Description
Book SynopsisThis book presents a newly designed dynamic fluidic sprinkler (DFS) to improve hydraulic performance of the existing complete fluidic sprinkler (CFS) under low-pressure conditions. Sprinkler irrigation has high prospects for improving water management in crop production. In recent years, low-pressure water-saving has become an important research content in the field of sprinkler irrigation. It introduces the effect of riser height on rotation uniformity and application rate of the dynamic fluidic sprinkler. It also discusses the intelligent sprinkler irrigation technologies for autonomous and remote sensing system. This book will be a useful reference for researchers and professionals in the field of agriculture and irrigation.
Table of ContentsChapter 1 Introduction.- Chapter 2 Optimization of the Fluidic Component of Complete Fluidic Sprinkler and Testing of the New Design Sprinkler.- Chapter 3 Numerical Simulation and Experimental Study on Internal Flow Characteristic in the Dynamic Fluidic Sprinkler.- Chapter 4 Effect of riser height on rotation uniformity and application rate of the dynamic fluidic sprinkler.- Chapter 5 Comparative Evaluation of Hydraulic Performance of a Newly Design Dynamic Fluidic, Complete Fluidic, and D3000 Rotating Spray Sprinklers.- Chapter 6 Modelling of Water Drop Movement and Distribution in No Wind and Windy Conditions for Different Nozzle Sizes.- Chapter 7 Review of intelligent sprinkler irrigation technologies for autonomous and remote sensing system.
