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    Title: 高速充電車載電源系統應用與商業模式
    The Application and the Business Model of High-Speed Vehicle Power Charging System
    Authors: 謝聖明
    Hsieh, Sheng-Ming
    Contributors: 尚孝純
    謝聖明
    Hsieh, Sheng-Ming
    Keywords: 電動車
    續航力
    鋰離子電池
    高速充電車載電源系統
    商業模式
    Electric Vehicle
    Endurance
    Lithium-Ion Battery
    High-Speed Vehicle Power Charging System
    Business Model
    Date: 2021
    Issue Date: 2021-09-02 16:16:12 (UTC+8)
    Abstract: 有鑑於環境保護,電動車在可見的未來將逐漸成為人類運輸工具的主力,而電動車若要完全取代目前以內燃機動力為主的運輸工具,如何提升動力來源以及如何儲存電能係為兩大關鍵門檻;除此之外,如何提升電動車的續航力,提升電池的比容量,如何讓電池的充電時間縮短,提升充電速度,亦是電動車提高運輸工具市場佔有率以及取代目前動力模式的核心議題。由此觀之,先進的電池是解決電動車提升動力來源以及儲存電力的解決之道。目前電動汽車市場最主流的議題莫過於對高倍率快速充電電池的需求,以先進鋰離子電池儲能元件快速充電解決電動車市場因電池慢充快放所產生的充電時間冗長的問題。據此,本研究係討論高速充電車載電源系統的商業模式,發現高速充電車載電源系統必須在電池製造商的專利技術下,減少電池製程的不穩定性以及電池製程開發成本,以滿足消費者高充電速度以及高續航量能、高循環壽命、體積輕薄、安全性、以及成本負擔的需求。對於高速充電車載電源系統的未來展望,係可與電動車車體輕量化技術整合,讓電動車產業進入下一波的革新。
    In the light of environmental protection, electric vehicles could become the main transportation, and also could replace the vehicles powered by internal combustion engines once the thresholds of the improvement of power source and the mechanism of power storage could be surpassed. Furthermore, the endurance of electric vehicles, the capacity of the battery, the time of battery recharging, the speed of recharging, are the centers for the market of electric vehicles. For that, the advanced battery is the answer to improve the power of the electric vehicle as well as the power storage, and how to combine the development of advanced lithium-ion battery with the market of the electric vehicle is a critical issue. Hence, the paper is to discuss the business model of a high-speed vehicle power charging system. Through the discussion, this system should be satisfied with consumers in the demands of high charging speed, high power endurance, high recycle life, lightweight, safety, and affordability, by decreasing the instability and the costs of battery manufacturing under the management of patented technology. For the future perspective of high-speed vehicle power charging system, it can be integrated with the lightweight technology of electric vehicle body, to bring the electric vehicle industry into the next revolution.
