Coalfields laboratory extraction hood report Extraction hood specifications: - Hood entrance area: 0.74m2 (length 1.145m; width 0.645m) - Extraction velocity at entrance (capture velocity): 2.9m/s - Extraction quantity: 2.15m3/s Principles of hood designs: •Enclose the operation as much as possible to reduce the rate of airflow needed to control the contaminant. •Locate the hood in such a manner that the contaminant is moved away from the operator’s breathing zone. •Locate and shape the hood in such a manner that the contaminant will be thrown into the hood by the initial velocity (of the contaminant). •Solvent vapours are generally at the same density as air (1.2 kg/m3), therefore attempt to capture these at source. •Locate the hood as close to the source of the contaminant as possible. •Design the hood in such a way as not interfere with the worker.
- Extraction velocity at entrance (capture velocity): 2.9m/s
- Extraction quantity: 2.15m3/s
Principles of hood designs:
•Enclose the operation as much as possible to reduce the rate of airflow needed to control the contaminant.
•Locate the hood in such a manner that the contaminant is moved away from the operator’s breathing zone.
•Locate and shape the hood in such a manner that the contaminant will be thrown into the hood by the initial velocity (of the contaminant).
•Solvent vapours are generally at the same density as air (1.2 kg/m3), therefore attempt to capture these at source.
•Locate the hood as close to the source of the contaminant as possible.
•Design the hood in such a way as not interfere with the worker.
• The following slide shows the current layout in the lab, the next slide shows the remedial action that must be taken (both pulverisers moved to directly underneath the hood); and the slide after that shows the future layout of the hood (size of hood to be increased, and hood to extend to over the crusher as well)
• The capture velocity of the hood (2.9m/s) is sufficient to extract the contaminant, however, with the project of increasing the hood size, the capture velocity must be increased (fan speed increase) to maintain a capture velocity that will be enough to extract the dust effectively.
• In terms of a lab employee being sampled for personal dust, the employee must wear the gravimetric dust sampling pump on him/her for the duration of the shift. He/she must not at any point during the shift, take off the sampler and put it anywhere else.
• The supervisor must check the sampled person 3 times during the shift.
• The sampled employee must not tamper with the instrument (pump). If there is evidence of tampering, action will be taken by the VOHE department against the department head.
CF Laboratory extraction hood layout (current)
EXTRACTION HOOD
PULVERIZER PULVERIZER
CRUSHER
Pollutant escaping hood
Pollutant escaping hood
Recommended layout (remedial action)
PULVERIZER PULVERIZER
CRUSHER
EXTRACTION HOOD
Both pulverisers to be moved directly underneath the hood
Future layout
PULVERIZER PULVERIZER
CRUSHER
EXTRACTION HOOD
Size of hood increased to extend over the crusher
Velocity range (m/s) Type of velocity Operation or Hood type Typical emission and Environmental conditions
0.12-0.25 Random mixing Any Random motion of air in industrial operations
0.25-0.50 Capture Degreasing Release of emissions at no velocity into still air (no cross drafts
0.35-0.60 Face Lab fume hoods, drying ovens Emission source is enclosed
Capture Soldering Release of emissions at no velocity into air with low cross drafts (both less than capture velocity)
Capture Open surface tanks For use with area approach to design; at edge of tank
0.60-0.75 Face High toxicity lab hood Release of emissions at no velocity into air with low cross drafts (both less than capture velocity)
