Abstract
Utilization of the potential energy of water scale piko hydro is still very small, one of the challenges is that water turbines are not sold freely on the market, to get it must be ordered in advance to certain shops or workshops so that the price of turbines becomes expensive. The purpose of this experimental research is to analyze the performance of alternative fluid engines that can function as water turbines, namely pumps as turbines (PAT). Tests were carried out on three sizes of centrifugal pumps, namely 1 inch, 1.5 inches and 2 inches. using the same test equipment. The test results found that centrifugal pumps can be used as a good alternative as a water turbine. The larger pump size results in a lower head, power and efficiency. The results of testing at constant rotation and head, PAT 1 inch superior to PAT 1.5 inches, and PAT 2 inches. The maximum power and efficiency of 1 inch PAT is 235 W and 38% occur at a constant head of 15 m, 4.1 L/s discharge and 850 rpm rotation. This data inspired the researchers to create head and discharge standards suitable for each PAT size. Furthermore, many centrifugal pumps are sold in the market, it is necessary to do further research to get the right recommendations about the type, brand and size of the ideal pump used as a pico hydro scale water turbine in accordance with the potential for water and head discharge in the community.
Highlights
Renewable energy is an important choice in meeting global energy, especially water energy [1]
The results showed that the pumps as turbines (PAT) water discharge at the best efficiency point (BEP) position shifted from 95.23 m3/hour to 86.14 m3/hour and moved back to 93.63 m3/hour
Test results prove that centrifugal pumps can function as water turbines
Summary
Renewable energy is an important choice in meeting global energy, especially water energy [1]. Water energy generators are divided into two groups, namely large-scale and small-scale (micro and pico hydro) energy energy plants. Small-scale water energy generation is increasingly popular because of its simple design and operation, less environmental impact, easier installation, and does not require heavy construction [2,3,4]. One obstacle to the development of small-scale hydropower plants, especially piko hydro, is that the prime movers or water turbines are not sold freely in the market, the public must order in advance so that the price per turbine unit becomes expensive plus the survey and planning costs borne by the community, as a result the investment of piko hydro is sufficient expensive around 5000 US $/kW [5]. Several other researchers have succeeded in designing a practical, easy and inexpensive piko hydro
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