「可持續智能城鎮化」第138期可持續發展沙龍系列研討課
Campuses as Living Laboratories
校園:有生命的實驗室
時間:2015年11月26日 (星期四)18:30--20:10
地點:同濟大學四平路校區 文遠樓3樓報告廳
主講人:Prof.Volker Hartkopf
自1972年起,Hartkopf教授在卡耐基梅隴大學任教,其工作涵蓋了諸多重要領域:國際交流、學術研究與建築集成、先進技術、建築節能、城市再生與第三世界居住和災害預防等領域的專業諮詢。在德國、孟加拉國、秘魯與美國,他是著名的建築師,同時也為沃爾夫斯堡市、2000年漢諾瓦世博會、柏林-利希滕貝格市等提供了總體規劃諮詢。
在1975年,Hartkopf教授發起並領導了美國國家基金與建築產業的首屆建築、工程與規劃跨學科項目。在1981年,他協同創辦了卡耐基梅隴大學的建築性能與診斷中心(CBPD)。在1981到1985年期間,Hartkopf教授與Vivian Loftness,Peter A.D. Mill領導了在加拿大的公共建築產品的建築性能評價方法項目。基於建築性能研發需求,Hartkopf教授發起了先進建築系統集成聯盟(ABSIC),吸納了建築產業領域領袖、六個美國政府部門、兩個國際政府機構與卡梅隆大學。自從1988年運行後,該聯盟展示出其在物理、環境和社會領域的先進性。先進建築系統集成聯盟與卡耐基梅隴大學合作期間,成立並運行了1997年建立的Robert L Preger的智能工作空間。近期,先進建築系統集成聯盟第二個十年規劃提出了三個長期研發項目:生產力協議(Productivity Protocol),建築投資決策支持工具(Building Investment Decision Support Tool)與建築發電(Buildingas Power Plant)項目。
通過對理念、先進技術、建築性能決策的集成應用,建築性能與診斷中心完成了在美國、德國、中國、韓國和法國等多地的多個項目。由Hartkopf教授領導的團隊通過這些研究項目收穫了眾多國家級獎項。其中包括了在澳大利亞、歐洲和亞洲教育與主旨演講大獎,學術發表100餘篇。與此同時,他持續為眾多企業和政府部門提供決策諮詢,包括大眾、法國電氣、西門子、美國能源部等。近期,中心重點關注建築發電項目。該項目被美國國會評為建築先進技術的基準性項目,並將在卡耐基梅龍大學校園內6500平方米的範圍內建成試驗。
該項目將融合先進的建築效能技術與更新一代能源建築,如加熱、製冷、通風與照明,通過結合真實環境,儘可能最大化新能源的應用,並進一步推廣至全國和國際的更多項目。
Since 1972, Professor Hartkopf has been teaching and conducting research at Carnegie Mellon University. His work covers a broad range of activities: international initiatives, funded research and professional consulting on building systems integration, advanced technology, building performance, energy conservation, urban revitalization, third-world housing anddisaster prevention. He has realized as an architect building projects in Germany, Bangladesh, Peru and the United States. He also led master planning efforts for Volkswagen A.G. and the City of Wolfsburg, Germany; EXPO 2000Hanover and Berlin-Lichtenberg, Germany.
In 1975, Prof. Hartkopf co-initiated and subsequently directedthe first multi-disciplinary program in Architecture, Engineering and Planningin the USA with grants from the National Science Foundation and the building industry. In 1981, he co-founded the Center for Building Performance and Diagnostics (CBPD) at Carnegie Mellon. Between 1981-1985, Prof. Hartkopf developed jointly with Vivian Loftness and Peter A.D. Mill, the Total Building Performance Evaluation Method at Public Works Canada whilst on an Executive Interchange Program. Based on the R & D needs in building performance, Prof. Hartkopf has created and directs the Advanced Building Systems Integration Consortium (ABSIC), comprising leading building industries, six U.S. government agencies, two foreign governmental agencies and Carnegie Mellon. In operation since 1988, the consortium’s research and demonstration effort focuses on the impact of advanced technology on the physical, environmental, and social settings in office buildings, towards creating high performance work environments. ABSIC, in cooperation with Carnegie Mellon, has designed, constructed and maintained the Robert L Preger Intelligent Workplace, officially opened in the winter of 1997. Currently a second 10-year strategicplan is being pursued by ABSIC through three long-term R&D projects: the Productivity Protocol, the Building Investment Decision Support Tool and theBuilding as Power Plant.
The Center for Building Performance and Diagnostics, an NSF/IUCRC, has been instrumental in the application of systems integration concepts, advanced technologies and performance-based decision making for significant building projects in the USA Germany, China, Korea and France. The CBPD team with Prof. Hartkopf’s leadership has received numerous prestigious national awards for research. An award winning teacher and a frequent keynote speaker in Australia, Europe, Asia and the Americas, he has authored over 100 technical publications. He continues his consulting with such organizations as Daimler Chrysler, Volkswagen, Thyssen Krupp, Electricite de France, U.S. Department of State, U.S. Department of Energy, and Siemens.
Currently, Prof. Hartkopf is leading the Building as Power Plant (BAPP) project. The BAPP has been selected by the US Congress as the NationalTest-bed for Advanced Technology in Building. The 6,500 m2 project will berealized on the Carnegie Mellon Campus. The BAPP will integrate advancedenergy-effective building technologies with innovative energy generation systems, such that all of the buildings energy needs for heating, cooling, ventilating and lighting, as well as equipment are met on-site, maximizing theuse of renewable energies. Broader implementation of its concepts in industry and government here and abroad are expected.
報告摘要:
大學校園可為綠色建築、環境高效能源系統、水處理、節水、機動性、減廢和城鄉農業提供先鋒實驗。這些實驗可促進多學科及跨學科教研工作和先進項目的推廣及示範, 並為本科生與研究生提供更多可以參與到接觸貢獻社會、提升生活品質、生物多樣性、自然更新與面向未來經濟的機會。這不僅能夠保證研究生的長遠就業需求,還能夠為解決全球性的氣候變化提供不同區域背景、國家背景和地區背景的方法。
本講座將展示來自於匹茲堡市卡耐基梅龍大學的解決方案。卡耐基梅隴大學區域的空間規模與人口均排在賓夕法尼亞州社區的前5%。
University Campuses can provide leadingedge examples for Green building,Environmentally effective energy systems, Water management andconservation, Mobility, Waste elimination and Urban-rural agriculture.
These examples advance multi-disciplinary even trans-disciplinary education, research, development and demonstration of breakthrough projects.
Provide students and graduates opportunities to practice what they learned and experienced to the benefit ofsociety, quality of life, biodiversity and the regeneration of nature, as well as future proof economically. This will lead the graduates to secure long term employment, while successfully addressing climate change challenges within differentnational, regional, and local developmental contexts.
The presentation will show such examples achieved and underway at Carnegie Mellon University, Pittsburgh, Pennsylvania and abroad.
The size and population of the Carnegie Mellon University places the campus within the top 5% of communities of Pennsylvania.
CAUP官方微信平臺功能升級。師生校友及社會各界朋友可以通過同濟大學建築與城市規劃學院微信平臺了解學院更多最新動態。歡迎關注及推廣。長按二維碼圖,掃一掃可訂閱。
同濟大學建築與城市規劃學院官方平臺。發布權威信息,展示學院文化,服務師生校友。