走在汽車革命的路上論文書籍站
國立清華大學 國際專業管理碩士班 劉玉雯所指導 謝竣博的 從汽油到鋰電池: 檢驗電動車在台灣所面臨的障礙以及相對應的政策 (2020),提出2014 cr v 油耗關鍵因素是什麼,來自於創新擴散理論、電動車、交通政策、台灣。
而第二篇論文國防大學理工學院 車輛及運輸工程碩士班 周志正所指導 戴黃斌的 應用Ni-W複合鍍膜活塞環於氣冷式汽油引擎特性之研究 (2019),提出因為有 鎳基鍍膜、氣冷式引擎、活塞環的重點而找出了 2014 cr v 油耗的解答。
從汽油到鋰電池: 檢驗電動車在台灣所面臨的障礙以及相對應的政策
為了解決2014 cr v 油耗 的問題,作者謝竣博 這樣論述:
This thesis explores the history of electric vehicle (EV) and its subsequent importance in the global effort to reverse the effects of global warming, examining the policies implemented by other nations and comparing it with the current and potential future EV diffusion policy. The ongoing effort t
o replace vehicles that uses internal combustion engine (ICE) with zero emission EVs in industrialized nations has enjoyed various levels of success, as well as facing both political and technological barriers.Taiwan, with its dense population and urbanized environment, would benefit heavily from th
e electrification of the private transportation sector since the issue of air pollution has at the political forefront in recent years. However, the unique characteristics of the Taiwan does create barriers that is especially difficult to overcome. In order to suggest the most practical policy, a de
tailed analysis of the current one as well as the industry would be conducted, additional factors such as housing and politic would also be considered. The proposed policy would be designed the idea of practicality, something that is entirely doable with the current technological level and can achie
ve some level of results in the foreseeable future, instead of a policy that has surface-level progressiveness and would not be easily implemented due to the controversy and resistance it generates.The eventual findings of this research present a relatively realistic solution that causes minimal dis
turbance, which is the “hybrid” approach, opting to emphasize on adopting the hybrid electric vehicles as a more moderate bridge rather than focusing on the electric vehicles which still has technical issues that needs to be solved before it can be widely adopted in Taiwan.
應用Ni-W複合鍍膜活塞環於氣冷式汽油引擎特性之研究
為了解決2014 cr v 油耗 的問題,作者戴黃斌 這樣論述:
誌謝 i摘要 iiAbstract iii目錄 iv表目錄 viii圖目錄 ix符號表 xvi1. 緒論 11.1.研究背景 11.2.研究動機與目的 11.3.文獻回顧 31.3.1氣冷式引擎特性 31.3.2鎳基合金複合鍍膜 51.3.3引擎部件與對其燃油經濟性、性能和磨損影響 71.4.研究流程與架構 92. 研究理論 102.1.氣冷式引擎汽缸本體溫度分佈 102.1.1 氣冷式引擎汽缸內部溫度分佈 102.1.2 氣冷式散熱系統散熱鰭片溫度分佈 112.1.3 溫度量測的原理 112.2.電鍍與鎳基鍍膜之特性 132.2.1電鍍理論與機
制[30] 132.2.2電鍍鎳基鍍層簡介 142.2.3磨潤基礎理論[30] 142.3.引擎性能參數演算 172.3.1 引擎性能參數 182.3.2 引擎廢氣產生機制 192.3.3 活塞環張力測量與面壓特性 213. 研究方法與設備 233.1.實驗方法 233.1.1溫度量測點安裝作業 233.1.2活塞環鍍層製作與特性檢測 253.1.3鍍層活塞環引擎性能測試 263.2.實驗設備與儀器 263.2.1引擎 283.2.2動力計 293.2.3油耗量測設備 303.2.4廢氣量測設備 313.2.5風機風量量測設備 323.2.6輔助風機設備
323.2.7控制參數輸入操作系統單元 333.2.8維式硬度儀 333.2.9掃描式電子顯微鏡 353.2.10壓痕與刮痕實驗機 363.2.11多功能磨耗實驗機 374.結果與討論 384.1.實驗規劃及條件設計 384.2.活塞環鍍層製作、尺寸差異與機械性質分析 404.3.不同鍍層對引擎性能之影響與分析 454.3.1引擎汽缸溫度(Tsc) 454.3.2引擎制動平均有效壓力(Bmep)與熱效率(ηf) 494.3.3 引擎燃空當量比(ψ)與燃油質量流率(Mf) 574.3.4 引擎排汙(HC、CO)與排氣溫度(Tep) 634.4.最佳汽缸溫度之不同鍍層特
性分析 714.5.耐久測試之磨耗分析 835. 結論 865.1.研究成果 865.2.未來研究規劃 87參考文獻 88附錄A 94活塞環鍍層後處理與安裝注意事項[43] 94活塞環的安裝和拆卸注意事項[43] 101自傳 104