MODELING OF A SIMPLE ANALYSIS OF ELECTRICAL ENERGY LOSS IN THE PROCESS OF POWER TRANSMISSION LONG DISTANCE AS A SUPPLEMENTARY POWER CONCEPTS IN THE UNDERSTANDING OF LEARNING PROCESS
The research is small-scale power grids using mica glass components with size 75 cm x 50 cm, the transformer input 110 volts, 220 volts and 240 volts with an output of 12 Volts, 15 Volts, 18 Volts, 24 Volts and 30 Volts as power voltage (TR-1), Step-Up Transformers (TR-2) in the ratio 1: 2 and Step-...
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id-itb.:206492017-09-27T14:41:04ZMODELING OF A SIMPLE ANALYSIS OF ELECTRICAL ENERGY LOSS IN THE PROCESS OF POWER TRANSMISSION LONG DISTANCE AS A SUPPLEMENTARY POWER CONCEPTS IN THE UNDERSTANDING OF LEARNING PROCESS ZAINUDDIN (NIM: 90211015), Indonesia Theses INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/20649 The research is small-scale power grids using mica glass components with size 75 cm x 50 cm, the transformer input 110 volts, 220 volts and 240 volts with an output of 12 Volts, 15 Volts, 18 Volts, 24 Volts and 30 Volts as power voltage (TR-1), Step-Up Transformers (TR-2) in the ratio 1: 2 and Step-Down Transformer (TR-2) with a ratio of 3: 1, Power Suply GPS type of 3030D (Accu 12 Volts), nichrome wire Ф1=0.40 mm with are resistance 11.2 Ω/m, Ф2= 0.60 mm with resistance 4.79 Ω/m and Ф3= 0.80 mm resistance of 2.44 Ω/m, perces lamp 12 Volts 5 watts. The experimental result sobtained by the value of the voltage regulation (VR) on the transmission wire 0.40 mm in diameter > 0.60 mm > 0.80 mm namely 18.47 % < 4 .27 % < 2.38 % for a voltage of 30 Volts diameters for the three types of low voltage electric transmission wire. The value of P(Lossof power) were 1.13 Watts, 0.30 Watts and 0.16 Watts with a transmission efficiency of 84.35 %, 95.59 % and 97.95 % for the three types of wire diameters low-voltage electric transmission. The value of the voltage regulation (VR) on the transmission wire 0.40 mm in diametesr > 0.60 mm > 0.80 mm namely 2.43 % > 1.07 % > 0.40 % for voltage 30 Volts for the three types of wire diameters high-voltage electric transmission The value of P(Lossof power) were 0.12 Watts, 0.05 Watts and 0.02 Watts the transmission of efficiency of 97.26 %, 98.86 % and 99.54 % for the three types of wire diameters high-voltage electricity transmission. text |
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The research is small-scale power grids using mica glass components with size 75 cm x 50 cm, the transformer input 110 volts, 220 volts and 240 volts with an output of 12 Volts, 15 Volts, 18 Volts, 24 Volts and 30 Volts as power voltage (TR-1), Step-Up Transformers (TR-2) in the ratio 1: 2 and Step-Down Transformer (TR-2) with a ratio of 3: 1, Power Suply GPS type of 3030D (Accu 12 Volts), nichrome wire Ф1=0.40 mm with are resistance 11.2 Ω/m, Ф2= 0.60 mm with resistance 4.79 Ω/m and Ф3= 0.80 mm resistance of 2.44 Ω/m, perces lamp 12 Volts 5 watts. The experimental result sobtained by the value of the voltage regulation (VR) on the transmission wire 0.40 mm in diameter > 0.60 mm > 0.80 mm namely 18.47 % < 4 .27 % < 2.38 % for a voltage of 30 Volts diameters for the three types of low voltage electric transmission wire. The value of P(Lossof power) were 1.13 Watts, 0.30 Watts and 0.16 Watts with a transmission efficiency of 84.35 %, 95.59 % and 97.95 % for the three types of wire diameters low-voltage electric transmission. The value of the voltage regulation (VR) on the transmission wire 0.40 mm in diametesr > 0.60 mm > 0.80 mm namely 2.43 % > 1.07 % > 0.40 % for voltage 30 Volts for the three types of wire diameters high-voltage electric transmission The value of P(Lossof power) were 0.12 Watts, 0.05 Watts and 0.02 Watts the transmission of efficiency of 97.26 %, 98.86 % and 99.54 % for the three types of wire diameters high-voltage electricity transmission. |
| format |
Theses |
| author |
ZAINUDDIN (NIM: 90211015), |
| spellingShingle |
ZAINUDDIN (NIM: 90211015), MODELING OF A SIMPLE ANALYSIS OF ELECTRICAL ENERGY LOSS IN THE PROCESS OF POWER TRANSMISSION LONG DISTANCE AS A SUPPLEMENTARY POWER CONCEPTS IN THE UNDERSTANDING OF LEARNING PROCESS |
| author_facet |
ZAINUDDIN (NIM: 90211015), |
| author_sort |
ZAINUDDIN (NIM: 90211015), |
| title |
MODELING OF A SIMPLE ANALYSIS OF ELECTRICAL ENERGY LOSS IN THE PROCESS OF POWER TRANSMISSION LONG DISTANCE AS A SUPPLEMENTARY POWER CONCEPTS IN THE UNDERSTANDING OF LEARNING PROCESS |
| title_short |
MODELING OF A SIMPLE ANALYSIS OF ELECTRICAL ENERGY LOSS IN THE PROCESS OF POWER TRANSMISSION LONG DISTANCE AS A SUPPLEMENTARY POWER CONCEPTS IN THE UNDERSTANDING OF LEARNING PROCESS |
| title_full |
MODELING OF A SIMPLE ANALYSIS OF ELECTRICAL ENERGY LOSS IN THE PROCESS OF POWER TRANSMISSION LONG DISTANCE AS A SUPPLEMENTARY POWER CONCEPTS IN THE UNDERSTANDING OF LEARNING PROCESS |
| title_fullStr |
MODELING OF A SIMPLE ANALYSIS OF ELECTRICAL ENERGY LOSS IN THE PROCESS OF POWER TRANSMISSION LONG DISTANCE AS A SUPPLEMENTARY POWER CONCEPTS IN THE UNDERSTANDING OF LEARNING PROCESS |
| title_full_unstemmed |
MODELING OF A SIMPLE ANALYSIS OF ELECTRICAL ENERGY LOSS IN THE PROCESS OF POWER TRANSMISSION LONG DISTANCE AS A SUPPLEMENTARY POWER CONCEPTS IN THE UNDERSTANDING OF LEARNING PROCESS |
| title_sort |
modeling of a simple analysis of electrical energy loss in the process of power transmission long distance as a supplementary power concepts in the understanding of learning process |
| url |
https://digilib.itb.ac.id/gdl/view/20649 |
| _version_ |
1822919918269497344 |