    Reference: 一、中文部分
    Patentcloud(2021),電動車專利趨勢與技術軌跡-第1部分:底盤控制系統。取自https://www.inquartik.com.tw/electric-vehicle-patent-trends-technology-trajectory-part-1-the-chassis-control-system/
    王柏崴(2014),價值主張共鳴性、品牌認同感、品牌社群認同對購買意願之研究:以平價服飾產業為例(未出版碩士論文)。台北科技大學,台北市。
    王鼎鑫(2015),考量電池放電深度之學習式能源管理策略(未出版碩士論文)。清華大學,新竹市。
    台灣電力股份有限公司(2011),電動車充電對電力品質及電力供應影響之研究。台灣電力股份有限公司九十九年度研究計畫TPC-546-4102-9904。
    何芳瑜(2017),以價值主張觀點探討綠色企業之價值共創:以歐萊德為例(未出版碩士論文)。成功大學,台南市。
    何婷真(2009),電動車產業策略聯盟夥伴選擇之研究(未出版碩士論文)。交通大學,新竹市。
    吳玉瑩(2020),下世代汽車發展趨勢及台灣的出路。經濟前瞻,188,102-106。
    吳明豪(2017),電池組裝製造廠之經營策略分析(未出版碩士論文)。中央大學,桃園市。
    吳家瑋(2020),以多目標規劃探討我國電動車之充電服務方式(未出版碩士論文)。台灣大學,台北市。
    吳栢妤(2019),IT需求持續/電動車看漲,鋰離子電池市場穩步成長。新通訊元件雜誌,取自https://www.2cm.com.tw/2cm/zh-tw/market/DCDF8CDDEF334 AC084A3A275FF259091
    呂承璋、蔡季勳、林昱宏、黃瑞雄(2017),應用於電動車輛之電池與材料。機械工業雜誌,409,42-52。
    李文庭(2011),新產品屬性購買偏好之研究:以電動車為例(未出版碩士論文)。淡江大學,新北市。
    李婕漪、葉智丞(2020),大學生購買電動機車行為之研究:以Gogoro為例。危機管理學刊,17(2),101-110。
    李勝隆(2012),應用模糊層級分析法探討我國電動車電池技術之發展策略(未出版碩士論文)。中央大學,桃園市。
    周文賢、張欽富(2000),聯合分析在產品設計之運用。台北:華泰書局。
    林正乾、程斯偉、戴亞霖、李佩珊(2012),植基於燃料電池與鋰離子電池混合動力之電動車研製。車輛工程學刊,9,39-52。
    林冠廷、潘孟暐、黃靚宜、林若蓁、曾世昌、游國輝、任國光(2020),國內外電動巴士發展現況與成本效益研析。台灣經濟研究月刊,43(7),127-136。
    林南舟(2019),台灣地區電動車相關產業投資行為研究(未出版碩士論文)。淡江大學,新北市。
    林洸銘(2020),分散型燃料電池混合電力系統之能源管理及最佳化(未出版碩士論文)。台灣大學,台北市。
    林盈汝(2010),考量顧客偏好的新產品服務系統設計與評估:以電動汽車電池服務系統為例(未出版碩士論文)。成功大學,台南市。
    林哲逸(2016),自動維持超級電容高利用率之電池:超級電容混合系統設計(未出版碩士論文)。交通大學,新竹市。
    林荔弘(2017),電池發展趨勢之研究以電動巴士電池為例(未出版碩士論文)。逢甲大學,台中市。
    林崇德(2018),以層級分析法探討中高齡者選擇電動機車之考量因素(未出版碩士論文)。南開科技大學,南投縣。
    邱逸家(2019),電動車電池模組之可靠度分析與設計調整(未出版碩士論文)。台灣大學,台北市。
    柯嘉城(2021),電動車電池系統發展。工業材料雜誌,410,125-133。
    科技新報(2021),2021電車襲來,全球主要電動車市場分析:2021 成長 40%,總銷量超越三百萬輛。取自https://technews.tw/2021/01/19/global-electric-vehicle-market-analyze-2021/
    范詠婷(2015),鋰離子電池複合正極材料的合成、改質及其電化學特性研究(未出版碩士論文)。交通大學,新竹市。
    徐嘉駿、張文智(2017),消費者的產品涉入度與價值主張認同度之關係探討:以台灣電動機車市場為例。工業設計,135,51-56。
    真鋰研究(2017),2017-2018年鋰電池市場發展情況分析與預測。取自https:// kknews.cc/zh-tw/car/peebbaj.html
    袁文璞(2019),具線上循環壽命估測與延壽機能之回收大型電動車鋰離子電池管理系統開發(未出版碩士論文)。中原大學,桃園市。
    袁文璞(2019),具線上循環壽命估測與延壽機能之回收大型電動車鋰離子電池管理系統開發(未出版碩士論文)。中原大學,桃園市。
    財團法人中技社(2018),台灣發展自駕車之挑戰與影響:產業發展之挑戰。財團法人中技社。
