Abstract
In recent years, there has been a growth of interest in the development of micro-hydropower power generation, especially in the low-head turbine. Low-head turbines gained popularity due to their high efficiency, relatively low cost, ability to operate at a low flow rate, and low environmental impact. In this aspect, the Archimedes Screw Turbine (AST) could be the primary key to electrifying the rural area in Sarawak, Malaysia, which is surrounded by rivers. This study starts with a conceptual design based on literature review findings. Eventually, the small-scale prototype is then being built and tested in the laboratory. The experiment is set up to simulate the actual Sarawak river velocity to determine the relationship between key performance variables such as the inclination angle of AST and water flow velocity. The findings revealed that the 45° angle of inclination was the optimum angle of AST within the water velocity of 1.0 m/s until 1.5 m/s. At this angle, the highest revolution per minute (RPM) generated by the AST shaft was 179.8, and the highest torque recorded was 0.9Nm. The results were validated through statistical means. It was found that both angles of inclination and river water velocity are significant to RPM and torque generation (p < 0.05). Two statistical models were generated based on linear regression to explain the contribution of water velocity and angle of inclination as inputs to torque and RPM as outputs, with a Pearson R2 value of more than 60%. The maximum mechanical power generated is about 1.54 kW, with a maximum efficiency of 94.6%. The outcome of this study would be useful for designing a small-scale AST power generation system by utilizing a low-flow river (velocity < 1.5 m/s) as a power source. This study would contribute to the existing knowledge stock of small-scale AST, primarily to operate in low-flow velocity rivers. For the future study, it is recommended for conducting a pilot study to test the actual performance of AST in the Sarawak River or rivers with similar flow characteristics.
Highlights
Hydropower is the energy harvester which is powered by the flowing of water
This study aims to fill the gap by determining the optimum design characteristics of a small-scale Archimedes Screw Turbine (AST) which would be useful to operate under low flow velocity and low head
There are two independent variables tested, which are the angle of inclination and water velocity with the dependent variables of revolution per minute (RPM) and torque produced by the AST prototype in the laboratory
Summary
Hydropower is the energy harvester which is powered by the flowing of water. Back to 2000 years ago, the ancient Greeks used water as the main driving force to run wheels for agriculture production. Largescale hydropower is known to cause environmental and social threats such as damaging wildlife habitat, prime farming lands that are the primary income source for native Sarawak people (Behrouzi et al, 2016). This creates the need for micro-hydro power which harnesses the power from the river without damaging wildlife habitats and disturbing prime farming lands, especially in Sarawak, Malaysia. Production and hosting by Elsevier B.V. on behalf of King Saud University
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
