Selection of installation height and suction stroke of sanitary pump②

Second, the installation height Hg calculation of the sanitary pump

　　The allowable vacuum height Hs refers to the maximum vacuum that can be reached by the pressure p1 at the inlet of the pump. The actual allowable suction vacuum height Hs value is not a value calculated according to the formula, but a value determined experimentally by the pump manufacturer. This value is attached to the pump sample for users to check. It should be noted that the Hs value given in the pump sample is the value when clean water is used as the working medium, and the operating condition is 20℃ and the pressure is 1.013×105Pa. When the operating conditions and working medium are different, conversion is required. 1 Transporting clean water, but the operating conditions are different from the experimental conditions, can be converted according to the following formula Hs1 = Hs + Ha－10.33-Hυ－0.24 2 Transporting other liquids When the conditions of the liquid to be transported and the villain are different from the experimental conditions, a two-step conversion is required ：The first step is to convert Hs1 from the pump sample according to the above formula; the second step is to convert Hs1 to H?s 2 according to the following formula. Cavitation allowance Δh For oil pumps, use the cavitation allowance Δh to calculate the installation height , That is, the degree of vacuum that the pump allows to suck liquid, that is, the allowable installation height of the pump, in meters. Use the NPSH Δh to check from the oil pump sample, and its value is also measured with 20℃ clean water. If other liquids are to be transported, calibration is also required, and the relevant books should be checked in detail. Suction range = standard atmospheric pressure (10.33 meters)-cavitation margin-safety amount (0.5 meters) The vacuum height of the standard atmospheric pressure energy pressure pipeline is 10.33 meters. For example: a certain pump must have a NPSH of 4.0 meters, what is the suction stroke Δh? Solution: Δh=10.33-4.0-0.5=5.83 meters. From a safety point of view, the actual installation height of the pump should be less than the calculated value. When the calculated Hg is negative, it means that the suction port of the pump should be below the liquid level of the storage tank. Example 2-3 A sanitary centrifugal pumpIt is found from the sample that the allowable suction vacuum height is Hs=5.7m. It is known that the total resistance of the suction pipeline is 1.5mH2O, the local atmospheric pressure is 9.81×104Pa, and the dynamic pressure head of the liquid in the suction pipeline is negligible. Trial calculation: 1 Installation of sanitary pump when delivering 20℃ clean water. 2 Change to the installation height of the sanitary pump when delivering 80℃ water. Solution: 1 The installation height of the pump when delivering 20°C clean water. Known: Hs=5.7m Hf0-1=1.5m u12/2g≈0 The local atmospheric pressure is 9.81×104Pa, which is basically in line with the experimental conditions when the pump leaves the factory, so the installation height of the pump is Hg=5.7-0-1.5=4.2 m. 2 The installation height of the pump when delivering 80°C water. When delivering 80°C water, the Hs value in the pump sample cannot be used to calculate the installation height. The following formula is required to convert the Hs time, that is, Hs1 = Hs + Ha－10.33 － Hυ－0.24. Knowing Ha=9.81×104Pa≈10mH2O, the saturated vapor pressure of 80℃ water is 47.4kPa from the appendix. Hv=47.4×103 Pa=4.83 mH2O Hs1=5.7+10－10.33－4.83+0.24=0.78m Substituting the Hs1 value into the formula to obtain the installation height Hg=Hs1－Hf0-1=0.78－1.5=－0.72m Hg is Negative value means that the pump should be installed below the liquid level of the pool, at least 0.72m lower than the liquid level, single-stage double-suction sanitary negative pressure pump, The single-stage double-suction sanitary pump is a new type of high-efficiency energy-saving water pump. Under the same energy consumption conditions, its operating efficiency can be nearly 20% higher than that of the original water pump. 1. Compact structure, beautiful appearance, good stability, and easy to install. 2. Smooth operation and optimized design of the double-suction impeller to minimize the axial force, and the blade shape with excellent hydraulic performance, and through precision casting, the inner surface of the pump casing and the surface of the impeller are extremely bright and have significant anti-cavitation performance. And high efficiency. 3. The bearings are selected from SKF and NSK bearings to ensure stable operation, low noise and long service life. 4. The shaft seal uses BURGMANN mechanical seal or packing seal. It can guarantee 8000 hours of operation without leakage. 5. The installation form does not need to be adjusted during assembly, and it can be used according to the site conditions. Discrete or horizontal installation. 6. The installation of self-priming device can realize automatic water suction, that is, there is no need to install a bottom valve, no vacuum pump, no backfilling, and the pump can be started.