Structure:

Made of thickness ≥1.2mm cold-rolled steel steel for the out layer, steel surface treated by acid-alkali-resistant and coated with epoxy resin powder. The inner layer is the anti-corrosion material. 

Lining:

Lined with 5mm thick compact board (chemical resistant), segmented design, air flow pressure is maintained smoothly by teardrop-shaped baffle in accordance with aerodynamic principles.

Working surface:

Covered epoxy resin countertop or ceramic worktops with thickness ≥19mm, and the outer edge of not less than 25mm. The recessed 5mm inside disc design will collect splashes things. With high performance of anti-heat, chemical resistant. 

Visual Windows:

Use 5mm tempered explosion-proof glass. lnternal uses of pituitary balancing device, can stay in any position during 0~900mm. Closure equipped with a rubber buffer.

Lighting:

Equipped with two (15W) LED energy-saving lamp. Lamp mounted on the top of hood and quarantined by the steam-proof glass cover inside the fume hood.

Transmission:

Windows Transmission system consists of a metal sprocket, plactis chains, synchronizing shafts and other devices. Balancing system prevents sash tilting and can be one- hand controlled

Selection of the proper type of fume hood to use in  lab should be based upon two interrelated elements:

1:The hood must allow the user to perform the work in a safe, efficient manner.

2. The need to reduce air conditioning cost.

The interior of the hood resists the corrosive effects of chemicals. The hood base cabinet should provide for storage of the required chemicals for the work being done in the hood. The total cost of a hood is greatly affected by its exhaust air requirements. The annual cost of heating and cooling the air exhausted by the hood can be as high as the initial cost of the hood itself. Choosing the proper hood type and sash configuration can significantly reduce these costs.

High-Performance/Low-Flow Fume Hoods

Compared to most traditional fume hoods, these high performance, low flow hoods are safer, have lower installation costs, and are up to 50% less expensive in operating costs. We have designed and installed fume hoods in labs around the world. 

Advantages of High Performance Chemical Fume Hoods:

1:Engineered to exhaust 50% less conditioned air from the laboratory.

2:Designed to capture fumes while working in today's modern laboratories with varying factors such as lab traffic, fluctuating temperatures and interior hood loading.

3:Fume capture and containment can be demonstrated with tracer gas testing.

4:Standard, available for all new chemical fume hood installations.

5:Quiet operation.

6:Low airflow provides an ideal environment for working with powders and delicate work.