Laboratory Corrosion Resistance Acid & Alkali Resistant Chemical Fume Hood Explosion Proof

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Material: Stainless Steel
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  • Laboratory Corrosion Resistance Acid & Alkali Resistant Chemical Fume Hood Explosion Proof
  • Laboratory Corrosion Resistance Acid & Alkali Resistant Chemical Fume Hood Explosion Proof
  • Laboratory Corrosion Resistance Acid & Alkali Resistant Chemical Fume Hood Explosion Proof
  • Laboratory Corrosion Resistance Acid & Alkali Resistant Chemical Fume Hood Explosion Proof
  • Laboratory Corrosion Resistance Acid & Alkali Resistant Chemical Fume Hood Explosion Proof
  • Laboratory Corrosion Resistance Acid & Alkali Resistant Chemical Fume Hood Explosion Proof
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  • Overview
  • Product Description
  • Product Parameters
  • More About the Fume Hood
  • Detailed Photos
  • Fume Hood Maintenance
  • FAQ
Overview

Basic Info.

Model NO.
WJ-1500B
Function
Exhaust, Velocity Control
Feature
Corrosion Resistance, Heat Resistant, Acid & Alkali Resistant, Fireproof, Explosion Proof
Hood Type
Standard
Color
Grey
Customized
Customized
Condition
New
Product Name
Fume Cupboard
Worktop Material
20+6 mm Ceramic
Liner Material
Ceramic Fiber Board
Input Power
380V/50A
Face Velocity
0.4-0.6 M/S
Application
Environment/Institute/Biology Lab/Chemical Lab
Transport Package
Standard Export Wooden Case Packing
Specification
1500*1205*2400 MM
Trademark
Ample
Origin
Chengdu, China
HS Code
8414809090
Production Capacity
200 Set/Month

Packaging & Delivery

Package Size
1900.00cm * 900.00cm * 2100.00cm
Package Gross Weight
500.000kg

Product Description

Product Description

Fume hoods (also called Lab Hoods) are local ventilation devices used to limit your exposure to hazardous fumes, vapors, or dusts when handling chemicals.

Alarms or Monitors
Laboratory fume hood alarms or monitors should never be turned off. If the alarm sounds or the monitor lights indicate low flow, work should be stopped, equipment turned off, and the sash lowered. Lab personnel should leave the area if highly toxic or volatile chemicals are being used.

Standards
The face velocity, which is the air moving into the fume hood entrance or access opening, should be 100 fpm for standard fume hoods.
No other types of exhaust can be connected to the fume hood exhaust system without a proper engineering assessment by Plant.

Maintenance
After maintenance work is performed on an existing hood (new motor, repairs, modifications, relocation, etc.), we must check the air flow and recertify the fume hood.  
All chemicals must be removed from the fume hood prior to maintenance work being done. This is to prevent worker exposure.

Product Parameters
 
                Model Specification   WJ-1500A WJ-1500B WJ-1800A WJ-1800B
External dimensions of equipment(mm) 1500(W)*1205 (D) *2400 (H) 1800(W)*1205 (D) *2400 (H)
Dimension of works pace (mm) 1260(W1)*780(D1) *1100 (H1) 1560(W1)*780(D1) *1100 (H1)
Panel material 20+6mm thick butterfly ceramics
Material of internal lining board 5mm thick ceramic fiber board
Diversion structure Lower air return
Control system Button control panel (LCD panel)
PH value control The medium is alkaline water solution; manual monitoring, and manual control through acid pump and alkali pump.
Input power Three-phase five-wire 380V/50A
Current for air fan Not over 2.8A(380V or 220V can be directly connected)
Maximum load of socket 12 KW(total of 4 sockets)
Water tap 1 set (remote control valve + water nozzle) No 1 set (remote control valve + water nozzle) No
Water discharge way Magnetic chemical pump strong discharge
Using environment For non-explosion indoor use, within 0-40 degrees Celsius.
Applicable fields Inorganic chemistry experiment; Food, medicine, electronics, environment, metallurgy, mining, etc.
Ways of Purification Spray sodium hydroxide solution, no less than 8 cubic meters/hour Spray sodium hydroxide solution.no less than 12 cubic meters/ hour
Ways of surface air speed control Manual control (through the electric air valve to adjust the exhaust air volume or adjust the height of the moving door)
Average surface air speed 0.6-0.8 m/s Exhaust air volume: 1420-1890m3/h (when door height h =500mm) 0.6-0.8 m/s Exhaust air volume: 1760-2340m3/h (when door height h =500mm)
Speed deviation of surface air Not higher than 10%
The average intensity of illumination Not less than 700 Lux; Standard white and uv-free yellow LED lamps; The illumination is adjustable.
Noise Within 55 decibels
Flow display White smoke can pass through the exhaust outlet, no overflow.
Safety inspection No spikes, edges; Charged body and the exposed metal resistance is greater than 2 mQ; Under 1500V voltage, no breakdown or flashover occurred for 1min test.
Resistance of exhaust cabinet Less than 160 pa
Power consumption Less than 1.0kw/h (excluding power consumption of fans and external instruments) Less than 1.2kw/h (excluding power consumption of fans and external instruments)
Water consumption Less than 3.2L/ h Less than 4.0L/ h
Performance of wind compensation With a unique wind compensation structure, the volume of the wind will not cause turbulence in exhaust cabinet and will not directly blow to the staff (need to connect to the air compensation system of the laboratory)
Air volume regulating valve 315mm diameter flanged type anti-corrosion electric air flow regulating valve (electric contact actuator)
 
