Desain Sistem Vakum untuk Mendinginkan Ruang Transformator
<p>An analysis has been carried out on designing a 60 MVA 150 kV transformer cooling chamber vacuum system. The transformer cooling chamber is vacuumed up to a pressure of 0.001 kPa. This is done to avoid the formation of gas bubbles, avoid condensation and sterilize the transformer chamber be...
Saved in:
Main Authors: | , , , |
---|---|
Format: | Article |
Language: | English |
Published: |
Department of Mechanical Engineering, Faculty of Engineering, Universitas Andalas
2022-04-01
|
Series: | Metal: Jurnal Sistem Mekanik dan Termal |
Subjects: | |
Online Access: | https://metal.ft.unand.ac.id/index.php/metal/article/view/178 |
Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
_version_ | 1832574977055916032 |
---|---|
author | Benny Dwika Leonanda Yul Hizhar Firman Ridwan Diki Zuhury |
author_facet | Benny Dwika Leonanda Yul Hizhar Firman Ridwan Diki Zuhury |
author_sort | Benny Dwika Leonanda |
collection | DOAJ |
description | <p>An analysis has been carried out on designing a 60 MVA 150 kV transformer cooling chamber vacuum system. The transformer cooling chamber is vacuumed up to a pressure of 0.001 kPa. This is done to avoid the formation of gas bubbles, avoid condensation and sterilize the transformer chamber before filling the coolant. Therefore, we need a vacuum pump and other equipment called a vacuum system. The analysis of the vacuum system includes the work required by the system, vacuum time, and electrical energy. The design wllii uses a rotary pump and a root pump by varying the number of pumps with two, three, and four pumps. The results of the analysis show that the work that must be done by the design is the largest and the vacuum time is the least in the design that uses 2 pumps with a value of 2860.38 Kj and 39.31 hours. While the effective electrical energy is found in a design that uses 3 pumps. It can be concluded that an effective design is found in the design using 3 pumps. From the tests carried out in the field for the design of 3 pumps there is a difference of 5.3 hours and 38.31 kWh compared to the theoretical test.</p> |
format | Article |
id | doaj-art-db19f1f2548549eaabade19d472e29ff |
institution | Kabale University |
issn | 2598-1137 2597-4483 |
language | English |
publishDate | 2022-04-01 |
publisher | Department of Mechanical Engineering, Faculty of Engineering, Universitas Andalas |
record_format | Article |
series | Metal: Jurnal Sistem Mekanik dan Termal |
spelling | doaj-art-db19f1f2548549eaabade19d472e29ff2025-02-01T10:20:39ZengDepartment of Mechanical Engineering, Faculty of Engineering, Universitas AndalasMetal: Jurnal Sistem Mekanik dan Termal2598-11372597-44832022-04-0161606810.25077/metal.6.1.60-68.2022112Desain Sistem Vakum untuk Mendinginkan Ruang TransformatorBenny Dwika Leonanda0Yul Hizhar1Firman Ridwan2Diki Zuhury3Universitas AndalasUniversitas AndalasUniversitas AndalasUniversitas Andalas<p>An analysis has been carried out on designing a 60 MVA 150 kV transformer cooling chamber vacuum system. The transformer cooling chamber is vacuumed up to a pressure of 0.001 kPa. This is done to avoid the formation of gas bubbles, avoid condensation and sterilize the transformer chamber before filling the coolant. Therefore, we need a vacuum pump and other equipment called a vacuum system. The analysis of the vacuum system includes the work required by the system, vacuum time, and electrical energy. The design wllii uses a rotary pump and a root pump by varying the number of pumps with two, three, and four pumps. The results of the analysis show that the work that must be done by the design is the largest and the vacuum time is the least in the design that uses 2 pumps with a value of 2860.38 Kj and 39.31 hours. While the effective electrical energy is found in a design that uses 3 pumps. It can be concluded that an effective design is found in the design using 3 pumps. From the tests carried out in the field for the design of 3 pumps there is a difference of 5.3 hours and 38.31 kWh compared to the theoretical test.</p>https://metal.ft.unand.ac.id/index.php/metal/article/view/178transformer cooling chamber vacuum system design vacuum time |
spellingShingle | Benny Dwika Leonanda Yul Hizhar Firman Ridwan Diki Zuhury Desain Sistem Vakum untuk Mendinginkan Ruang Transformator Metal: Jurnal Sistem Mekanik dan Termal transformer cooling chamber vacuum system design vacuum time |
title | Desain Sistem Vakum untuk Mendinginkan Ruang Transformator |
title_full | Desain Sistem Vakum untuk Mendinginkan Ruang Transformator |
title_fullStr | Desain Sistem Vakum untuk Mendinginkan Ruang Transformator |
title_full_unstemmed | Desain Sistem Vakum untuk Mendinginkan Ruang Transformator |
title_short | Desain Sistem Vakum untuk Mendinginkan Ruang Transformator |
title_sort | desain sistem vakum untuk mendinginkan ruang transformator |
topic | transformer cooling chamber vacuum system design vacuum time |
url | https://metal.ft.unand.ac.id/index.php/metal/article/view/178 |
work_keys_str_mv | AT bennydwikaleonanda desainsistemvakumuntukmendinginkanruangtransformator AT yulhizhar desainsistemvakumuntukmendinginkanruangtransformator AT firmanridwan desainsistemvakumuntukmendinginkanruangtransformator AT dikizuhury desainsistemvakumuntukmendinginkanruangtransformator |