energy-efficient的問題,透過圖書和論文來找解法和答案更準確安心。 我們找到下列包括價格和評價等資訊懶人包

energy-efficient的問題,我們搜遍了碩博士論文和台灣出版的書籍,推薦寫的 Introduction to Development Engineering: A Framework with Applications from the Field 和的 Handbook of Sustainable Development Through Green Engineering and Technology都 可以從中找到所需的評價。

另外網站Energy efficiency | ABB也說明:Drives help lower energy consumption by using energy efficiently. Drives adjust the speed of electric motors to match the actual application demand.

這兩本書分別來自 和所出版 。

世新大學 資訊管理學研究所(含碩專班) 吳聲昌所指導 戴成煜的 導入智慧建築之實務研究 (2022),提出energy-efficient關鍵因素是什麼,來自於智慧建築、物聯網、社區管理。

而第二篇論文東海大學 景觀學系 吳佩玲所指導 張玟豫的 探討發展都市農園於改善熱島效應-以旱溪為例 (2021),提出因為有 都市農園、永續性、都市熱島效應、城市綠網、人地關係、全球暖化的重點而找出了 energy-efficient的解答。

最後網站Energy Efficiency - The Trillion-Dollar Opportunity | Danfoss則補充:Energy efficiency is the quickest and most affordable way to decarbonize our economy. See why energy efficient solutions are key to the climate change ...

接下來讓我們看這些論文和書籍都說些什麼吧:

除了energy-efficient,大家也想知道這些:

Introduction to Development Engineering: A Framework with Applications from the Field

為了解決energy-efficient的問題,作者 這樣論述:

Ashok J. Gadgil is Faculty Senior Scientist and former Director of the Energy and Environmental Technologies Division at Lawrence Berkeley National Laboratory. He is also Professor of Civil and Environmental Engineering at the University of California, Berkeley. He specializes in heat transfer, flui

d dynamics, and technology design for development. He also has substantial experience in technical, economic, and policy research on energy efficiency and its implementation - particularly in developing countries. Two of his best-known technologies for the developing-world are "UV Waterworks" (a sim

ple, effective, and inexpensive water disinfection system), and the Berkeley-Darfur Stove (a low-cost stove that saves fuelwood in internally displaced person’s camps in Darfur). In early 1990s, he analyzed the potential for large utility-sponsored projects to promote energy efficient electric light

ing in poor households in developing countries, then teamed up with others to design and demonstrate such projects. These have become commonplace in dozens of developing countries since 2000 onward, saving billions of dollars annually to their economies. Gadgil holds a Ph.D. in Physics from the Univ

ersity of California, Berkeley and an M.Sc. in Physics from Indian Institute of Technology, Kanpur.Temina Madon is Executive Director of the Center for Effective Global Action (CEGA), a research network headquartered at UC Berkeley that focuses on the design and rigorous evaluation of anti-poverty p

olicies, services, and technologies. In this role, Madon oversees the Development Impact Lab, a USAID-funded consortium of universities leveraging science and engineering to accelerate global economic development. She also spearheads multiple initiatives to build scientific capacity in developing co

untries, particularly in the areas of economics and public health. She has served as an advisor to the World Health Organization on implementation research and has consulted for the World Bank, the International Initiative for Impact Evaluation, and the Bill and Melinda Gates Foundation. Earlier, Ma

don served as founding executive director of the Center for Emerging and Neglected Diseases at UC Berkeley. From 2006 to 2008, she was the science policy analyst for the Fogarty International Center at the National Institutes of Health (NIH). Prior to this, she led a portfolio of global health initi

atives for the U.S. Senate HELP Committee (under the leadership of Senator Edward Kennedy) as a AAAS Science and Technology Policy Fellow. She received a PhD in 2004 from UC Berkeley and a BS in 1998 from MIT.Michael Callen is professor of economics and strategic management at the Rady School of Man

agement at University of California, San Diego. He uses experiments to identify ways to address accountability and service delivery failures in the public sector, working primarily in Afghanistan and in Pakistan. His primary interests are political economy, development economics, and experimental ec

onomics. Before coming to the Rady School, Callen was an Assistant Professor of Public Policy at the Harvard Kennedy School and an Assistant Professor of Political Science at the University of California, Los Angeles. As a post doc, Callen was a visiting faculty member at the University of Californi

a, Berkeley Center for Effective Global Action and the UC San Diego Institute on Global Conflict and Cooperation. Callen has received research grants from the International Growth Center (IGC), South Asia Institute, Harvard University, Department for International Development, Consortium for Financi

