DESIGN AND SIMULATION THE VERY LOW HEAD TURBINE WITH HEAD 2 METER AND RATE OF FLOW 0,5 M3 /S USING FREE VORTEX CRITERIONS

Utilization of renewable energi sources such as mikrohydro in Indonesia is still small. The Very Low Head Turbine is one way of utilization of energi resources. This system has many advantages such as the use of renewable energi sources, low head, easy to maintenance, and have a simple civil constru...

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Main Author:	SITORUS (NIM : 13107137); Pembimbing : Dr.Ir. Priyono Sutikno, SUPARMAN
Format:	Final Project
Language:	Indonesia
Online Access:	https://digilib.itb.ac.id/gdl/view/17332
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Institution:	Institut Teknologi Bandung
Language:	Indonesia

id	id-itb.:17332
spelling	id-itb.:173322017-09-27T10:40:54ZDESIGN AND SIMULATION THE VERY LOW HEAD TURBINE WITH HEAD 2 METER AND RATE OF FLOW 0,5 M3 /S USING FREE VORTEX CRITERIONS SITORUS (NIM : 13107137); Pembimbing : Dr.Ir. Priyono Sutikno, SUPARMAN Indonesia Final Project INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/17332 Utilization of renewable energi sources such as mikrohydro in Indonesia is still small. The Very Low Head Turbine is one way of utilization of energi resources. This system has many advantages such as the use of renewable energi sources, low head, easy to maintenance, and have a simple civil construction. In my final project will be discussed about how to design of fixed blade and motion blade using free vortex criteria. The design of fixed blade and the blade motion is done using the program CASCADE. Modeling of turbine blades made by calculate t / l using the lift coefficient factor(model I) and using diffusion factor (model II). Theoretically obtained at 250 rpm produce power 8854.32 Watts, torque 338.21 Nm and efficiency 90%. The reason of using Computational Fluid Dynamics (CFD) in runner and guide vane design is to simulate and corrected the design. The simulation used the Fluent 6.3.26. The results of simulation model I at 250 rpm and mass flow 499.1 kg/s produce power of turbine 7025.612 Watt, head 1.86 m and efficiency77.103%.The parameter of simulation at constant mass flow of 499.1 kg/s highest efficiency 84.71% at 350 rpm.The parameter of simulation at constant rotation 250 rpm highest efficiency80.73% at 400 kg/s. The results of simulation model II at 250 rpmand mass499.1 kg/s produce power 4295.892 Watt, head 1.77 m, andefficiency 49.55%. The parameter of simulation at constant mass flow of 499.1 kg/s highest efficiency 52.23% at 300 rpm. The parameter of simulation at constant rotation 250 rpm highest efficiency 51.21% at 450 kg/s. text
institution	Institut Teknologi Bandung
building	Institut Teknologi Bandung Library
continent	Asia
country	Indonesia Indonesia
content_provider	Institut Teknologi Bandung
collection	Digital ITB
language	Indonesia
description	Utilization of renewable energi sources such as mikrohydro in Indonesia is still small. The Very Low Head Turbine is one way of utilization of energi resources. This system has many advantages such as the use of renewable energi sources, low head, easy to maintenance, and have a simple civil construction. In my final project will be discussed about how to design of fixed blade and motion blade using free vortex criteria. The design of fixed blade and the blade motion is done using the program CASCADE. Modeling of turbine blades made by calculate t / l using the lift coefficient factor(model I) and using diffusion factor (model II). Theoretically obtained at 250 rpm produce power 8854.32 Watts, torque 338.21 Nm and efficiency 90%. The reason of using Computational Fluid Dynamics (CFD) in runner and guide vane design is to simulate and corrected the design. The simulation used the Fluent 6.3.26. The results of simulation model I at 250 rpm and mass flow 499.1 kg/s produce power of turbine 7025.612 Watt, head 1.86 m and efficiency77.103%.The parameter of simulation at constant mass flow of 499.1 kg/s highest efficiency 84.71% at 350 rpm.The parameter of simulation at constant rotation 250 rpm highest efficiency80.73% at 400 kg/s. The results of simulation model II at 250 rpmand mass499.1 kg/s produce power 4295.892 Watt, head 1.77 m, andefficiency 49.55%. The parameter of simulation at constant mass flow of 499.1 kg/s highest efficiency 52.23% at 300 rpm. The parameter of simulation at constant rotation 250 rpm highest efficiency 51.21% at 450 kg/s.
format	Final Project
author	SITORUS (NIM : 13107137); Pembimbing : Dr.Ir. Priyono Sutikno, SUPARMAN
spellingShingle	SITORUS (NIM : 13107137); Pembimbing : Dr.Ir. Priyono Sutikno, SUPARMAN DESIGN AND SIMULATION THE VERY LOW HEAD TURBINE WITH HEAD 2 METER AND RATE OF FLOW 0,5 M3 /S USING FREE VORTEX CRITERIONS
author_facet	SITORUS (NIM : 13107137); Pembimbing : Dr.Ir. Priyono Sutikno, SUPARMAN
author_sort	SITORUS (NIM : 13107137); Pembimbing : Dr.Ir. Priyono Sutikno, SUPARMAN
title	DESIGN AND SIMULATION THE VERY LOW HEAD TURBINE WITH HEAD 2 METER AND RATE OF FLOW 0,5 M3 /S USING FREE VORTEX CRITERIONS
title_short	DESIGN AND SIMULATION THE VERY LOW HEAD TURBINE WITH HEAD 2 METER AND RATE OF FLOW 0,5 M3 /S USING FREE VORTEX CRITERIONS
title_full	DESIGN AND SIMULATION THE VERY LOW HEAD TURBINE WITH HEAD 2 METER AND RATE OF FLOW 0,5 M3 /S USING FREE VORTEX CRITERIONS
title_fullStr	DESIGN AND SIMULATION THE VERY LOW HEAD TURBINE WITH HEAD 2 METER AND RATE OF FLOW 0,5 M3 /S USING FREE VORTEX CRITERIONS
title_full_unstemmed	DESIGN AND SIMULATION THE VERY LOW HEAD TURBINE WITH HEAD 2 METER AND RATE OF FLOW 0,5 M3 /S USING FREE VORTEX CRITERIONS
title_sort	design and simulation the very low head turbine with head 2 meter and rate of flow 0,5 m3 /s using free vortex criterions
url	https://digilib.itb.ac.id/gdl/view/17332
_version_	1820745580665634816

DESIGN AND SIMULATION THE VERY LOW HEAD TURBINE WITH HEAD 2 METER AND RATE OF FLOW 0,5 M3 /S USING FREE VORTEX CRITERIONS

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