c/o Department of Mechanical Engineering University of Hong Kong Pokfulam Road Hong Kong Phone: 28592640 E-mail: hn.lam.hku@hku.hk Ir HN Lam BSc(Eng), MSc(Eng), CEng, MIMechE, MCIBSE, MASHRAE, MASME, MHKIE Test Report on Non-Return Valve for Water Closets Objective of Tests: To test samples of a non-return valve for soil drainage systems involving water closet sanitary fittings in order to determine the performance characteristics. Non-Return Valve Samples Submitted by: East Wind Products Limited, 10A Fraser Road, Tuen Mun, N.T., Hong Kong. Description of Samples: The samples were made of transparent plastic molding material. As shown in Figure 1, each sample consisted of a casing, a hinged flap and a removable cover at the top. The overall external dimensions were 260 mm long by 185 mm wide by 190 mm high. The inlet and outlet were 110 mm and 102 mm in internal diameter respectively. Two vent pipe connections of 50 mm internal diameter were provided on the casing. Figure 1 Non-Return Valve Sample 1
Tests Completed on: 17 August 2006 Tests Conducted: (A) Leakage A water head was applied to the flap of the non-return valve in the reversed flow direction as shown in Figure 2. The leakage rates at different levels of water head were determined using direct measurement of the volume of water leaked out against the time taken. Figure 2 Setup for Leakage Test (B) Resistive Torque A light thread was attached to the lowest point of the flap so that the flap could be lifted up at different angles. The resolved component of the force perpendicular to the plane of the sealing ring on the flap was multiplied by the moment arm about the hinge of the flap to determine the resistive torque to drainage flow. 2
(C) Flow Characteristics (with Water Closets) Two water closets were each fitted with a non-return valve and arranged to have a common discharge connection to the drain stack as shown in Figure 3. High-level cisterns were installed to provide the source of flushing water. A submersible water pump placed inside the collection tank was used to enable the recirculation of flushing water. The comparison of flow characteristics for water closet flushing between cases with and without non-return valve was made by keeping the flap intact and removing the flap respectively. The highest level reached by the water in the horizontal drain for the water closet outlet and the maximum flap opening attained during flushing were measured. The flushing characteristics involving solid waste were observed by adding into the w.c. bowl 5 Nos. banana short length, each about 28 mm diameter and 50 mm long prior to the flushing action as shown in Figure 4. Figure 3 Setup for Flow Characteristics Test 3
Figure 4 Setup for Solid Waste Flushing Characteristics Test (D) Passage of Bulky Foreign Matter (without Water Closets) A towel measuring 760 mm long by 330 mm wide was placed inside the inlet pipe to a test sample of the non-return valve as shown in Figure 5. A total of 5670 ml of water was poured into the inlet pipe to test if the towel could be flushed through the non-return valve. Figure 5 Setup for Bulky Foreign Matter Passage Test 4
(E) Aerosol Penetration Two chambers made of acrylic sheets, each measuring about 450 mm long by 450 mm wide by 600 mm high, were connected to a vertical drain stack via two horizontal branch pipes as shown in Figure 6. A test sample of the non-return valve was installed in the lower branch pipe. A small exhaust fan was fitted to each of the two chambers. The negative pressure generated inside the chambers due to the exhaust fans could be regulated by control valves provided through the chamber wall and was set at 8 Pa as measured by a liquid manometer. Smoke was generated inside the vertical drain stack to provide the required aerosol concentration. The concentration readings inside the two chambers near the exhaust fan location were measured by an optical particle counter. Figure 6 Setup for Aerosol Penetration Test 5
Test Results: (A) Leakage The leakage test results were shown in Table 1. Table 1 Leakage Characteristics Water Head against Flap in Reversed Flow Direction (mm water) Leakage Rate (ml s -1 ) 147 No leakage 120 0.54 100 2.65 60 1.88 30 0.67 (B) Resistive Torque The resistive torque test results were shown in Table 2. Table 2 Resistive Torque Characteristics Inclination of Flap to Vertical (Degree) Resistive Torque (10-3 Nm) 12.2 5.73 26.6 7.44 32.3 10.06 40.7 15.58 51.2 21.06 61.8 22.97 67.5 23.59 6
(C) Flow Characteristics (with Water Closets) The flow characteristics test results were shown in Table 3. Table 3 Flow Characteristics Item Non-Return Valve NOT Installed (Flap Removed) Non-Return Valve Installed (Flap Intact) Emptying of Water in Cistern for W.C. Flushing Highest Water Level in Horizontal Drain for W.C. Outlet (mm) Maximum Flap Opening to the Horizontal (Degree) Percentage of Solid Waste Flushed through W.C. (simulated by 5 Nos. banana short length, each about 28 mm diameter and 50 mm long) Complete Complete 34 42 Not Applicable 61.75 100% 100% Note: Type of water closet: P-trap with high cistern with bottom installed at 1375 mm above centre-line of inlet. (D) Passage of Bulky Foreign Matter (without Water Closets) The bulky foreign matter passage test result was shown in Table 4. Table 4 Bulky Foreign Matter Passage of Bulky Foreign Matter Smooth Passage through Non-Return Valve Towel (760 mm by 330 mm) Yes 7
(E) Aerosol Penetration The aerosol penetration test results were shown in Table 5. Table 5 Aerosol Concentration Readings inside Chambers Chamber Connection Arrangement Chamber Connected to Stack WITHOUT Non-Return Valve Chamber Connected to Stack WITH Non-Return Valve Aerosol Concentration above Background Level (particles/l) 2815168 26185* * This figure represented 0.93% of the aerosol concentration for the case without non-return valve Date: 22 August 2006 Signed: H.N. Lam 8