Department of Civil Engineering, Warsaw University of Life Sciences – SGGW, Nowoursynowska159, 02-776 Warsaw, Poland
Bibliografia
BARRUT B., BLANCHETON J-P., CHAMPAGNE J.-Y., GRASMICK A. 2012: Mass transfer efficiency of a vacuum air lift-application to water recycling in aquaculture systems. Aquacultural Engineering 46, 18-26.
De CACHARD F., DELHAYE J.M. 1996: A slug-churn flow model for small-diameter airlift pumps. Int. J. Multiphase Flow. 22 (4), 627-649.
ESEN I.I. 2010: Experimental investigation of a rectangular air lift pump. Hindawi Publishing Corporation. Advances in Civil Engineering. ID 789547, 5. doi:10.1155/2010/789547.
FAN W., CHEN J., PAN Y., HUANG H., CHEN C.-T.A., CHEN Y. 2013: Experimental study on the performance of air-lift pump for artificial upwelling. Ocean Engineering 59, 47-57.
UJIMOTO H., MURAKAMI S., OMURA A., TAKUDA H. 2004: Effect of local pipe bends on pump performance of a small air-lift system in transporting solid particles. International Journal of Heat and Fluid Flow 25, 996-1005.
HANAFIZADEH P., GHANBARZADEH S., SAIDI M.H. 2011: Visual technique for detection of gas-liquid two-phase flow regime in the air lift pump. Journal of Petroleum Science and Engineering 75, 327-335.
HEIDRICH Z., KALENIK M., PODEDWORNA J., STAŃKO G. 2008: Sanitacja wsi [Public health on rural areas]. Wydawnictwo Seidel- Przywecki, Warszawa (in Polish).
JANKOWSKI F. 1975: Pompy i wentylatory w inżynierii sanitarnej. [Pumps and ventilators in sanitary engineering]. Arkady, Warszawa (in Polish).
KALENIK M. 2008: Experimental investigations of hydraulic resistance on lifts in pipelines of a vacuum sewage system. Environment Protection Engineering 3 (34), 59-73.
KALENIK M. 2009: Zaopatrzenie w wodę i odprowadzanie ścieków. [Water supply and sewage disposal]. Wydawnictwo SGGW, Warszawa (in Polish).
KALENIK M. 2014: Experimental investigations of interface valve flow capacity in the RoeVac type vacuum sewage system. Environment Protection Engineering 3 (40), 127-138.
KHALIL M.F., ELSHORBAGY K.A., KASSAB S.Z., FAHMY R.I. 1999: Effect of air injection method on the performance of an air lift pump. International Journal of Heat and Fluid Flow 20 (l), 598-604.
KASSAB S.Z., KANDIL H.A., WARDA H.A., AHMED W.H. 2007: Experimental and analytical investigations of airlift pumps operating in three-phase flow. Chemical Engineering Journal 131, 273-281.
KASSAB S.Z., KANDIL H.A., WARDA H.A., AHMED W.H. 2009: Air-lift pumps characteristics under two-phase flow conditions. International Journal of Heat and Fluid Flow 30, 88-98.
KIM S.H., SOHN C.H., HWANG J.Y. 2014: Effects of tube diameter and submergence ratio on bubble pattern and performance of air-lift pump. International Journal of Multiphase Flow 58, 195-204.
MAHROUS A.-F. 2012: Numerical Study of Solid Particles-Based Airlift Pump Performance. Wseas Transactions on Applied and Theoretical Mechanics 3 (7), 221-230.
MAHROUS A.-F. 2013a: Experimental study of airlift pump performance with s-shaped riser tube bend. I. J. Engineering and Manufacturing 1, 1-12.
MAHROUS A.-F. 2013b: Performance study of an air-lift pump with bent riser tube. Wseas Transactions on Applied and Theoretical Mechanics 2 (8), 136-145.
MAHROUS A.-F. 2014: Performance of airlift pumps: single-stage vs. multistage air injection. American Journal of Mechanical Engineering 2 (1), 28-33.
MENG Q., WANG C., CHEN Y., CHEN J. 2013: A simplified CFD model for air-lift artificial upwelling. Ocean Engineering 72, 267-276.
NICKLIN D.J. 1963: The air lift pump: theory and optimization. Trans. Inst. Chem. Eng. 41, 29-39.
PARKER N.C. 1983: Airlift pumps and other aeration techniques. In: Water quality in channel catfish ponds. Ed. C.S. Tucker. Southern Cooperative Series Bulletin 290. Mississippi Agriculture and Forestry Experiment Station, Mississippi State University, Mississippi, 24-27.
SOLECKI T. 2010: Analiza i ocean możliwości renowacji odwiertu w uzdrowisku Połczyn. [Analysis and evaluation of renovation possibilities of a wellbore in Połczyn health resort]. Wiertnictwo - Nafta - Gaz 3 (27), 617-627 (in Polish).
TIGHZERT H., BRAHIMI M., KECHROUD N., BENABBAS F. 2013: Effect of submergence ratio on the liquid phase velocity, efficiency and void fraction in an air-lift pump. Journal of Petroleum Science and Engineering 110, 155-161.
WAHBA E.M., GADALLA M.A., ABUEIDDA D., DALAQ A., HAFIZ H., ELAWADI K., ISSA R. 2014: On the performance of air-lift pumps: from analytical models to large eddy simulation. Journal of Fluids Engineering 11 (136)/111301, 1-7.
WURTS W.A., MCNEILL S.G., OVERHULTS D.G. 1994: Performance and design characteristics of air lift pumps for field applications. World Aquaculture 25 (4), 51-55.
YOSHINAGA T., SATO Y. 1996: Performance of an air-lift pump for conveying coarse particles. Int. J. Multiphase Flow 22 (2), 223-238.