TY - JOUR
T1 - SW - soil and water : field evaluation of furrow irrigation models
AU - Esfandiari Baiat, Mansour
AU - Maheshwari, Basant L.
PY - 2001
Y1 - 2001
N2 - In this study, four furrow irrigation models, referred to as the Ross, Walker, Strelkoff and Elliott models are evaluated for their prediction of advance and recession times and runoff, and for their computational time per simulation run and volume balance error under three field conditions in south-east Australia. The models simulated irrigation events based on hydrodynamic (HD), zero-inertia (ZI) and kinematic-wave (KW) approaches. Eighty-one irrigation events were monitored over a 3-year period. The models were applied to all the events, and it was found that the Walker HD, Walker ZI, Ross ZI and Elliott ZI models performed best in predicting advance times and the Strelkoff ZI and Strelkoff KW models performed best in predicting recession times. Considering the overall suitability of the models, both the Walker hydrodynamic and Walker zero inertia models are the most suitable for the field conditions encountered in the study.
AB - In this study, four furrow irrigation models, referred to as the Ross, Walker, Strelkoff and Elliott models are evaluated for their prediction of advance and recession times and runoff, and for their computational time per simulation run and volume balance error under three field conditions in south-east Australia. The models simulated irrigation events based on hydrodynamic (HD), zero-inertia (ZI) and kinematic-wave (KW) approaches. Eighty-one irrigation events were monitored over a 3-year period. The models were applied to all the events, and it was found that the Walker HD, Walker ZI, Ross ZI and Elliott ZI models performed best in predicting advance times and the Strelkoff ZI and Strelkoff KW models performed best in predicting recession times. Considering the overall suitability of the models, both the Walker hydrodynamic and Walker zero inertia models are the most suitable for the field conditions encountered in the study.
KW - Australia, Southeastern
KW - Furrow irrigation
KW - Irrigation
KW - Mathematical models
KW - Research
UR - http://handle.uws.edu.au:8081/1959.7/9849
U2 - 10.1006/jaer.2001.0717
DO - 10.1006/jaer.2001.0717
M3 - Article
SN - 0021-8634
JO - Journal of agricultural engineering research
JF - Journal of agricultural engineering research
ER -