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Verplas Self-Seal Coupling, System 204 Ducting to Fitting Test Prepared for : Verplas Limited 28 May 2013
Test report number 288446
Page 1 of 14
Verplas Self-Seal Coupling, System 204, Test
Test report number 288446 Commercial in confidence
© Building Research Establishment Ltd 2013 Page 2 of 14
Prepared by Name M Swainson
Position Principal Engineer
Date 28th May 2013
Signature Approved on behalf of BRE Name D Butler
Position Manager, HVAC Engineering
Date 28th May 2013
Signature
BRE Garston WD25 9XX T + 44 (0) 1923 664000 F + 44 (0) 1923 664010 E [email protected] www.bre.co.uk
This report may only be distributed in its entirety and in accordance with the terms and conditions of the contract. Test results relate only to the items tested. BRE has no responsibility for the design, materials, workmanship or performance of the product or items tested. This report does not constitute an approval, certification or endorsement of the product tested. This report is made on behalf of BRE. By receiving the report and action on it, the client – or any third party relying on it – accepts that no individual is personally liable in contract, tort or breach of statutory duty (including negligence).
Verplas Self-Seal Coupling, System 204, Test
Test report number 288446 Commercial in confidence
© Building Research Establishment Ltd 2013 Page 3 of 14
Contents 1 Introduction 4
2 Details of Tests carried out 5 2.1 Leakage test 5 2.2 Pressure loss test 7
3 Test Results 9 3.1 Leakage test 9 3.2 Pressure loss test 12
4 Conclusions 14
Verplas Self-Seal Coupling, System 204, Test
Test report number 288446 Commercial in confidence
© Building Research Establishment Ltd 2013 Page 4 of 14
1 Introduction
Verplas Limited approached BRE to undertake testing of an innovative plastic duct coupling for air leakage.
The performance specification for plastic duct used in ventilation applications is covered by the HVAC, DW/154, Specification for Plastic Ductwork, First Edition 2000.
DW/154 refers to HVCA , DW/143, A Practical Guide to - Ductwork Leak Testing, Fifth Edition, 2000, which provides guidance on how testing of leakage should be undertaken. A proposal was prepared, submitted and accepted by Verplas Limited for testing to DW/154.
The couplings submitted for testing were:
Verplas Self-Seal Coupling, System 204 Ducting to Fitting, for 204 x 60 mm rectangular duct. Manufacturer’s code VSSC204DF
The couplings were delivered to BRE in May 2013 and were to be tested for air leakage to Class A, low pressure ducts as defined in DW/143 during May 2013.
Verplas Self-Seal Coupling, System 204, Test
Test report number 288446 Commercial in confidence
© Building Research Establishment Ltd 2013 Page 5 of 14
2 Details of Tests carried out
2.1 Leakage test
A set of air leakage tests were undertaken following the guidance set out in HVCA , DW/143, A Practical Guide to - Ductwork Leak Testing, Fifth Edition 2000. The test was undertaken to assess the leakage for Class A duct, low pressure.
The duct layout used was taken from Test method for - Central mechanical supply and exhaust ventilation system packages with heat recovery used in a single dwelling. Version Date; 22/08/2008. V2.0. This test method defines duct layouts used for testing mechanical ventilation products used in dwellings in the UK. To test a sample of couplings, a representative duct layout for a typical UK dwelling was identified as a long branch duct with four terminals. The location of the couplings and duct seals is shown in Figure 1.
Figure 1: Long branch duct with four terminals used for testing coupling air tightness.
Verplas provided 15 samples of the Verplas Self-Seal Coupling, System 204 Ducting to Fitting and these were used to make up the test configuration shown in Figure 1.
The Verplas Self-Seal Couplings supplied for this test were designed to fit between straight lengths of 204 x 60 mm rectangular duct and fittings with female connections. The couplings can be seen with a straight and 90° bend in Figure 2.
1.5m
1.0m
0.5m
1.5m 1.5m 1.5m
0.5m
Verplas Self -Sealing Couplings
Duct ends sealed
Verplas Self-Seal Coupling, System 204, Test
Test report number 288446 Commercial in confidence
© Building Research Establishment Ltd 2013 Page 6 of 14
Figure 2 : Verplas Self-Seal Couplings fitted between straight duct and 90° bend.
Test instruments used during measurement of the air leakage rate.
Variable Instrument used for measurement
Calibration Date of calibration
Air flow rate Brookes 5853E
Chell Display CCD100
Chell (UKAS) 25th July 2012
Duct pressures Furness Controls FCO332
Furness Controls (UKAS) 4th March 2013
The test layout of the duct prior to testing can be seen in Figure 3. No additional fixing or restraint was used on the ductwork as a check of the ability of the seals to prevent separation under pressure conditions.
Verplas Self-Seal Coupling, System 204, Test
Test report number 288446 Commercial in confidence
© Building Research Establishment Ltd 2013 Page 7 of 14
Figure 3 : Test layout of duct with Verplas Self-Seal Couplings fitted between straight duct, 90° bends and Tee-Pieces.
2.2 Pressure loss test
To determine the pressure loss across the Verplas Self-Seal Coupling, System 204 Ducting to Fitting used to join two straight lengths of duct, a test section was set up with pressure tappings before and after a straight duct connector with Verplas Self-Seal Couplings fitted as shown in Figure 4.
