Campus Energy Use Intelligent Infrastructure for Energy Efficiency May 25, 2007 Peter Cooper Dept of Facilities, Manager of Sustainable Engineering and.

Slides:

Advertisements

Similar presentations

Combined Heat and Power as a Cost-effective GHG Mitigation Strategy Kim Crossman U.S. EPA CHP Partnership Presented to the 2006 Fuel Ethanol Workshop &

Advertisements

Make Commitment Milestone 1 Inventory Emissions Milestone 2 Set Target/Goal Milestone 3 Establish Local Action Plan Milestone 5 Monitor/Evaluate Progress.

New Technology Improves Efficiency of Universitys Energy Infrastructure Frank Brewer Associate Vice President for Facilities Management University of Maryland.

Campus Carbon Emissions Inventory: Commuter Contributions and Campus-Land Offsets Paul Tanes Darcy Boellstorff, Ph.D.

A Lower-Cost Option for Substantial CO 2 Emission Reductions Ron Edelstein Gas Technology Institute NARUC Meeting Washington DC February 2008.

M ontgomery County Climate Protection Plan 2010 Update March 25, 2010.

Woking Borough Council Ray Morgan Chief Executive The Merton Rule & Beyond 30 May 2008 District Heat & Power.

Solar RFP Pre-bid Informational Session The newest 10 th campus of the UC system Established 2005 Currently about 6,300 students enrolled Projected to.

Cogeneration. Is the simultaneous production of electrical and thermal energy from a single fuel source.

Rensselaer’s Sustainability Charrette Environment – Economics – Education Envision – Explore – Exchange Operations Steve Angle Carbon Footprint.

ORNL ESPC Overview GovEnergy ESPC Project Summary  $89M project funded by $8.2M in guaranteed annual savings  Energy Conservation Measures: 1.Select.

1 Greenhouse Gas Inventory FY 2013 and FY 2014 for the American College & University Presidents’ Climate Commitment (ACUPCC)

Green Municipal Funds – Case Study of Success Tracey Forrest Program Manager, Energy York Region November 16, 2004.

10/2/2009Utilities & Engineering Services1 Meeting Agenda Introduction Meeting Purpose Review CEST Mission & Organization Establish Team Ground Rules Review.

Staff Induction-Environmental Awareness

Welcome and Introductions- Working Group Chair Where We Are/Where We Are Going- Lindsay Batchelor GHG Inventory and CAP Overview- Lindsay Batchelor/Jeff.

Transitioning to a Cleaner Energy Supply. Catalyzing climate solutions …in the lab …in the classroom…on our campus.

Mr. Jiří Spitz ENVIROS, s. r. o., Prague, Czech Republic Phone: Fax: United.

John Thorp MBA MSB CBiol FEI FRSA Group Managing Director Thameswey Limited Promoting the use of Sustainable Energy WOKING LOW CARBON SCHOOLS PROGRAMME.

Siemens sans siemens sans bold siemens sans italic siemens sans italic bold siemens sans black siemens black italic Siemens Building Technologies.

1 Progress Toward Sustainability at Williams College.

UAF research leads to inventions Invention Disclosures by Year.

1 Progress Toward Sustainability at Williams College.

Campus Carbon Inventory Challenges and Responses Matthias Ruth Roy F. Weston Chair in Natural Economics Director, Center for Integrative Environmental.

THE UNIVERSITY OF MARYLAND CLIMATE COMMITMENT Carbon Inventory, Lessons Learned, & Next Steps Ramy Serour Ph.D. Candidate Marine, Estuarine and Environmental.

Energy Efficiency in Industrial and Commercial Facilities 2003 Energy and Environmental Conference September 16, 2003.

Natural Gas End Use: A Vision for Today and the Future American Gas Association Press Briefing September 22, 2009, Washington, DC Neil Leslie ,

SUSTAINABLE FLORIDA TECH Presented by the Green Campus Group.

11 Sustainability Plan October 21, Sustainability “Meeting the needs of the present without compromising the ability of future generations to.

Building Metering & Benchmarking: It’s Worth the Energy American University Emily Curley, Sustainability Manager VCU Energy & Sustainability Conference.

Greenhouse Gas Assessment –. What is a Scope? Scope 1: All direct greenhouse gas (GHG) emissions Scope 2: Indirect GHG emissions associated with the consumption.

DAC PROJECT Capacity Building in Balcan Countries for the Abatement of Greenhouse Gases Setting priorities for GHG emissions’ reduction George Mavrotas.

Technology details, potential and experiences of Trigeneration

- Greenhouse Gas Assessment. What is a Scope? Scope 1: All direct greenhouse gas (GHG) emissions Scope 2: Indirect GHG emissions associated with the consumption.

South African Municipal Workers’ Union 1.Climate Change and Economic Policy. 2.Global Negotiations. 3.Greening Local Government. 4.Protecting and growing.

