1071 KB34 KB199920252016Li, XiaozhouXie, JiancangZhu, Manlinletnik:62številka:nr. 10str. 614-622ISSN:0039-2480COBISSID_HOST:14939419URN:URN:NBN:SI:doc-MTIAFNW2enZveza strojnih inženirjev in tehnikov Slovenije etc.Strojniški vestnikhidravlični prehodni pojaviizboljšane obvodne cevikrmilniki z brezprekinitvenim napajanjemnumerične simulacijevodovod s črpalkoNumerical simulation of transient pressure control in a pumped water supply system using an improved bypass pipe|The use of a bypass pipe in a pump system is an economical and simple method of preventing water hammer surges to control the extreme transient pressures induced by pump failure. Currently, conventional bypass pipes (CBPs) have certain limitations in engineering applications. To overcome these limitations, in this study, a CBP is modified to create an improved bypass pipe (IBP). Unlike that of a CBP, the control valve in an IBP system is a hydraulic control valve that uses a controller on an uninterruptible power source (UPS) to turn the valve on or off. This modification enables the hydraulic control valve to be precisely controlled and facilitates the prevention of water hammer surges. To study the transient control effect of the IBP using the method of characteristics (MOC), a mathematical model of a complex system that includes an IBP, a check valve, and a water pump is established. Using MATLAB software, a water supply system in an industrial zone is used as an example for numerical simulations of the transient process experienced by this pump after it fails. The extreme pressure variations and the envelope of the pipe pressure in a typical section of the pumped water supply system are analysed and compared. The results show that an IBP can effectively reduce the maximum extreme pressure in a pumped water supply systemŠtudija ima tri cilje: 1) Predlagan je ukrep za preprečevanje vodnih udarov z izboljšano obvodno cevjo (IBP), ki odpravlja omejitve konvencionalnih obvodnih cevi (CBP). Pojasnjen je tudi način delovanja IBP; 2) Na podlagi predhodnih študij in metode karakteristik (MOC) je postavljen matematični model robnih pogojev IBP in opisana je rešitev tega matematičnega modela; in 3) Kot primer uporabe zaščitnega ukrepa IBP in za numerično simulacijo učinka preprečevanja vodnega udara na črpalki z zaščitno napravo IBP je uporabljen vodovodni sistem v industrijski coniTEXTznanstveno časopisjejournalsSlovenian National E-content AggregatorNational and University Library of SloveniaUniverza v Ljubljani, Fakulteta za strojništvo