    財團法人專利檢索中心(2016),鋰離子電池技術之專利分析。財團法人專利檢索中心。
    游美惠(2000),內容分析、文本分析與論述分析在社會研究的運用。調查研究,8,5-42。
    張又仁(2019),基於共享經濟之電動車車隊調度及最佳化充電排程(未出版碩士論文)。台灣大學,台北市。
    張宇琦(2020),台灣地區推廣電動車之電力需求預測與環境衝擊(未出版碩士論文)。中國文化大學,台北市。
    張高瑋(2019),顧客價值主張與商業模式之建立:以糕餅業者S公司為例(未出版碩士論文)。政治大學,台北市。
    張菀菁(2014),從特斯拉的平台領導策略探究中華電動機車之發展契機(未出版碩士論文)。清華大學,新竹市。
    張榮芳、張亞清、洪健瑄(2015),含電動車負載之配電系統規劃。高苑學報,20(2),1-7。
    陳玉蕙(2013),台灣電動車產業需求面商業模式(未出版碩士論文)。中央大學,桃園市。
    陳金銘(2018a),電動車動力鋰電池市場與應用(上)。工業材料雜誌,379,42-50。
    陳金銘(2018b),電動車動力鋰電池市場與應用(下)。工業材料雜誌,380,139-148。
    陳建財(2016),探討電動車電池之發展趨勢:情境分析法之應用(未出版碩士論文)。清華大學,新竹市。
    陳柏彣、曹嘉(2019),電動車動力系統架構評估與分析。機械工業雜誌,439,26-31。
    彭慧寧(2009),電動車磷酸鋰鐵電池產業之策略分析(未出版碩士論文)。交通大學,新竹市。
    智研諮詢(2015),中國超級電容器市場研究及投資前景分析報告。北京:智研諮詢集團。
    黃柏棋(2017),台灣電動車產業結構與發展策略之情境分析(未出版碩士論文)。台灣大學,台北市。
    葉喬凱(2020),電動車用鋰電池模組之可靠度分析與最佳化設計(未出版碩士論文)。台灣大學,台北市。
    董容(2018),電動機車使用者滿意度對其再購買意願之影響:環保態度之調節效果(未出版碩士論文)。東海大學,台中市。
    聚和國際股份有限公司(2021),鋰離子電池市場之未來發展趨勢。取自https:// www.hopax.com.tw/部落格/the-global-lithium-ion-battery-market
    趙建維(2018),價值主張之商業模式:以衣芮內衣為例(未出版碩士論文)。政治大學,台北市。
    蔡志祥(2019),電動汽車儲能對電網售電營運模式之成本有效性分析(未出版碩士論文)。政治大學,台北市。
    鄭沛軒(2017),整合電動車與再生能源並落實共享經濟於住宅型社區之電力需求管理系統(未出版碩士論文)。台灣大學,台北市。
    鄭佳維(2015),台灣電動車產業針對中國大陸市場之發展策略(未出版碩士論文)。交通大學,新竹市。
    謝侑璇(2018),利用新型電解液添加劑提升鋰離子電池的電性表現以及安全性(未出版碩士論文)。中央大學,桃園市。
    謝書軒(2016),建構一電動車導入投資計畫評估之多準則決策支援系統(未出版碩士論文)。成功大學,台南市。
    謝騄璘(2021),全球電動車市場潛力與商機。機械工業雜誌,454,43-49。
    藍亦維、何祥瑋(2018),車用高功率密度電動動力系統發展技術。機械工業雜誌,421,48-54。
    魏淑娟(2018),從內部行銷觀點探討紙品容器製造公司之價值主張:以俊侑股份有限公司為例(未出版碩士論文)。朝陽科技大學,台中市。

    二、英文部分
    Aaker, D. A., & Shansby, J. G. (1982). Positioning your product. Business Horizons, 25(3), 56-62.
    Ajzen, I. (1985). From intentions to actions: a theory of planned behavior. In J. Kuhl and J. Beckmann (Eds.), Action Control (pp. 11-39). Springer Berlin Heidelberg.
    Ajzen, I. (1989). Attitude structure and behavior. In A. R. Pratkanis, S. J. Breckler, and A. G. Greewald (Eds.), Attitude Structure and Function (pp. 241-274). Lawrence Erlbaum Associate, Inc.
    Akbarzadeh, M., Jaguemont, J., Van Mierlo, J., & Berecibar, M. (2021). Experimental analysis of a liquid-based cooling system for fast charging of a high-power lithium ion cell. Energy, 2(1), 1-13.
