VESDA by Xtralis
VESDA VLI Product Guide
www.xtralis.com
31
4
Pipe Network Design
The Pipe Network should be designed by trained personnel, and verified using the ASPIRE2 software.
4.1
Design Considerations
The following points should be considered when designing a pipe network for the VLI detector:
l
At all times the detector requires a minimum total airflow of 40 liters per minute, and a minimum of 20 liters
per minute per pipe. It is possible that over a period of time sampling holes may block due to
environmental conditions which may result in reduced airflow, hence it is highly recommended that
detector and pipe flows be set to 20% higher than required minimums i.e. set detector flow to minimum 50
liters per minute and a minimum of 25 liters per minute pipe flow.
l
It is preferred to use at least two pipes in the design (use pipe inlets 2 and 3) with a flow rate of at least 25
ltr/min per pipe, and detector flow rate at least 50 ltr/min. Verify the design using the ASPIRE2 software.
If required, use higher aspirator speed setting to meet these limits.
l
Similarly, for single pipe installations, the pipe flow rate should be at least 50 liters per minute. Verify the
design using the ASPIRE2 software. If required, use higher aspirator speed setting to meet this limit.
l
Avoid using exhaust pipes unless there is substantial pressure differential where exhaust pipe needs to
be go back to the sampling area, keep exhaust pipe length minimum. Refer to Section 4.4. for further
information.
l
VESDA VLI is specifically designed to cater for industrial applications where high background levels
exist. It is recommended that minimum hole sizes of 3mm shall be used for these applications. Certain
industrial applications will require the facility to conveniently blow out (Back Flush) the pipe network
during maintenance regimes. Refer to Xtralis document 20016, Pipe Network Back Flush.
Refer to the VESDA Pipe Network Design Guide for best design practices.
4.2
Installation Considerations
The following points should be considered when installing sampling pipe:
l
Minimize flexing in sampling pipes by supporting the pipe every 1.5m (5ft) or less, or at a distance
described in local codes and standards.
l
Evenly arrange the sampling pipe network over return air grilles.
l
Sampling pipe fits firmly into the tapered detector port, DO NOT glue this connection.
l
Allow sufficient movement at the detector to permit pipe removal for maintenance.
l
Keep the exhaust pipe as short as possible to minimize airflow resistance in the pipe.
l
Pipe ends must be made smooth for bonding.
l
Sampling holes must be drilled in line and perpendicular to the pipe.
l
Sample holes must be clear of rough edges and debris.
l
Pipes are free of debris.
l
All joints must be bonded except the endcaps and pipes entering the detector.
Notes:
l
Sampling holes should face into the direction of airflow, or point downwards in static airflow situations.
l
Keep the sampling holes evenly spaced.
l
Counter-sunk holes are recommended for harsh environments.
l
For code-specific information, see Codes and Standards Information for Air Sampling Smoke Detection
on page iii.
Refer to the Pipe Network Installation Guide for best installation practices.
4.3
Inlet Pipes
The VLI detector supports up to four sampling pipes.
The air inlet ports in the pipe inlet manifold are tapered such that they accommodate both 25 mm (1 in) or IPS
¾ inch outer diameter pipes.
Содержание VESDA VLI
Страница 1: ...VESDA VLI Product Guide June 2012 Document 18500_A2 Part Number 29674 ...
Страница 2: ......
Страница 56: ...VESDA VLI Product Guide VESDA by Xtralis 50 www xtralis com This page is intentionally left blank ...
Страница 82: ...VESDA VLI Product Guide VESDA by Xtralis 76 www xtralis com This page is intentionally left blank ...