerequisites for high safety in laboratories for chemical and microbiological research i...
Laboratory buildings are characterized by the production of potentially hazardous fumes within the o...
This paper describes results from tests made with the aim of investigating how quickly the exhaust a...
A fume hood (Fume Hood) is one of the most widely used equipment in chemical and engineering laborat...
In order to avoid the inherent aerodynamic difficulties of the conventional fume hood, an innovative...
A `user tracer gas test` was performed on laboratory hoods, with a human subject standing in front o...