    Ali, M. U., Zafar, A., Nengroo, S. H., Hussain, S., Junaid Alvi, M., & Kim, H. J. (2019). Towards a smarter battery management system for electric vehicle applications: a critical review of lithium-ion battery state of charge estimation. Energies, 12(3), en12030446.
    Baldassarre, B., Calabretta, G., Bocken, N. M. P., & Jaskiewicz, T. (2017). Bridging sustainable business model innovation and user-driven innovation: a process for sustainable value proposition design. Journal of Cleaner Production, 147, 175-186.
    Bandura, A. (1997). Self-Efficacy: the Exercise of Control. New York: Freeman.
    Barrett, M., Davidson, E., Prabhu, J., & Vargo, S. L. (2015). Service innovation in the digital age. MIS Quarterly, 39(1), 135-154.
    Biao, J., Fangfang, L., Wen, A., Zhiqiang, X., & Xun, G. (2020). Thermal-electric coupling simulation of the soft connector for vehicle lithium-ion power battery. In 2020 12th International Conference on Measuring Technology and Mechatronics Automation (ICMTMA) (pp. 173-176). IEEE.
    Carkhuff, B. G., Demirev, P. A., & Srinivasan, R. (2018). Impedance-based battery management system for safety monitoring of lithium-ion batteries. IEEE Transactions on Industrial Electronics, 65(8), 6497-6504.
    Chen, C. M., Liu, H. M., & Ann, B. Y. (2018). Product attributes and purchase intention for smartphones: a moderated mediation model. International Journal of Mobile Communications, 16(1), 1-23.
    Chen, A., Zhang, W., Zhang, C., Huang, W., & Liu, S. (2019). A temperature and current rate adaptive model for high-power lithium-titanate batteries used in electric vehicles. IEEE Transactions on Industrial Electronics, 67(11), 9492-9502.
    Chiu, C.-M., Hsu, M.-H. & Wang, E. T. G. (2006). Understanding knowledge sharing in virtual communities: an integration of social capital and social cognitive theories. Decision Support Systems, 42(3), 1872-1888.
    Copeland, M. T. (1923). Relation of consumers` buying habits to marketing methods. Harvard Business Review, 1(2), 282-289.
    Cui, G. (2020). Reasonable design of high-energy-density solid-state lithium-metal batteries. Matter, 2(4), 805-815.
    Davis, F. D. (1989). Perceived usefulness, perceived ease of use, and user acceptance of information technology. MIS Quarterly, 13(3), 319-340.
    Dennis, A. R., Wixom, B. H. & Vandenberg, R. J. (2001). Understanding fit and appropriation effects in group support systems via meta-analysis. MIS Quarterly, 25(2), 167-193.
    Dhar, R., & Sherman, S. J. (1996). The effect of common and unique features in consumer choice. Journal of Consumer Research, 23(3),193-203.
    Fishbein, M., & Ajzen, I. (1975). Belief, Attitude, Intention and Behavior: an Introduction to Theory and Research Reading. MA: Addison-Wesley.
    Frow, P., & Payne, A. (2011). A stakeholder perspective of the value proposition concept. European Journal of Marketing, 45(1/2), 223-240.
    Furrer, O., Sudharshan, D., Tsiotsou, R. H., & Liu, B. S. (2016). A framework for innovative service design. The Service Industries Journal, 36(9-10), 452-471.
    Ge, S., Leng, Y., Liu, T., Longchamps, R. S., Yang, X. G., Gao, Y., Wang, D., Wang, D., & Wang, C. Y. (2020). A new approach to both high safety and high performance of lithium-ion batteries. Science Advances, 6(9), eaay7633.
    Goldman Sachs (2016). Global Lithium Market Outlook. Albemarle.
    Goodhue, D. L. & Thompson, R. L. (1995). Task-technology fit and individual performance. MIS Quarterly, 19(2), 213-236.
    Goucher-Lambert, K., & Cagan, J. (2015). The impact of sustainability on consumer preference judgments of product attributes. Journal of Mechanical Design, 137(8), 081401-1-081401-11.
