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Fume-hoods are designed to protect against hazards from toxic, dangerous or otherwise obnoxious material by dragging airflow away from the user and so preventing harmful vapours being inhaled or otherwise ingested.
Ventilation is normally achieved by a single extractor fan powering several hoods in varying locations and on different building floors - this arrangement leaves all of these fume-hoods at risk following the failure of the single fan. The single fan also runs at a fixed speed so that extraction rate from any specific hood depends upon the open or closed state of sashes in the remaining hoods on the stack. Most of the Standard hoods have no warning of fan failure apart from physical indicators e.g. toy windmills or paper tissues rigged by the users. In the event of an Emergency Alarm, Standard fume-hoods remain in operation.
While fume-hoods are designed to protect the user against hazards from other sources e.g. from toxic or obnoxious material or from flammable materials such as solvents, their misuse can lead to them affording less protection than expected or being hazards in their own right.
The rating of the fume-hood may not be sufficient to cope with the materials used.
-The effectiveness of a fume-hood is much reduced if they are open too wide or cluttered with apparatus that interferes with the smooth flow of air.
-Fume-hood fans, especially those on the Standard models, are susceptible to failure. This means that the draft also fails leaving the hood effectively useless.
-The front sash of Standard fume-hoods is made up of a very heavy sheet of glass enclosed in a heavy wooden frame. Accidents have occurred when the sash cords have broken allowing the front to crash down.
-Chemicals stored in a fume-hood that is in active use for chemical work represent potential additional hazards in the event of an accident.
| Model Parameters |
YT-1500A | YT-1500B | YT-1500C | YT-1800A | YT-1800B | YT-1800C |
| Size (mm) | 1500(W)*865(D)*2400(H) | 1800(W)*1205(D)*2400(H) | ||||
| Worktop Size (mm) | 1260(W1)*795(D1)*1100(H1) | 1560(W1)*795(D1)*1100(H1) | ||||
| Worktop | 20+6mm Ceramic | 20+6mm Ceramic | 12.7mm Solid Physiochemical Board | 20+6mm Ceramic | 20+6mm Ceramic | 12.7mm Solid Physiochemical Board |
| Liner | 5mm Ceramic Fibre | 5mm Compact Laminate | 5mm Compact Laminate | 5mm Ceramic Fibre | 5mm Compact Laminate | 5mm Compact Laminate |
| Diversion Structure | Back Absorption | |||||
| Control System | Touch-Tone Control Panel (LED Screen) | |||||
| Input Power | 220V/32A | |||||
| Fan Power | Less than 2.8 A | |||||
| Socket Max. Load | 5KW | |||||
| Faucet | 1 Set | |||||
| Drainage Mode | Natural Fall | |||||
| Storage | Double-Lock, Corrosion-Resistant, Damp-proof, Multi-layer Solid Wood with Mobile Wheel | |||||
| Application | Indoor No-blast, 0-40 ºC | |||||
| Application Field | Organic Chemical Experiment | |||||
| Face Velocity Control | Manual Control | |||||
| Average Face Velocity | 0.3-0.5 m/s Exhaust: 720-1200m³/h | 0.3-0.5 m/s Exhaust:900- 1490m³/h | ||||
| Face Velocity Deviation | Less than 10% | |||||
| Average Illumination | Less than 500 Lux | |||||
| Noise | Within 55 dB | |||||
| Exhaust Air | No Residue | |||||
| Safety Test | In Accord with International Standard | |||||
| Resistance | Less than 70Pa | |||||
| Add Air Function | Distinctive Structure (Need Exclusive Add Air System) | |||||
| Air Flow Control Valve | Dia. 250mm Flange Type Anti-Corrosion Control Valve | Dia. 315mm Flange Type Anti-Corrosion Control Valve | ||||
A fume hood is a type of enclosed ventilation system that primarily protects the operator against exposure to chemical aerosols, gases, vapor and dust. They also function as physical barriers between reagents and the laboratory, offering protection against inhalations, spills of dangerous substances, reactions and fire.
A typical fume hood is a box-shaped structure with a sliding window, or sash. Experiments are carried out inside the hood, while a blower creates airflow to route hazardous gases or fumes through a ventilation or filter system.
A fume hood consists of several main components:
▪The cabin where the gases are collected
▪A work surface, usually epoxy resin or phenolic resin
▪Integral or remote blower
▪Filer or exhaust duct
The negative air pressure inside the cabin prevents any air particles from escaping. The speed at which air enters the hood is essential to ensure the safety and effective operation. Higher speeds can generate turbulence that will not allow inside air to escape, but lower face velocities may not be sufficient for containment.
• Hoods should be evaluated by the user before each use to ensure adequate face velocities and the absence of excessive turbulence.
6 Questions to Ask When Buying a Fume Hood:
-Which chemicals will you use within the hood?
-Is a ducted or ductless hood best suited to your needs and available space?
-Where will you place the fume hood in the lab? Consider workflows, access to external exhaust systems, and competing air patterns.
-What size fume hood will best suit your needs? Be sure to consider what (if any) equipment will be enclosed in the hood.
-Are any service fixtures or accessories such as airflow monitors, electrical outlets, water, or gas fixtures required?
-Are base cabinets for acid, solvent, or non-chemical storage required?
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