Net-Zero Rubenstein 5% Energy Reduction Goal Main campus electricity is supplied by the Burlington Electric Department (BED). Nuclear energy, which comprised.

Earth’s Changing Environment Lecture 15 Energy Conservation.

Sustainable Port of San Diego Michelle White Green Port Program Manager.

Demand Side Energy Management & Conservation Lighting Retrofits The University of Texas at Austin.

Phoenix Convention Center Phoenix, Arizona Inventory of Federal Greenhouse Gas Emissions, Reductions to Date, and Potential Reductions Sustainability Reducing.

 What it is: ◦ GHG stands for Greenhouse gas ◦ An accounting of direct emissions due to University activities ◦ Emphasis on energy and electricity use.

Building Climate Action Plans from Existing Plans, Targets and Laws Michael Lizotte Director of Sustainability AASHE Conference Denver October 11, 2010.

Today’s lesson will focus on Energy Efficiency and Conservation. So, what do these terms mean? Renewable Energy 2.

Overview of San Diego Climate Action Plan Nicole Capretz Director of Environmental Policy iMayor’s Office.

Sustainable Laboratory Design: Challenges and Solutions

Utah State University Logan Utah. Founded 1888 as a Land Grant Institution Host City – Logan, Utah (48,ooo+ population) ~ 15,000 Students (~ 28,700 students.

“ Climate change is the defining issue of our era.” -- Ban Ki-Moon, United Nations Secretary General, in Time (23 December, 2009)

Sustainability and Facilities Management John Sullivan Energy & Sustainability Office Facilities & Services Division.

Welcome and Introductions- Working Group Chair Where We Are/Where We Are Going- Lindsay Batchelor GHG Inventory and CAP Overview- Lindsay Batchelor/Jeff.

Session 2 Buildings and Measurements. Buildings Sector Accounts for About 40% of U.S. Energy, 72% of Electricity, 34% of Natural Gas, 38% of Carbon, 18%

Today we’re going to learn more about Renewable Energy

 14:00 LEED Presentation  14:30 Teamwork time ST1  Compare your individual result  Prepare the presentation and save it to Moodle  Get the computer.

By Christie DeVantier.  The discharge of carbon left to pollute the air  The sum of emissions of green house gases.

Energy Efficiency and Conservation

CAPP – GHG emissions Pipelines need to be constructed because they use significantly less energy to operate and have a lower carbon footprint than tanker.

Calculating a CO 2 Inventory for Pacific Northwest National Laboratory Federal Environmental Symposium – East Kim Fowler Senior Research Engineer Pacific.

THE NELSON INSTITUTE CARBON FOOTPRINT PROJECT AASHE Conference November 11, 2008 Damon Clark Summit Blue Consulting Jeannette LeBoyer Econergy.

University of Toledo Climate Action Report Scope 1 By Rachel Beres, Andrew Kulikowski, Jon Lockie, Chad Pietkowski, Ken Samoei, and Cory Williams.

SAUSALITO COMMUNITY GREENHOUSE GAS EMISSIONS INVENTORY Years 2005 and 2010.

Do you know? By 2015, an estimated 40-48% of new non-residential construction by value will be green, equating to a $ billion.

John Davis Mojave Desert and Mountain Recycling Authority.

Building Climate Action Plans from Existing Plans, Targets and Laws

CHE 670 Sustainability Seminar

Empowering the Decarbonization of Canadian Cities

The University of Montana Climate Action Plan

NPUST Experience on UI GreenMetric World University Ranking

City of Richmond 2005 Greenhouse Gas Emissions Inventory

Town Facilities Benchmarking and GHG Emissions Update

CHE 670 Sustainability Seminar

Presentation transcript:

Campus Energy Use Intelligent Infrastructure for Energy Efficiency May 25, 2007 Peter Cooper Dept of Facilities, Manager of Sustainable Engineering and Utility Planning

ENERGY FLOW TO BUILDINGS CUP HEAT COOLING LIGHTING FANS/PUMPS PLUG LOADS HEAT COOLING LIGHTING FANS/PPS PLUG LOADS OIL GAS ELECTRICITY OIL GAS ELECTRICITY STEAM CHILLED WATER ELECTRICITY BUILDINGS WATER

District Steam System

Chilled Water

Campus Electrical

ENERGY DATA FY2006

118,000 Ton Reduction Needed for 2005 Levels We Are Here A GHG Inventory shows our emissions come from:  Building energy consumption 90%  Transportation (including commuting) 9.5%  Solid waste 0.5% Our Greenhouse Gas Profile We can reduce our emission to 2005 levels (or better) through several key strategies: 8 A revolving loan fund Energy conservation Co-generation expansion Sustainable design Renewable power Grants for student research Renewable power offers additional reductions

Cogen Energy Flow