新竹科學工業園區的成功,儼然已成為另一項台灣經濟奇蹟,近年來更扮演著台灣經濟成長舉足輕重的角色。園區內各項高科技產業由於其產業性質特殊,若一旦遭受強烈地震侵襲,因地下維生管線損害所造成的損失將較一般普通產業更為嚴重,對於國家經濟也會造成極為慘重之損失。 本研究探討地下維生管線地震損害的評估模式,並以新竹科學工業園區虛擬地下維生管線為例,依資料建立新竹科學園區虛擬地下維生管線地理資訊系統,評估不同屬性地下維生管線地震損壞評估情形,主要預期的成果如下: 1. 維生管線地震損壞評估方式,與國內外資料經驗迴歸公式建立。 2. 新竹科學園區地震危害度分析,包括園區地震危害度曲線及或然率反應譜建立。 3. 園區虛擬維生管線地理資訊系統基本資料庫建立 4. 園區虛擬維生管線景況模擬分析。 期望經由本文提供之分析方法,建立一完整之地下維生管線地震損害評估模式,並提供新竹科學園區管理局分析結果作為防減災參考資料。 Abstract The success of the Hsin-Chu Science Based Industrial Park has become an economic miracles, it has been playing a decisive role in Taiwan economics in the recent years. Because of the nature specific characteristics of High-Tech industry, buried pipelines seismic damage would be much more serious in the Industrial Park than Low-Tech industries if the Industrial Park encountered a big earthquake. Of course, the economics of the whole country would have severe compact too. This paper proposed a complete procedure for evaluating seismic damage about buried pipelines. A series of virtual buried pipelines in Science Based Industrial Park were established as examples for seismic damage assessment. The data of buried pipelines were collected and built in GIS format for display and analysis. The different properties influencing seismic behavior of buried pipelines were discussed and incorporated into the analysis model. The following are main purposes of this thesis: 1. Establish the procedure for evaluating seismic damage about buried pipelines and use the collected buried pipelines seismic damage data from internal and abroad to build fragility curve of buried pipelines adapted in Taiwan. 2. Execute seismic hazard analysis for Hsin-Chu Science Based Industrial Park and build hazard map. 3. Establish database of buried pipelines for Hsin-Chu Based Science Industrial Park in GIS format. 4. Execute seismic damage assessment for virtual buried pipelines in Science Industrial Park and draw some conclusions for SIPA.