Abstract:

This paper provides an overview of the ancient evolution,design and development of different types of spiral tube water wheel pumping system (STWWPS). It has always been a challenge to lift water and carry it to some other locations for executing meaningful work, making use of the alternative sources of power. Several kinds of non-conventional energy sources and techniques have been tried. Each one is having its own merits and demerits. Making use of the kinetic energy of flowing water can be achieved through different kinds of water wheel.Spiral tube powered by kinetic energy of flowing water has been utilized for lifting and carrying water for irrigation and other purposes, contributing to the replacement of conventional diesel and electric power sources. These conventional sources are expensive (Diesel) and often unreliable in rural areas (Electricity).This review paper examines the design, development, and performance evaluation of various spiral tube pumping systems, including single, double, multilayer, pedal type, four scoop type, and multi-purpose models. It examines the load torque, power, efficiency, and stress analysis of shaft and bearing, and the impact of rotational speed, submerged ratio, and number of spiral pipes on the performance of the pumping system.The working principle allows these pumps to create a column of water within its coil that alternatively the air which is compressed as it moves towards the center of wheel. These pumpsnot only save electricity and diesel cost but the maintenance cost is also lowapart from contributing to the clean environment.
Keywords -Lifting water, Water wheel pumping system,Spiral tube,Kinetic energy, Revolving wheel, Compressed air, Floating type, Discharge, Delivery head.