Loading...
|
Please use this identifier to cite or link to this item:
https://nccur.lib.nccu.edu.tw/handle/140.119/112726
|
| Title: | 台灣電力市場用戶群代表制度之研究
Analysis of aggregator systems for the Taiwan electricity market |
| Authors: | 洪穎正
Hung, Ying Cheng |
| Contributors: | 許志義
洪穎正
Hung, Ying Cheng |
| Keywords: | 用戶群代表
需求面管理
需量反應
虛擬電廠
虛擬尖峰容量
Aggregator
Demand-Side management (DSM)
Demand response (DR)
Virtual power plant (VPP)
Virtual peaking capacity (VPC) |
| Date: | 2017 |
| Issue Date: | 2017-09-13 15:05:32 (UTC+8) |
| Abstract: | 本研究針對先進國家「用戶群代表」制度之政策與法規進行探討,並進一步探討如何施行於台灣電力市場。首先定義並解釋「用戶群代表」涵意後,整理出先進國家(包含美國、歐盟、德國、澳洲、韓國五個地區與EnerNOC、Comverge、CPower、OhmConnect四個公司)的用戶群代表商業模式案例,藉由文獻分析與個案研究,觀察先進國家政策方向與用戶群代表市場定位差異。同時,本研究由我國用戶群代表相關制度法規,探討用戶群代表於我國電力市場實施之適法性。此外,本研究根據文獻回顧整理出發展用戶群代表制度的關鍵成功因素,並詳細探討我國當前條件是否適合發展。最後針對政府與台電、產業界、學術界、電力用戶的不同角度,提出可行的政策法規建議。
This thesis explores the policies and regulations of aggregator systems in advanced countries and explores how to implement aggregator system in Taiwan electricity market. In order to achieve this objective, we first define and elaborate the meanings of aggregator. Then, experience and case studies of USA, European Union, Germany, Australia and Korea are studied. In addition, business models of four aggregators, EnerNOC, Comverge, CPower and OhmConnect are presented. Furthermore, we examine current related regulations of an aggregator in Taiwan electricity market for feasibility analysis. In addition, this study summarizes the key success factors of the development of aggregator systems according to the literature review, and discusses in detail whether Taiwan`s current conditions are suitable for development. Finally, market models and policy regulations in relation to the aggregator are recommended. |
| Reference: | 一、 中文文獻
王俊明,2015,《論文的研究.統計與測驗方法》。台北市 : 師大書苑。
吳再益等,2005,〈電力市場自由化下需量反應制度之可行性研究〉。《台電工程月刊》,第683期,頁78-101。
施恩,2013,〈日趨成熟的虛擬電廠-創造分散式電源與負載管理的最大效益〉。《臺灣經濟研究月刊》,36(12):119-126。
陳玟如,2003,《我國需量反應制度之可行性研究》。
陳彥豪、盧思穎、林法正,2013,〈虛擬電廠概念與運作模式介紹〉。《電力電子》,11(4):46-53。
陳俐妏、廖建棠、陳秉奇,2014,〈國際配電等級虛擬電廠案例探討〉。《臺灣經濟研究月刊》37(9):36-48。
許志義、陳澤義,1995,《電力經濟學:理論與應用》。台北市:華泰。
許志義,2012,〈我國電力需求面管理之探討〉。發表於「能源及電力業的挑戰與機會論壇(四)」,台北:中技社主辦。
許志義、吳仁傑,2014,〈論電力需量反應與虛擬電廠發展趨勢〉。《臺灣經濟論衡》12(6):59-83。
許志義、黃鈺愷、王京明,2014,〈美國電力自由化政策與法規探討:以賓澤馬及加州為焦點〉。《台電工程月刊》,第795期,頁1-15。
許志義、盧姵君、楊宏澤,2014,〈住宅部門需量反應電價方案之益本分析〉。《台電工程月刊》,第789期,頁48-60。
許志義、盧姵君,2014,〈論競爭市場電力調度之公平交易機制〉。《公平交易季刊》22(4):119-140。
許志義、黃俊凱,2014,〈德國電力備轉容量市場與虛擬電廠提供電網輔助服務機制之探討〉。《台電工程月刊》,第805期,頁44-60。
許志義、林俊儒,2015,〈智慧電表用戶選用需求面管理方案關鍵因素之權重分析〉。臺灣能源期刊2(2):209-226。
黃玠然,2011,《永續發展導向之臺灣電力政策分析》。台北: 國立臺灣大學環境工程學研究所碩士論文。
張紹勳,2004,《研究方法》。臺中市:滄海。
楊豐碩等,2011,〈缺電成本之調查研究〉。《台電工程月刊》,第754期,頁55-75。
劉吉軒、陳碧珠,2009,〈國立政治大學商學院學位論文引用文獻分析法與館藏支援之研究〉。《圖書與資訊學刊》,第64期,頁1-30。
