The BBS-V600 is a hood designed for the preparation of samples under positive pressure conditions in the working area to protect samples from contamination. It is constructed from cold-rolled steel with an anti-bacteria powder coating.
Description
Documents
Superb sample protection
Receive 1-2 weeks from order
Key Features
Positive pressure environment in work area to protect samples
Cold-rolled steel construction with anti-bacteria powder coating
184L internal capacity
LCD display
Washable polyester fibre pre-filter and HEPA filter
Acrylic front window (manual opening and closing): 590 mm opening
Airflow velocity range of ≥ 0.3 m/s - 0.5 m/s
Product Description
The BBS-V600 is a hood designed for the preparation of samples under positive pressure conditions in the working area to protect samples from contamination. It is constructed from cold-rolled steel with an anti-bacteria powder coating and an internal capacity of 184L. It has an LCD display to control the airflow velocity from ≥ 0.3 m/s - 0.5 m/s.
Excellent visualisation of the working area of the BBS-V600 is through a manually operated acrylic front window. Air filtration is achieved by a washable polyester fibre pre-filter and HEPA filter.
Specifications
Manufacturer
Biobase
Model number
BBS-V600
External size (W x D x H)
600 mm x 580 mm x 1060 mm
Internal size (W x D x H)
580 mm x 520 mm x 610 mm
Internal capacity
184L
Display
LCD
Airflow velocity
0.3 m/s - 0.5 m/s
Construction material
Main body | Cold-rolled steel with anti-bacteria powder coating Work table | 304 stainless steel
Pre-filter
Washable polyester fibre
Filter
HEPA filter
Noise
≤ 60 dB
Front window
Acrylic | Manual opening and closing | UV-resistant
Maximum opening
590 mm
LED lamp
1 x 4W
UV lamp
1 x 8W | Emission: 253.7 nm
Power consumption
150 W
Electrical requirements
220 VAC±10% | 50/60Hz
Standard accessories
LED lamp | HEPA filter | Pre-filter | UV lamp x 2 | Waterproof socket
To contact Advance Scientific Products Pty Ltd about Biobase Positive pressure hood with LCD for compound preparation (BBS-V600) use Get a quote.
Key Features
Positive pressure environment in work area to protect samples
Cold-rolled steel construction with anti-bacteria powder coating
184L internal capacity
LCD display
Washable polyester fibre pre-filter and HEPA filter
Acrylic front window (manual opening and closing): 590 mm opening
Airflow velocity range of ≥ 0.3 m/s - 0.5 m/s
Product Description
The BBS-V600 is a hood designed for the preparation of samples under positive pressure conditions in the working area to protect samples from contamination. It is constructed from cold-rolled steel with an anti-bacteria powder coating and an internal capacity of 184L. It has an LCD display to control the airflow velocity from ≥ 0.3 m/s - 0.5 m/s.
Excellent visualisation of the working area of the BBS-V600 is through a manually operated acrylic front window. Air filtration is achieved by a washable polyester fibre pre-filter and HEPA filter.
Specifications
Manufacturer
Biobase
Model number
BBS-V600
External size (W x D x H)
600 mm x 580 mm x 1060 mm
Internal size (W x D x H)
580 mm x 520 mm x 610 mm
Internal capacity
184L
Display
LCD
Airflow velocity
0.3 m/s - 0.5 m/s
Construction material
Main body | Cold-rolled steel with anti-bacteria powder coating Work table | 304 stainless steel
Pre-filter
Washable polyester fibre
Filter
HEPA filter
Noise
≤ 60 dB
Front window
Acrylic | Manual opening and closing | UV-resistant
Maximum opening
590 mm
LED lamp
1 x 4W
UV lamp
1 x 8W | Emission: 253.7 nm
Power consumption
150 W
Electrical requirements
220 VAC±10% | 50/60Hz
Standard accessories
LED lamp | HEPA filter | Pre-filter | UV lamp x 2 | Waterproof socket
Customers: Universities of Sydney, Melbourne and Queensland, Monash University, QUT, CSIRO
Trade With Confidence. The supplier of this item is approved as a Verified Supplier. Business registration, contact details and locations have been verified. Advance Scientific Products Pty Ltd are also proudly displaying these credentials:
Established:
2014
Employees:
1-5
Customers:
Universities of Sydney, Melbourne and Queensland, Monash University, QUT, CSIRO