Celebrating 125 Years

Reinventing A University Campus Energy Plan

Share This

©2020 This excerpt taken from the article of the same name which appeared in High Performing Buildings magazine, vol. 13, no. 3.

About the Authors
丝袜美女诱惑 Megan Sterl, P.E., PMP, CEM, LEED AP, is engineering and utilities manager, University Services at Montana State University, Bozeman, Montana. Kevin Amende, P.E., is associate professor, Department of Mechanical and Industrial Engineering at Montana State University, Bozeman, Montana.

Montana State University’s (MSU) campus in Bozeman, Montana, has bewcome a living laboratory to test building technologies that will achieve low carbon operation. This concept allows MSU to implement and analyze building technologies in conjunction with hands-on student research to inform campus decisions and the built environment industry. In addition, future campus energy strategy and building system concepts are being shaped by MSU students and industry professionals who are learning from MSU’s physical infrastructure.

MSU, which boasts a national and international reputation for excellence and research, is committed to a “reduce, reclaim and renewable” energy strategy on its campus that has more than 5 million gross square feet of buildings and 20,700 students. It reduces energy through a foundation of continued resource conservation and integrated design practices. Energy previously treated as waste is reclaimed wherever possible through MSU’s district energy philosophy. Renewable energy and systems that enable low carbon operation are integrated into building and utility infrastructure systems. Through this strategy, MSU is successfully demonstrating the energy strategy and technological transition needed to achieve a low carbon future in the built environment. The building and utility level approaches being implemented today will reshape the campus, commercial buildings and neighborhoods throughout Montana.


New Vision for a Low Carbon Future

The success of MSU’s first energy district pointed the way to a new vision for campus infrastructure and solidified the campus “reduce, reclaim and renewable” energy strategy. The ambitious idea of reclaiming wasted energy started with the retrofit of office/lab building Leon Johnson Hall in 2010. Constructed in 1976, the eight-story building was a textbook example of wasteful heating, ventilation and air conditioning. Offices lining the building’s perimeter use steam heating systems to replenish the warmth lost through windows and exterior walls. Meanwhile, even in winter, a steam absorption chiller extracted heat from air used to ventilate labs and other interior spaces warmed incidentally by bodies, computers and machinery. The extracted heat was discharged outdoors, unused.

丝袜美女诱惑The building retrofit proposed combining the heating and cooling systems into a central heat pump plant with the ability to accept future renewable energy sources such as geothermal or solar-generated energy. The simultaneous heating and cooling energy plant intended to reclaim heat from spaces that are too warm and transport it to areas that are too cool.

In 2011 when MSU graduate Jake Jabs announced an $18 million donation for a new building next door to house the business college, the ambitious idea of an energy district seemed possible: make the Leon Johnson central heat pump plant big enough it could service multiple buildings and enable energy sharing benefits.