    Gustafson, C. R., Lybbert, T. J., & Sumner, D. A. (2016). Consumer knowledge affects valuation of product attributes: experimental results for wine. Journal of Behavioral and Experimental Economics, 65, 85-94.
    Hong, S. T., & Wyer, R. S. (1989). Effects of country-of-origin and product-attribute information on product evaluation: an information processing perspective. Journal of Consumer Research, 16(2), 175-187.
    Hsu, M.-H., Ju, T.L., Yen, C.-H. & Chang, C.-M. (2007). Knowledge sharing behavior in virtual communities: the relationship between trust, self-efficacy, and outcome expectations. International Journal of Human-Computer Studies, 65(2), 153-169.
    Huang, Q., Li, J., & Chen, Y. (2010). Control of electric vehicle. In S. Soylu (Eds.), Urban Transport and Hybrid Vehicles (pp. 163-192). InTech Open.
    Huang, Y., Yang, H., Zhang, Y., Zhang, Y., Wu, Y., Tian, M., Chen, P., Trout, R., Ma, Y., Wu, T., Wu, Y., & Liu, N. (2019). A safe and fast-charging lithium-ion battery anode using MXene supported Li 3 VO 4. Journal of Materials Chemistry A, 7(18), 11250-11256.
    Ibarra, D., Ganzarain, J., & Igartua, J. I. (2018). Business model innovation through Industry 4.0: a review. Procedia Manufacturing, 22, 4-10.
    Kang, D., Lee, P. Y., Yoo, K., & Kim, J. (2020). Internal thermal network model-based inner temperature distribution of high-power lithium-ion battery packs with different shapes for thermal management. Journal of Energy Storage, 27, 101017.
    Kaplan, R. S., & Norton, D. P. (2004). The strategy map: guide to aligning intangible assets. Strategy & Leadership, 32(5), 10-17.
    Karahanna, E., Agarwal, R. & Angst, C.M. (2006). Reconceptualizing compatibility beliefs in technology acceptance research. MIS Quarterly, 30(4), 781-804.
    Kim, H. W., Chan, H. C., & Gupta, S. (2007). Value-based adoption of mobile internet: an empirical investigation. Decision Support Systems, 43(1), 111-126.
    Kim, D. S., Kim, Y. E., & Kim, H. (2019). Improved fast charging capability of graphite anodes via amorphous Al2O3 coating for high power lithium ion batteries. Journal of Power Sources, 422, 18-24.
    Kotler, P. (1997). Marketing Management: Analysis, Planning, Implementation and Control. New Jersey: Prentice Hall.
    Kotler, P., & Armstrong, G. (2008). Principles of Marketing. Upper Saddle River, NJ: Prentice Hall.
    Kotler, P., & Keller, K. L. (2006). Marketing Management. Upper Saddle River, NJ: Pearson Prentice Hall.
    Kotler, P., Ang, S. H., & Tan, C. T. (1996). Marketing and Management: an Asian Perspective. Research Collection Lee Kong Chian School of Business.
    Kowalkowski, C., Ridell, O. P., Röndell, J. G., & Sörhammar, D. (2012). The co-creative practice of forming a value proposition. Journal of Marketing Management, 28(13-14), 1553-1570.
    Kyhnau, J., & Nielsen, C. (2015). Value proposition design: how to create products and services customers want. Journal of Business Models, 3(1), 81-92.
    Lin, B.-W. & Chen, C.-J. (2006). Fostering product innovation in industry networks: the mediating role of knowledge integration. International Journal of Human Resource Management, 17(1), 155-173.
    Lindič, J., & da Silva, C. M. (2011). Value proposition as a catalyst for a customer focused innovation. Management Decision, 49(10), 1694-1708.
    Liu, J., Zhao, P. F., & Huang, J. (2019). Battery management of new energy vehicle based on CFD. International Journal of Mechatronics and Applied Mechanics, 5, 143-155.
    Mai, L. W., & Ness, M. R. (1999). Canonical correlation analysis of customer satisfaction and future purchase of mail-order speciality food. British Food Journal, 101(11), 857-870.