More About the Fume Hood

Preparing the Fume Hood for Work
-Check alarms and monitors to indicate proper operation
-Observe noise and air movement to indicate proper operation
-Close all windows and doors in the laboratory
-Set manual controller, if the fume hood has one, to "maximum" for the 100 feet per minute (fpm) position
-Set sash height indicated by the sticker and arrow; when possible, set the sash at the lowest position

WARNING: If the alarm sounds or the monitor lights indicate low flow:
1.Stop working
2.Turn off the equipment
3.Lower the sash
4.Notify all individuals in the lab to leave the area if highly toxic or volatile chemicals are being used

Working in the Fume Hood
-Monitor the fume hood when performing ongoing or reactive experiments
-Keep pedestrian traffic in front of the hood to a minimum
-Avoid rapid or excessive movement in front of the fume hood
Place:
Experimental materials and equipment at least 6 inches back from the face
Large objects two to three inches above the work surface
-Keep rear baffle openings clear
-Keep papers, paper towels, work surface diapers, vials, and other small objects from being drawn into the hood's ventilation syste

Detailed Photos
          
Laboratory Corrosion Resistance Acid & Alkali Resistant Chemical Fume Hood Explosion Proof
Laboratory Corrosion Resistance Acid & Alkali Resistant Chemical Fume Hood Explosion Proof
 
Laboratory Corrosion Resistance Acid & Alkali Resistant Chemical Fume Hood Explosion Proof
Laboratory Corrosion Resistance Acid & Alkali Resistant Chemical Fume Hood Explosion Proof

Fume Hood Maintenance

Hoods should be evaluated by the user before each use to ensure adequate face velocities and the absence of excessive turbulence.

• In case of exhaust system failure while using a hood, shut off all services and accessories and lower the sash completely. Leave the area immediately.

 Fume  hoods should  be certified, at  least annually, to ensure they are operating safely. Typical tests include face velocity measurements, smoke tests and tracer gas containment. Tracer gas containment tests are especially crucial, as studies  have shown that face velocity is not a good predictor of fume hood leakage.

• Laboratory fume hoods are one of the most important used and abused hazard control devices. We should understand that the combined use of safety glasses, protective gloves, laboratory smocks, good safety practices, and laboratory fume hoods are very important elements in protecting us from a potentially hazardous exposure.

 Laboratory fume hoods only protect users when they are used properly and are working correctly. A fume hood is designed to protect the user and room occupants from  exposure to vapors,  aerosols, toxic  materials,  odorous,  and  other  harmful substances. A secondary purpose is to serve as a protective shield when working with potentially explosive or highly reactive materials. This is accomplished by lowering the hood sash.
FAQ

Why do fume hoods use so much energy?
It's the air being sucked through the fume hood, not the fume hood itself that consumes so much energy. For health and safety reasons, labs use 100% outside air which must be heated or cooled for comfort before it is brought into the lab. In addition to the energy required to condition the air, a significant amount of additional electricity is required to run large fans to move the air through the building and through the fume hoods.

How does shutting the sash save energy?
Most fume hoods at Stanford are variable air volume (VAV), meaning that the fume hoods are designed to vary the air flow based on how wide open the sash height is. Sash position is connected to the building's ventilation system so that a building's fan speed and the volume of air moved is reduced when the sash is lowered.

Is it safe to shut the sash?
The sash is an important safety barrier between the fume hood interior and the laboratory, protecting the lab user. Sashes should be opened only to set up or modify an experiment. At all other times, shutting the sash is safest. When the sash is shut there is still some air flow through the hood to remove any fumes.

How do I remind myself and my roommates to close the sash?
You can post a sticker, like the one shown in the picture below, to remind yourself and your lab mates to close the sash when not in use. The sticker also educates new fume hood users tha a lower sash is safer, and that the sash should only be open when setting up and modifying experiments.

What other fume hood practices can reduce my energy consumption?
• Never use a fume hood just for storing chemicals - they belong in a safety cabinet, which doesn't require huge volumes of air.
• If your fume hood has an occupancy switch, turn it off when not in use.
• If your group is no longer using a specific fume hood, consider having it locked and de-commissioned so air no longer flows through it.

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