Read the Full Article

  • Read the entire article on .
Close
秒速赛车【gd1133.com光大彩票】-新闻 秒速赛车【gd1100.com光大彩票】-法治 秒速赛车【gd1144.com光大彩票】-案件 秒速赛车【gd1155.com光大彩票】-检察 秒速赛车【gd1166.com光大彩票】-理论 秒速赛车【gd1177.com光大彩票】-新媒体 秒速赛车【gd9900.com光大彩票】-视频 秒速赛车【gd9911.com光大彩票】-评论 秒速赛车【gd9922.com光大彩票】-文化 秒速赛车【gd9933.com光大彩票】-人物 秒速赛车【gd9944.com光大彩票】-舆情 秒速赛车【gd9955.com光大彩票】-装备 丝袜美女诱惑 秒速赛车【gd9977.com光大彩票】-今日推荐 秒速赛车【gd1133.com光大彩票】-图片聚焦 秒速赛车【gd1100.com光大彩票】-以案说法 秒速赛车【gd1144.com光大彩票】-检察视界 秒速赛车【gd1155.com光大彩票】-城东区 秒速赛车【gd1166.com光大彩票】-城中区 秒速赛车【gd1177.com光大彩票】-城西区 秒速赛车【gd9900.com光大彩票】-城北区 秒速赛车【gd9911.com光大彩票】-大通县 秒速赛车【gd9922.com光大彩票】-湟中县 秒速赛车【gd9933.com光大彩票】-湟源县 秒速赛车【gd9944.com光大彩票】-经济技术开发区 秒速赛车【gd9955.com光大彩票】-城南新区 秒速赛车【gd9977.com光大彩票】-高新技术开发区 秒速赛车【gd1133.com光大彩票】-海湖新区 秒速赛车【gd1100.com光大彩票】-丝袜美女诱惑 秒速赛车【gd1144.com光大彩票】-滚动 秒速赛车【gd1155.com光大彩票】-国内 秒速赛车【gd1166.com光大彩票】-国际 秒速赛车【gd1177.com光大彩票】-军事 秒速赛车【gd9900.com光大彩票】-社会 秒速赛车【gd9911.com光大彩票】-财经 秒速赛车【gd9922.com光大彩票】-产经 秒速赛车【gd9933.com光大彩票】-房产 秒速赛车【gd9944.com光大彩票】-金融 秒速赛车【gd9955.com光大彩票】-证券 秒速赛车【gd9977.com光大彩票】-汽车 秒速赛车【gd1133.com光大彩票】-IT 秒速赛车【gd1100.com光大彩票】-能源 秒速赛车【gd1144.com光大彩票】-港澳 秒速赛车【gd1155.com光大彩票】-台湾 秒速赛车【gd1166.com光大彩票】-华人 秒速赛车【gd1177.com光大彩票】-侨网 秒速赛车【gd9900.com光大彩票】-经纬 秒速赛车【gd9911.com光大彩票】-English 秒速赛车【gd9922.com光大彩票】-图片 秒速赛车【gd9933.com光大彩票】-视频 秒速赛车【gd9944.com光大彩票】-直播 北京PK10【gd9955.com光大彩票】-娱乐 PK10开奖【gd9977.com光大彩票】-体育 pk10平台【gd1133.com光大彩票】-文化 Pk10计划【gd1100.com光大彩票】-健康 pk10网址【gd1144.com光大彩票】-生活 pk10开户【gd1155.com光大彩票】-葡萄酒 pk10赛车【gd1166.com光大彩票】-微视界 PK10投注平台【gd1177.com光大彩票】-演出 PK10注册【gd9900.com光大彩票】-专题 PK10开户【gd9911.com光大彩票】-理论 北京PK10【gd9922.com光大彩票】-新媒体 PK10开奖【gd9933.com光大彩票】-供稿 pk10平台【gd9944.com光大彩票】-新闻 Pk10计划【gd9955.com光大彩票】-时事 pk10网址【gd9977.com光大彩票】-视频 pk10开户【gd1133.com光大彩票】-评论 pk10赛车【gd1100.com光大彩票】-股票 PK10投注平台【gd1144.com光大彩票】-区块链 PK10注册【gd1155.com光大彩票】-港股 PK10开户【gd1166.com光大彩票】-科创 北京PK10【gd1177.com光大彩票】-基金 PK10开奖【gd9900.com光大彩票】-私募 pk10平台【gd9911.com光大彩票】-理财 Pk10计划【gd9922.com光大彩票】-信托 pk10网址【gd9933.com光大彩票】-P2P pk10开户【gd9944.com光大彩票】-科技 pk10赛车【gd9955.com光大彩票】-债券 PK10投注平台【gd9977.com光大彩票】-互金 PK10注册【gd1133.com光大彩票】-期货 PK10开户【gd1100.com光大彩票】-原油 北京PK10【gd1144.com光大彩票】-大宗 PK10开奖【gd1155.com光大彩票】-期指 pk10平台【gd1166.com光大彩票】-保险 Pk10计划【gd1177.com光大彩票】-银行 pk10网址【gd9900.com光大彩票】-黄金 pk10开户【gd9911.com光大彩票】-外汇 pk10赛车【gd9922.com光大彩票】-行情 PK10投注平台【gd9933.com光大彩票】-数据 PK10注册【gd9944.com光大彩票】-房产 PK10开户【gd9955.com光大彩票】-汽车 北京PK10【gd9977.com光大彩票】-博客 PK10开奖【gd1133.com光大彩票】-农金 pk10平台【gd1100.com光大彩票】-名家 Pk10计划【gd1144.com光大彩票】-消金 pk10网址【gd1155.com光大彩票】-美股 pk10开户【gd1166.com光大彩票】-创投 pk10赛车【gd1177.com光大彩票】-游戏 PK10投注平台【gd9900.com光大彩票】-滚动 PK10注册【gd9911.com光大彩票】-新浪 PK10开户【gd9922.com光大彩票】-正义网