Developing the non-dimensional framework for water distribution formulation to evaluate sprinkler irrigation

Improving the application efficiency and leaching of solutes from the root zone in a sprinkler irrigation system are directly related to the uniformity of water distribution at the field surface. The coefficient of uniformity and distribution uniformity are affected by changes in wind speed and its direction, sprinkler characteristics and variations in operating pressure. The objective of this paper is to present modified equations for evaluating pressurized irrigation systems based on non-dimensional infiltrated depths. The equations were obtained by four data groups including the average of the measured infiltration depths in any quarter. Coefficient of uniformity (CU), distribution uniformity (DU), application efficiency (E-a) and deep percolation (DP) were used as performance indicators to evaluate the sprinkler irrigation system. The suggested method was compared to the existing approach to assess the evaluation indicators. Three data sets of observed information for wheel-move, permanent solid set and semi-solid set irrigation systems were collected in Chaharmahal and Bakhtiari provinces to evaluate the proposed formulation. Furthermore, the relationships between CU and DU were analysed for three scenarios of infiltration depth. Results show that the application efficiency was 12% less than previous equations because of using four average values.

Automated summary

This study presents modified equations for evaluating pressurized irrigation systems by using non-dimensional infiltrated depths as the basis. Performance indicators including coefficient of uniformity, distribution uniformity, application efficiency, and deep percolation were utilized to assess the sprinkler irrigation system. Results indicate that the application efficiency was 12% lower compared to the previous equations due to the use of four average values.