Post occupancy evaluation on and design criteria for the LED factory facilities
碩士 === 國立臺灣科技大學 === 建築系 === 102 === LED industy has became a shining star among Green energy industries and main drive behind Taiwan economic growth.Taiwan ranks NO.2 among LED manufacturing countries , with production plants spreading across the countries. However , the essays regarding spatial la...
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ndltd-TW-102NTUS52220172019-05-15T21:13:20Z http://ndltd.ncl.edu.tw/handle/2wxk32 Post occupancy evaluation on and design criteria for the LED factory facilities LED 科技廠房之建築使用後評估與設計準則建議 Te-Fan Huang 黃德芳 碩士 國立臺灣科技大學 建築系 102 LED industy has became a shining star among Green energy industries and main drive behind Taiwan economic growth.Taiwan ranks NO.2 among LED manufacturing countries , with production plants spreading across the countries. However , the essays regarding spatial layout and architectual design of the LED manufacturing plant is nowhere to be seen. As we expect LED production continue to grow , the manufactuning plants is set to rise in numbers. We’d like to explore all aspects of the LED production plants design as reference and basis for future architects to build upon.This article will focus on three areas of LED manufacturing design. 1. For different stages of the manufacturing process, we compare their difference/similarity along with architectural needs, and come up with statistics analysis of spatial layout and usage. In addition, we analyze 5 LED plants to compare spatial layout of different manufacturing methodology. 2. With above mentioned LED plants as case study, we survey their current status, analyze their shortcoming and provide solutions according to existing documents, principles and user experiences. 3. Finally, we suggest design criteria and better use of space configuration. The Conclusions of our study are: 1. For different stages of the manufacturing process, we compare various architecture types and functions and come up with conclusion, illustrated with real-life cases. Overall, the statistics show that manufacturing accounts for 54.86% of the space while supporting functions such as administration, storage, factory service facility, reception and restaurant account for 45.14% of the space. 2. From our cases, we devide 49 design issues into 8 categories. (1) the layout of machinery and working environment was impaired by inadequate work space, plant height and width between columns ( 2 ) Poor pipeline location results in overlapping lines , which causes problems in maintenance. ( 3 ) Anti-explosion and fire fighting facilities are either poorly designed or uncompleted. ( 4 ) Improper positioning of the unloading machine and lack of waterproof on the sliding door ( 5 ) Storage space is insufficient spaced and loading platform height does not match truck height , causing inconvenience when unloading. ( 6 ) lack of roof load makes equipment setup impossible while outer tube maintenance walkway is not ready. ( 7 ) Reception , administration , and restaurant are hard to manage due to inadequate space allocation. (8 ) The site plan moving lines did not distinction also did not consider fire rescue and asylum moving lines. 3. We list 93 design rules with primary considerations on LED manufacturing and provide examples for those who will LED plants. These rules are categorized as: ( 1 ) the base location ( 2 ) production flow within factory, production machines and processes ( 3 ) height of building with clean rooms ( 4 ) fire fighting and anti-explosion ( 5 ) production facility ( 6 ) public areas . Kung-Jen Tu 杜功仁 2014 學位論文 ; thesis 151 zh-TW |
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碩士 === 國立臺灣科技大學 === 建築系 === 102 === LED industy has became a shining star among Green energy industries and main drive behind Taiwan economic growth.Taiwan ranks NO.2 among LED manufacturing countries , with production plants spreading across the countries. However , the essays regarding spatial layout and architectual design of the LED manufacturing plant is nowhere to be seen. As we expect LED production continue to grow , the manufactuning plants is set to rise in numbers. We’d like to explore all aspects of the LED production plants design as reference and basis for future architects to build upon.This article will focus on three areas of LED manufacturing design. 1. For different stages of the manufacturing process, we compare their difference/similarity along with architectural needs, and come up with statistics analysis of spatial layout and usage. In addition, we analyze 5 LED plants to compare spatial layout of different manufacturing methodology. 2. With above mentioned LED plants as case study, we survey their current status, analyze their shortcoming and provide solutions according to existing documents, principles and user experiences. 3. Finally, we suggest design criteria and better use of space configuration.
The Conclusions of our study are:
1. For different stages of the manufacturing process, we compare various architecture types and functions and come up with conclusion, illustrated with real-life cases. Overall, the statistics show that manufacturing accounts for 54.86% of the space while supporting functions such as administration, storage, factory service facility, reception and restaurant account for 45.14% of the space.
2. From our cases, we devide 49 design issues into 8 categories. (1) the layout of machinery and working environment was impaired by inadequate work space, plant height and width between columns ( 2 ) Poor pipeline location results in overlapping lines , which causes problems in maintenance. ( 3 ) Anti-explosion and fire fighting facilities are either poorly designed or uncompleted. ( 4 ) Improper positioning of the unloading machine and lack of waterproof on the sliding door ( 5 ) Storage space is insufficient spaced and loading platform height does not match truck height , causing inconvenience when unloading. ( 6 ) lack of roof load makes equipment setup impossible while outer tube maintenance walkway is not ready. ( 7 ) Reception , administration , and restaurant are hard to manage due to inadequate space allocation. (8 ) The site plan moving lines did not distinction also did not consider fire rescue and asylum moving lines.
3. We list 93 design rules with primary considerations on LED manufacturing and provide examples for those who will LED plants. These rules are categorized as: ( 1 ) the base location ( 2 ) production flow within factory, production machines and processes ( 3 ) height of building with clean rooms ( 4 ) fire fighting and anti-explosion ( 5 ) production facility ( 6 ) public areas .
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author2 |
Kung-Jen Tu |
author_facet |
Kung-Jen Tu Te-Fan Huang 黃德芳 |
author |
Te-Fan Huang 黃德芳 |
spellingShingle |
Te-Fan Huang 黃德芳 Post occupancy evaluation on and design criteria for the LED factory facilities |
author_sort |
Te-Fan Huang |
title |
Post occupancy evaluation on and design criteria for the LED factory facilities |
title_short |
Post occupancy evaluation on and design criteria for the LED factory facilities |
title_full |
Post occupancy evaluation on and design criteria for the LED factory facilities |
title_fullStr |
Post occupancy evaluation on and design criteria for the LED factory facilities |
title_full_unstemmed |
Post occupancy evaluation on and design criteria for the LED factory facilities |
title_sort |
post occupancy evaluation on and design criteria for the led factory facilities |
publishDate |
2014 |
url |
http://ndltd.ncl.edu.tw/handle/2wxk32 |
work_keys_str_mv |
AT tefanhuang postoccupancyevaluationonanddesigncriteriafortheledfactoryfacilities AT huángdéfāng postoccupancyevaluationonanddesigncriteriafortheledfactoryfacilities AT tefanhuang ledkējìchǎngfángzhījiànzhúshǐyònghòupínggūyǔshèjìzhǔnzéjiànyì AT huángdéfāng ledkējìchǎngfángzhījiànzhúshǐyònghòupínggūyǔshèjìzhǔnzéjiànyì |
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