Page 132 - Vol.50
P. 132
廠務季刊 Facility Journal 2023
F6+AP2 緊急電整併 / 分割 / 最佳化
The Optimization, Division and Integration of Emergency Power for F6 and AP2
文││曾喜彥 吳冠德│台南廠務一部
摘要
摘要 未來面臨核電陸續除役,台電的供電架構逐步以綠能為
主,供電穩定度會更加依賴天氣狀況。面對再生能源供應
1. 前言
的間歇性與不確定性,台電限電措施顯然會更加頻繁。面
緊急電備援及跨廠支援必要性 對停電風險加劇,緊急電力備援及廠區間互相備援更尤其
重要。如何將既有設施進行分割再整合,使其效用對單一
2. 文獻探討
廠區可以最佳化使用是本文章討論重點,本文將以 F6 及
2.1 急電成環案例探討 AP2 廠區為例,說明兩廠區的緊急電分配關係及電力架構
關聯性。目前緊急電的分配是透過 AP2B 廠區三路開關的
2.2 F6 與 AP2 廠務 utility 關聯性
選擇,將 F6P2 與 AP2B 的緊急電進行分配以達到最佳化
2.3 F6 與 AP2 發電機現況 使用。在未來,將以急電覆蓋率 100% 為目標,規劃從
F6 增設線路至 AP2C,以擴大跨廠急電備援的線路容量,
3. 跨廠急電備援方法
達成兩廠區急電相互備援,進而降低台電異常造成單一廠
3.1 F6 側並聯點選擇 區停電的影響。
3.2 AP2 側並聯點選擇 關鍵詞 : 緊急電力、急電備援、急電覆蓋率
3.3 開關容量 &BUS 容量 & Facing the upcoming decommissioning of nuclear
線路容量規劃 plants, the Taiwan power Company(TPC) is turning
renewable energy into major power supply gradually
3.4 線路規劃
and therefore the stability of power grid will be
3.5 F6 與 AP2 急電系統切割單一化 more rely on the weather condition. Since the
intermittence and uncertainty of renewable energies,
4. 發電機整併結果 the power rationing will be more frequent. The more
we encounter power rationing, the more important
4.1 急電覆蓋率預估
the emergency power(E-P) backup between fabs is.
4.2 F6&AP2 急電系統最佳化 This article focuses on the optimization of E-P for
each single fab by dividing and integrating existing
5. 結論 generators and discusses the relations of power
system and emergency power distribution between
參考文獻
F6 and AP2. At present, the optimization of E-P
作者介紹 distribution between F6P2 and AP2B is selected by a
three-way switch at AP2B. To achieve the 100% E-P
coverage rate between the two fabs in the future, we
plan to construct the cables to expand the capacity
of cables from F6 to AP2C so that the E-P of the two
fabs can backup each other and minimize the impact
on every single fab due to TPC power outage.
Keywords : Emergency power(E-P), emergency power
backup, E-P coverage rate
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