    Osterwalder, A. & Pigneur, Y. (2010). Business Model Generation: a Handbook of Visionaries, Game Chargers, and Challengers. John Wiley & Sons: Hoboken, New Jersey.
    Osterwalder, A., & Pigneur, Y. (2012). Designing business models and similar strategic objects: the contribution of IS. Journal of the Association for Information Systems, 14(special issue), 237-244.
    Osterwalder, A., Pigneur, Y., Bernarda, G., & Smith, A. (2014). Value Proposition Design: How to Create Products and Services Customers Want. John Wiley & Sons.
    Parida, V., Sjödin, D. R., Lenka, S., & Wincent, J. (2015). Developing global service innovation capabilities: How global manufacturers address the challenges of market heterogeneity. Research-Technology Management, 58(5), 35-44.
    Pieroni, M. P., McAloone, T. C., & Pigosso, D. C. (2019). Business model innovation for circular economy and sustainability: a review of approaches. Journal of Cleaner Production, 215, 198-216.
    Rogers, E. (1995). Diffusion of Innovations. Free Press, New York.
    Schmidt, A., Smith, A., & Ehrenberg, H. (2019). Power capability and cyclic aging of commercial, high power lithium ion battery cells with respect to different cell designs. Journal of Power Sources, 425, 27-38.
    Schuitema, G., & De Groot, J. I. (2015). Green consumerism: the influence of product attributes and values on purchasing intentions. Journal of Consumer Behaviour, 14(1), 57-69.
    Stanton, W., Etzel, M., & Walker, B. (1991). Fundamentals of Marketing. New York: McGraw-Hill, Inc.
    Storey, C., Cankurtaran, P., Papastathopoulou, P., & Hultink, E. J. (2016). Success factors for service innovation: a meta‐analysis. Journal of Product Innovation Management, 33(5), 527-548.
    Takami, N., Ise, K., Harada, Y., Iwasaki, T., Kishi, T., & Hoshina, K. (2018). High-energy, fast-charging, long-life lithium-ion batteries using TiNb2O7 anodes for automotive applications. Journal of Power Sources, 396, 429-436.
    The Faraday Institution (2020). High-Energy Battery Technologies. Faraday Institution.
    Tornatzky, L. G. & Klein, K.J. (1982). Innovation characteristics and innovation adoption-implementation: a meta-analysis of findings. IEEE Transactions on Engineering Management, 29(1), 28-45.
    Visnjic, I., Wiengarten, F., & Neely, A. (2016). Only the brave: Product innovation, service business model innovation, and their impact on performance. Journal of Product Innovation Management, 33(1), 36-52.
    Witell, L., Snyder, H., Gustafsson, A., Fombelle, P., & Kristensson, P. (2016). Defining service innovation: a review and synthesis. Journal of Business Research, 69(8), 2863-2872.
    Wu, Y., Wang, W., Ming, J., Li, M., Xie, L., He, X., Wang, J., Liang, S., & Wu, Y. (2019). An exploration of new energy storage system: high energy density, high safety, and fast charging lithium ion battery. Advanced Functional Materials, 29(1), 1805978.
    Yang, X. G., & Wang, C. Y. (2018). Understanding the trilemma of fast charging, energy density and cycle life of lithium-ion batteries. Journal of Power Sources, 402, 489-498.
    Zhang, B., Wang, L., Li, L., Lei, X., & Ju, Y. (2021). Vehicle assignment considering battery endurance for electric vehicle carsharing systems. Journal of Advanced Transportation, 2021, 1-17.
    Zigurs, I. & Buckland, B. K. (1998). A theory of task/technology fit and group support systems effectiveness. MIS Quarterly, 22(3), 313-334.
    Description: 碩士
    國立政治大學
    經營管理碩士學程(EMBA)
    107932092
    Source URI: http://thesis.lib.nccu.edu.tw/record/#G0107932092
    Data Type: thesis
    DOI: 10.6814/NCCU202101273
    Appears in Collections:[經營管理碩士學程EMBA] 學位論文

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