The pressure difference across the coupling was measured at a range of air flow rates from 6 to 150 l/s.
Verplas Self-Seal Coupling, System 204, Test
Test report number 288446 Commercial in confidence
© Building Research Establishment Ltd 2013 Page 8 of 14
Figure 4 : Pressure loss test layout of straight connector with Verplas Self-Seal Couplings
Test instruments used during measurement of the pressure loss.
Variable Instrument used for measurement
Calibration Date of calibration
Air flow rate Hastings LFE LS-8S
Chell Display CCD100
Chell (UKAS) 24th July 2012
Duct pressures Furness Controls FCO332
Furness Controls (UKAS) 4th March 2013
Pressure difference across coupling
698A Differential Heated Baratron CDG
670B Signal Conditioner / Display
Chell (UKAS) 17th April 2013
Verplas Self-Seal Coupling, System 204, Test
Test report number 288446 Commercial in confidence
© Building Research Establishment Ltd 2013 Page 9 of 14
3 Test Results
3.1 Leakage test
The measured air flow rates during the leakage testing are shown in Table 1.
Positive pressure Negative pressure
Pressure applied (Pa)
Air flow rate (l/s)
Pressure applied (Pa)
Air flow rate (l/s)
100 0.06 100 0.06
150 0.08 150 0.09
200 0.11 200 0.12
250 0.13 250 0.14
300 0.15 300 0.17
350 0.18 350 0.20
400 0.21 400 0.21
450 0.23 450 0.23
500 0.25 500 0.26
Table 1 Measured leakage rates
The duct surface area was calculated as:
6 off, 1.5 m x 0.204 x 60 mm ducts = 4.75 m2.
Verplas Self-Seal Coupling, System 204, Test
Test report number 288446 Commercial in confidence
© Building Research Establishment Ltd 2013 Page 10 of 14
DW/143 expresses the results as a function of duct surface area, therefore for the defined duct layout; long branched duct with four terminals, the leakage per meter square of duct are as shown in Table 2.
Positive pressure Negative pressure DW/143 Maximum
leakage for Class A ductwork
Pressure applied
(Pa)
Leakage rate (l/s/m2)
Pressure applied
(Pa)
Leakage rate (l/s/m2)
Leakage rate (l/s/m2)
100 0.01 100 0.01 0.54
150 0.02 150 0.02 0.70
200 0.02 200 0.03 0.85
250 0.03 250 0.03 0.98
300 0.03 300 0.04 1.10
350 0.04 350 0.04 1.22
400 0.04 400 0.04 1.33
450 0.05 450 0.05 1.43
500 0.05 500 0.05 1.53
Table 2 Calculated leakage rate per unit area of duct.
Test report number 288446
Com
mercial in confidence
© B
uilding Research E
stablishment Ltd [autoyear]
Page 11 of 14
Verplas S
elf-Seal C
oupling Test
-0.2
0.0
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
2.0
-500 -450 -400 -350 -300 -250 -200 -150 -100 -50 0 50 100 150 200 250 300 350 400 450 500
Leakage (l/s/m2)
Static pressure (Pa)
Air f low rate - Verplas Connectors (l/s/m²)
DW143 Leakage Class A (l/s/m²)
Figure 5 : Leakage rate of Verplas Self-Seal Coupling, System 204 Ducting to Fitting compared to maximum leakage for Class A ductwork.
Verplas Self-Seal Coupling Test
Test report number 288446 Commercial in confidence
© Building Research Establishment Ltd 2013 Page 12 of 14
3.2 Pressure loss test
The measured pressure difference during the pressure loss testing are shown in Table 3
Air flow rate (l/s)
Pressure difference across connector and
couplings (Pa)
0 0.00
6 0.03
10 0.14
15 0.22
20 0.46
30 0.92
40 1.61
50 2.49
60 3.39
70 4.48
80 5.97
90 7.54
100 9.48
120 14.38
140 21.84
150 26.99
Table 3 Measured pressure differences across connector and couplings
Test report number 288446
Com
mercial in confidence
© B
uilding Research E
stablishment Ltd [autoyear]
Page 13 of 14
Verplas S
elf-Seal C
oupling Test
0
5
10
15
20
25
30
0 20 40 60 80 100 120 140 160
Pres
sure
diff
eren
ce a
cros
s st
raig
ht c
oupl
ing
(Pa)
Air flow rate (l/s)
Figure 6 : External static pressure loss across straight connector with Verplas Self-Seal Coupling, System 204 Ducting to Fitting.
Verplas Self-Seal Coupling Leakage Test
==============REPORT ENDS============= Test report number 288446 Commercial in confidence
© Building Research Establishment Ltd 2013 Page 14 of 14
4 Conclusions
From the measured leakage rates presented in Table 2 and Figure 5, it is evident that the Verplas Self-Seal Coupling, System 204 Ducting to Fitting achieved a level of leakage substantially lower than the maximum allowed for Class A duct as defined in DW/143.
At all positive and negative pressures in the tests, there was no sign of the duct seals separating, indicating that they are able to withhold positive and negative pressures up to 500 Pa, without requiring additional restraint.