Babbie Earl著;陳文俊譯,2007,《社會科學研究方法》。臺北市:湯姆生、雙葉總經銷。
Frankfort-Nachmias Chava, Nachmias David著;潘明宏譯,1998,《社會科學研究方法》。臺北市:韋伯文化。
二、 西文文獻
Arslan Okan and EkinKarasan Oya, 2013, “Cost and Emission Impacts of Virtual
Power Plant Formation in Plug-in Hybrid Electric Vehicle Penetrated Networks.”
Energy, 60:116-124.
Braithwait Steven, D. Steven, Hansen David, Kirsch Laurence, 2006,
“Incentives and Rate Designs for Efficiency and
Demand Response.” published by U.S. Department of Energy.
Burger Scott, Chaves-Ávila Jose Pablo, Batlle Carlos, Pérez-Arriaga Ignacio J., 2016,
“The Value of Aggregators in Electricity Systems.” published by MT Center for Energy and Environmental Policy Research.
Crampes Claude and Léautier Thomas-Olivier, 2015, “Demand Response in
Adjustment Markets for Electricity.” Journal of Regulatory Economics,
48(2):169-193.
Dietrich Kristin, Latorre Jesus M., Olmos Luis, Ramos Andres, 2015,
“Modelling and Assessing the Impacts of Self Supply and Market-Revenue Driven Virtual Power Plants.” Electric Power Systems Research, 119:462-470.
Faria Pedro, Soares Tiago, Vale Zita, Morais Hugo, 2014,
“Distributed Generation and Demand Response Dispatch for a Virtual Power Player Energy and Reserve Provision.” Renewable Energy, 66: 686-695.
Henrikson Carmen Baskette and Brief Kristin, 2008, “Designing a Successful
Demand Response Program: It’s Not Your Grandfather’s Load Control Program.” Presented for 2008 ACEEE Summer Study on Energy Efficiency in Buildings.
Lambert Quentin, 2012, Business Models for an Aggregator - Is an Aggregator
economically sustainable on Gotland?
Mármol Félix Gómez, Sorge Christoph, Ugus Osman, 2012, “Do Not Snoop My
Habits: Preserving Privacy in the Smart Grid.” IEEE Communication Magazine, 50(5) :166-172.
Nissen Gustaf, 2010, Cost Reduction Opportunities in Local Distribution Grids with
Demand Response.
Oren Shmuel S., 2013, “A Historical Perspective and Business Model for Load
Response Aggregation Based on Priority Service.” 46th Hawaii International
Conference on System Sciences.
Rhee Chang-Ho and Park Jong-Jin, 2015, “Demand Resource Policy and Program
Design for Electricity Market in Korea.” published by Korea Electrotechnology
Research Institute.
Sučić Stjepan, Dragičević Tomislav, Capuder Tomislav, Delimar Marko, 2011,
“Economic Dispatch of Virtual Power Plants in an Event-Driven Service-Oriented Framework Using Standards-Based Communications.”
Electric Power Systems Research, 81(12):2108-2119.
Shropshire David, Purvins Arturs, Papaioannou Ioulia, Maschio Isabella, 2012,
“Benefits and Cost Implications from Integrating Small Flexible Nuclear Reactors with Off-Shore Wind Farms in a Virtual Power Plant.” Energy Policy, 46:558-573.
