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標題: | 離島地區複合式電力供應系統之規劃與設計 Planning and Design of Hybrid Power System on Remote Islands |
作者: | Hui-Chu Chen 陳惠楚 |
指導教授: | 陳誠亮(Cheng-Liang Chen) |
關鍵字: | 數學規劃法,混合整數線性規劃,複合式電力供應系統,再生能源,抽水蓄能站, Mathematical optimization,Mixed-integer linear program (MILP),Hybrid power system (HPS),Renewable energy,Pumped hydroelectric storage (PHS), |
出版年 : | 2016 |
學位: | 博士 |
摘要: | 本論文旨在發展複合式電力供應系統的設計,有助於規劃離島地區的電力供需問題。首先,提出一包含所有潛在可能設計之複合式電力供應系統超結構,綜合考量所有可能的電力生產方式(例如:柴油發電機、再生能源發電設備與儲能設備)及逐時的操作變量。混合整數線性規劃模型是根據該結構建立而成,亦將電力傳輸、轉換、儲存時的電力損失納入模型中。模型設計的目的是透過拓展再生能源的供應而減少柴油的消耗量,其中,儲能設備的作用在於減緩再生能源不連續性與不可預測性造成的影響。已知逐時的電力需求與再生能源發電量,將數學模型輔以不同的決策目標與操作條件,決定電力供應設備的最佳組合。
排除電力生產成本因素的影響,該模型以柴油發電為主,搭配風力發電和抽水蓄能站所需之容量的組合,提出四階段最適化方法確定,包含最小化 (1) 柴油發電量,(2)風力發電機之數量,(3) 抽水蓄能站之上池容量,以及 (4) 抽水蓄能站充電與發電功率。在序列最適化演算法中,先獲得的目標函數值作為附加的約束被置入到下一個階段。此外,針對技術經濟評估再提出另一有效估計發電成本之數學模型,利用生命週期成本法評估發電所需成本,目標函數為最小化電力生產過程中的淨現值。最後將提出之模型應用在金門縣,使用2010年的逐時資料作為案例說明。 This thesis presents works on the design of the hybrid power system (HPS), which benefits the improvement of electricity utilization in remote islands. Herein, a superstructure is proposed for HPS design including all possible power generation options (e.g. diesel generator, renewable energy facility and electricity storage) and hourly-basis operational variables. A mixed-integer linear program (MILP) formulation is based on the proposed superstructure. This model also considers possible power losses during conversion, transferring and storage. A goal of reducing diesel fuel consumption by adequate expansion of renewable power supply was set. Electrical energy storage employed in the HPS is necessary to efficiently buffer the intermittency and variability of renewable energy. With power rating of demand and rated power generation of renewable sources on an hourly basis, MILP model is used to determine the optimal combination of various devices by different objective functions and operating conditions. Excluding the factor of electricity generation cost, the optimal mix of diesel-based and wind power supplies as well as the required capacity of Pumped Hydroelectric Storage (PHS) are determined using a four-step optimization approach, involving minimizing (1) the amount of diesel power generation, (2) the number of wind turbines, (3) the size of the upper water reservoir, and (4) the charge/discharge rates of the PHS. In this sequential optimization, the objective value obtained in the previous step is added as an additional constraint to the next step. In addition, another mathematical model is proposed to estimate power generation cost for techno-economical evaluation. The objective function is to minimize the net present value of power generation by life-cycle cost analysis. Finally, the proposed HPS design model is applied to a real case study of the remote Kinmen Island using hourly-basis, year-round historical data in 2010. |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/48974 |
DOI: | 10.6342/NTU201603526 |
全文授權: | 有償授權 |
顯示於系所單位: | 化學工程學系 |
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