al Systems and Poverty, Policy Design and Evaluation Laboratory, Center for Effective Global Action and the Development Innovation Lab (UC Berkeley). He also won the Innovate Award from the Development Innovation Lab from UC Berkeley. Callen earned his Ph.D. in Economics from the University of Calif

ornia, San Diego and his B.Sc. in Econometrics and Mathematical Economics from the London School of Economics and Political Science.Catherine Wolfram is the Cora Jane Flood Professor of Business Administration at the Haas School of Business, UC Berkeley. She is also Faculty Director of the Energy In

stitute at Haas and of The E2e Project, a research organization focused on energy efficiency. She is program director of the Environmental and Energy Economics program at the National Bureau of Economic Research and an affiliated faculty member in the Agriculture and Resource Economics department an

d the Energy and Resources Group at Berkeley. Wolfram has published extensively on the economics of energy markets. She has studied the electricity industry around the world and has analyzed the effects of environmental regulation, including climate change mitigation policies, on the energy sector.

She is currently implementing several randomized controlled trials to evaluate energy programs in the U.S., Kenya and India. She received a PhD in economics from MIT in 1996 and an AB from Harvard in 1989. Before joining the faculty at UC Berkeley, she was an assistant professor of economics at Harv

ard.

energy-efficient進入發燒排行的影片

As I continue to use Shiftry, I realise that this Pokemon is a very deadly Pokemon especially with it’s high energy charging fast move, Snarl, and also Leaf Blade which is a very energy efficient move.

Join me as I travel, eat and play Pokémon GO the way a local trainer would in their own country and city. Visiting one country and one city at at time through Pokémon GO.

Subscribe if you would like to watch my Pokémon GO travel adventure as I visit different countries, cities and communities, https://tinyurl.com/y65jruw2

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導入智慧建築之實務研究

為了解決energy-efficient的問題,作者戴成煜 這樣論述:

現代人對於科技要求越來越進步,逐漸地也想發展到人的週遭事物方面,而除了智慧型手機外,就是居住環境方面,為了求方便及科技並存,開始發展出智慧建築這項名詞,主要是結合科技、住家、環保等各條件所產生。本研究目的主要是了解建築業者如何將科技導入房屋內,做整合性的服務,並且知道目前智慧建築業者所面臨到的現況與如何去改善。本研究透過質性訪談方式,訪問相關建築背景之負責人來做出探討,探討業界的專家是如何看待智慧建築,以及相關的想法。從研究訪談結果得知,智慧建築業者對於結合物聯網科技,讓使用者可以更加便利,另外智慧建築系統導入社區管理應用與在政策的鼓勵或限制都是會影響的關鍵因素。

Handbook of Sustainable Development Through Green Engineering and Technology

為了解決energy-efficient的問題,作者 這樣論述:

Green engineering involves the designing, innovation, and commercialization of products and processes which promote sustainability without eliminating both efficiency and economic viability. This handbook focuses on sustainable development through green engineering and technology. It is intended

to address the applications and issues involved in their practical implementation.A new range of renewable-energy technologies, modified to provide green engineering, will be described in this handbook. It will explore all green technologies required to provide green engineering for the future.These

include, but are not limited to, green smart buildings, fuel-efficient transportation, paperless offices, and many more energy-efficient measures.Handbook of Sustainable Development through Green Engineering and Technology acts as a comprehensive reference book to use when identifying development f

or programs and sustainable initiatives within the current legislative framework. It aims to be of great interest to researchers, faculty members, and students across the globe.

探討發展都市農園於改善熱島效應-以旱溪為例

為了解決energy-efficient的問題,作者張玟豫 這樣論述:

台灣地狹人稠,人口和產業朝向都市集中的趨勢更為明顯,都市化程度已高達 79.9%。行政院經濟建設委員會所建構的「台灣永續發展指標系統」中也特別區分出都市台灣 (Urban Taiwan) 的體系,足見都市的發展攸關整體環境的永續性。美國亞利桑那州立大學聯合全球各地的大專機構,透過大數據的蒐集,計量倘若全球各城市全面實施都市農業,每年可生產多達1.8億噸糧食,也可以緩解都市熱島效應,本研究針對都市農園之永續發展以旱溪的鳥竹圍公園為例進行設計,藉由台中市政府推行的綠美化政策提升人均綠地面積,針對旱溪周遭綠地與裸地和公園尋找適合的場地,研究工具應用都市設計審議綠化量得降溫有效的計算,對都市熱

島效應的了解,從一個綜觀的角度來檢視都市的發展是否符合環境永續性的要求,包括能源使用、水泥化程度、綠覆率、水循環和空氣污染等。若能在都市閒置土地增加農園,便能為當地帶來糧食生產與經濟效益,易能減緩都市熱島效應。