13 ноябр 2024
2VERTIKAL DRENAJ SAMARADORLIGINI OSHIRISHDA OQIMCHALI NASOS QO‘LLASH TEXNOLOGIYASI
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Abduraimova, D. A., Otakhonov, M. Y., Ibragimova, Z. I., & Allayorova, D. S. (2023). Effect of deformation processes on hydraulic efficiency in open drainages. IOP Conf. Series: Earth and Environmental Science, 1231, 012066. https://doi.org/10.1088/1755-1315/1231/1/012066.
Abduraimova, D., Otakhonov, M., Jonkobilov, U., & Melikuziev, S. (2023). Digging and cleaning collectors using excavators equipped with innovative automatic control navigator. E3S Web of Conferences, 390. EDP Sciences.
Akhmedov, I., & Mirkhasilova, Z. (2021). Construction of vertical drainage wells using corrosion resistant materials. E3S Web of Conferences CONMECHYDRO, 264, 04016. https://doi.org/10.1051/ e3sconf/20212640401
Arifjanov, A. M., Rahimov, Q. T., & Abduraimova, D. A. (2017). Hydrotransport of exceptional flow in pipelines with various pulls. European Science Review, 124–126. Austria, Vienna/
Arifjanov, A., Samiyev, L., Xoshimov, S., Shaymardanov, S., & Tadjiboyev, S. (2023). Transport capacity of flow in earthline channels. E3S Web of Conferences (CONMECHYDRO), 401, 01020. https:// doi.org/10.1051/e3sconf/202340101020
Boehmer, W. K., & Boonstra, J. (1994). Tubewell Drainage Systems. In H. P.Ritzema (Ed.). Drainage Principles and Applications (chapter 22, pp. 931–964). International Institute for Land Reclamation and Improvement (ILRI), Wageningen, The Netherlands.
Cunningham, R. G. (1995). Liquid jet pumps for two-phase flows. ASME J. Fluids Engrg., 117, 309–316.
Cunningham, R. G., & River, W. (1957). Jet-pump theory and performance with fluid of high viscosity. Trans. ASME, 79, 1807–1820.
El-Sawaf, A., Halawa, M. A., Younes, M. A., & Teaima, I. R. (2011). Study of the different parameters that influence on the performance of water jet pump. Fifteenth International Water Technology Conference IWTC, 15. Alexandria, Egypt.
Gasanov, S. T. (2012). Vakuum-skvazhiny i ikh raschyot [Vacuum wells and their calculation]. (In Russian). Prospects for Science, 7 (34).
Gosline, J. E., & O‘Brien, M. P. (1934). The water jet pump. Univ. of Calif. Publ. in Engrg., 3 (3), 167–190.
Grupping, A. W., Coppes, J. L. R., & Groot, J. G. (1988, February). Fundamentals of oilwell jet pumping. SPE Production Engrg., 9–14.
Grupping, A. W., Coppes, J. L. R., & Groot, J. G. (1988, February). Fundamentals of oilwell jet pumping. SPE Production Engrg., 9–14.
Hatziavramidis, D. T. (1991, November). Modeling and design of jet pumps. SPE Production Engrg., 413–419.
Latipov, N., Abduraimova, D., Ibragimova, Z., Otakhonov, M., & Hamdamov, M. (2023). Numerical simulation of combustion processes. E3S Web of Conferences, 401, 03072. EDP Sciences.
Li, H. (1998). Performance Study of a Jet Pump. M. Engr. thesis, National Univ. of Singapore, Singapore.
Rakhimov, K., & Sultanov, R. (2023). Use of jet pump in vertical drainage systems. E3S Web of Conferences (CONMECHYDRO), 401, 03074. https://doi.org/10.1051/e3sconf/202340101048
Rakhimov, K., Melikuziyev, S., & Sultanov, R. (2023). Coefficient of hydraulic friction of plastic pipes. E3S Web of Conferences (CONMECHYDRO), 401, 01042. https://doi.org/10.1051/ e3sconf/202340101042
Rakhimov, Q., Ahmedkhodjaeva, I., Rakhimov, A., Abduraimova, D., & Latipov, N. (2022). Influence of Kinematic Flow Parameters on Vacuum in Jetters. AIP Conference Proceedings, 2432, 030068.
Winoto, S.H., Li, H., & Shah, D. A. (2000). Efficiency of Jet Pumps. Journal of Hydraulic Engineering, 126 (2). https://doi.org/doi.org/10.1061/(ASCE)0733-9429(2000)126:2(150)
Xoshimov, S., Atakulov, D., Yalgashev, O., Komilov, S., & Boykulov, J. (2023). Evaluation of sedimentation of water reservoirs with modern technologies. E3S Web of Conferences, 365. https://doi. org/10.1051/e3sconf/202336503033