Browsing by Autor "Muhammad Hasan Basri"

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Design Of Turbine L On Basin Cylinder Walls With 5cm And 10cm Turbine Distance Various On The Effect Of Electrical Power In The Gravitation Water Vortex Power Plant (GWVPP)
(Universitas Muhammadiyah Sidoarjo, 2020) Muhammad Hasan Basri; Muhammad Syaifuddin Zuhri; Hilman Saraviyan Iskawanto; Bachtera Indarto
The current source of energy tthat is mostly done in research on renewable energy is water flow. In daily life - electrical energy is widely used by everyone, both young and old. But over time this power source will be exhausted due to continuous use. That is because most of the existing electricity sources come from non-renewable sources. So it is therefore necessary to feel that renewable sources are being used to generate electricity. So the idea emerged to examine a type of small type power plant that is the Water Vortex Power Plant (GWVPP) Generator. Here a study was carried out on the effect of the distance of the L model turbine on the cylindrical basin. For the effective of power in the L model turbine with a distance of 5 cm to the cylinder basin wall is able to produce the highest effective power of 2.89 Watt at a height of 10 cm, while the highest effective power of the L model turbine with a distance of 10 cm towards the cylinder basin wall is 0.14 Watt at 10 cm height from the outlet water output. For the potential power of L model turbines with a distance of 5 cm can produce the highest potential power at an altitude of 28 cm with a potential power of 4.61 watts. While the potential power of the L model turbine with a distance of 10 cm can produce 4.02 watts with a height of 10 cm towards the outlet of the water outlet.
RANCANG BANGUN BASIN SILINDER BERPENAMPANG LINGKARAN DENGAN DIAMETER 50 CM PADA GRAVITATION WATER VORTEX POWER PLANT (GWVPP)
(2020) Moh Abdus Syuhud; Karyadi Karyadi; Muhammad Hasan Basri; Bachtera Indarto
Abstract. Gravitational Water Vortex Power Plant is a type of green technology that is included in the category of micro-hydro power plants. Basin is one component that is very influential on the speed of vortex flow. Vortex basin is a tube used to see vortex phenomena that occur in liquid fluids, with the occurrence of vortex phenomena in a basin that uses a water pump to drain liquid vortex into fluid. The purpose of this design is to design a cylindrical basin with a diameter of 50 cm that determines the working system of the GWVPP tool so that it can be used to observe water flow, torque, turbine power, and electrical power. This cylindrical basin tool is designed with proven data collection in 1 day for 5 hours, producing the highest discharge of 0.82 l / s, the highest torque of 0.000024 Nm, turbine power of 0,00081 watts, and electrical power of 0.87 watts in turbine testing the L 4 blade model, while the highest discharge is 0.90 l / s, the highest torque is 0.000036 Nm, the turbine power is 0.00096 watts, and the electrical power is 1.95 watts in the turbine testing the S 4 blade model.
The Effect Of Turbine Level Of Model L And Turbine Model S In Gravitation Of Water Vortex Plant Power (GWVPP) Based On Cylinder Basin
(Universitas Muhammadiyah Sidoarjo, 2020) Muhammad Hasan Basri; Fredi Kusuma Putra; Tijaniyah Tijaniyah; Bachtera Indarto
The effect of the height of the L model turbine and the S model turbine on the Vortex Power Pland Gravitation Water Using a Cylinder Basin Based Gearbox using a DC generator. This study aims to determine how much torque is generated, rotations per minute, voltage, current, and power generated by the power plant of gravity vortex airs and compare the influence of the height of the turbine position on the results of the data obtained. The study was conducted using a cylindrical basin that has an input diameter of 50 cm while the output diameter is 5 cm, using a 4 blade turbine shaped L and S models and using variations in the height of the turbine placement at depths of 10 cm, 12 cm, 14 cm, 16 cm, and 18 cm is calculated from the surface of the water, the fluid flow varies. The largest electric power using a L model turbine at a torque load of 0,0005886 Nm with a water discharge of 0.66 l / s obtained electrical power of 1.368 watts, and low electrical power is present at a torque load of 0,0002943 Nm with a water discharge of 0.73 electrical power obtained 0.872 watts. Whereas in the S model turbine, the largest electric power with a torque load of 0.0011772Nm with a water discharge of 0.85 l / s obtained an electric power of 2.097 watts, and low electrical power was found when the torque load was 0.0005886 Nm with a water discharge of 0.75 obtained electric power 1,856 watts. The highest elevation of the turbine position produces maximum data at 28 cm height.