Sowa Torsten, Krengel Stefan, Koopmann Simon, Nowak Johannes, 2014,
“Multi-criteria Operation Strategies of Power-to-Heat-Systems in Virtual Power Plants with a High Penetration of Renewable Energies.” Energy Procedia, 46:237-245.
Smart Energy Demand Coalition (SEDC), 2015, “Mapping Demand Response in
Europe Today 2015.”
Thomas Andrew R., Lendel Iryna, Park Sunjoo, 2014, Electricity Markets in Ohio.
Vingerhoets Pieter, 2016, “Demand Response Status and Initiatives around the
World.” published by Global Smart Grid Federation.
三、 網路資源
中技社,2013,〈台灣能源及電力業之挑戰與機會〉。最後查閱日期:2017/6/25,檢自: http://www.ctci.org.tw/ct.asp?xItem=3684&ctNode=655
台灣電力公司,〈過去電力供需資訊〉。最後查閱日期:2017/6/25,檢自:
http://www.taipower.com.tw/content/new_info/new_info-c51.aspx?LinkID=28
台灣電力公司,〈負載管理〉。最後查閱日期:2017/6/25,檢自:
http://csr.taipower.com.tw/tactics02_03_01.aspx
能源新報,2016,〈台電智慧電表「用手抄」,這是哪門子的智慧?〉。最後查閱日期:2017/6/25,檢自:
http://technews.tw/2016/07/05/smart-meters-taipower/
許志義,2016,〈因應缺電危機與需求管理的重要觀念〉。最後查閱日期:2017/6/25,檢自: https://gvlf.gvm.com.tw/article_content_11882.html
經濟部能源局,〈電力供給>發電結構〉。最後查閱日期:2017/6/25,檢自:
https://www.moeaboe.gov.tw/wesnq/Views/B01/wFrmB0102.aspx
韓國電力交易所官網,最後查閱日期:2017/6/25,檢自:
https://www.kpx.or.kr/eng/index.do
ADDRESS機構官網,最後查閱日期:2017/6/25,檢自:
http://www.addressfp7.org/
Comverge公司官網,最後查閱日期:2017/6/25,檢自:
http://www.comverge.com/
CPower公司官網,最後查閱日期:2017/6/25,檢自:
https://cpowerenergymanagement.com/
EnerNOC公司官網,最後查閱日期:2017/6/25,檢自:
http://www.EnerNOC.com/
Federal Energy Regulatory Commission (FERC), 2016, “Assessment of Demand Response and Advanced Metering.” 最後查閱日期:2017/6/25,檢自:
https://www.ferc.gov/legal/staff-reports/2016/DR-AM-Report2016.pdf
Federal Energy Regulatory Commission官網,最後查閱日期:2017/6/25,檢自:
http://www.ferc.gov/legal/maj-ord-reg.asp
Navigant Research, 2015, “Navigant Research Leaderboard Report: Demand Response.” 最後查閱日期:2017/6/25,檢自:
https://www.navigantresearch.com/research/navigant-research-leaderboard-report-demand-response
Ohmconnect公司官網,最後查閱日期:2017/6/25,檢自:
https://www.ohmconnect.com/
Pennsylvania-New Jersey-Maryland Interconnection (PJM), 2016, “Load
Management Performance Report 2015/2016.” 最後查閱日期:2017/6/25,檢自:
http://www.pjm.com/~/media/markets-ops/dsr/2015-2016-dsr-activity-report-20151221.ashx
Vattenfall公司官網,最後查閱日期:2017/6/25,檢自:
http://corporate.vattenfall.com/ |
| Description: | 碩士
國立政治大學
國家發展研究所
99261014 |
| Source URI: | http://thesis.lib.nccu.edu.tw/record/#G0099261014 |
| Data Type: | thesis |
| Appears in Collections: | [國家發展研究所] 學位論文
|
Files in This Item:
| File |
Size | Format | |
|---|
| 101401.pdf | 1764Kb | Adobe PDF2 | 1054 | View/Open |
|
All items in 政大典藏 are protected by copyright, with all rights reserved.
|
