at York University 2014 Energy Conservation and Demand Management Plans Early Action Summary 2 Sustainability amp Energy Management at York University Introduction Founded in March 1959 and is now Canadas thirdlargest university ID: 532907
Download Presentation The PPT/PDF document "Sustainability & Energy Management" is the property of its rightful owner. Permission is granted to download and print the materials on this web site for personal, non-commercial use only, and to display it on your personal computer provided you do not modify the materials and that you retain all copyright notices contained in the materials. By downloading content from our website, you accept the terms of this agreement.
Slide1
Sustainability & Energy Managementat York University
2014 Energy Conservation and Demand Management Plans Early Action Summary Slide2
2Sustainability & Energy Management at York University
Introduction
Founded in March 1959, and is now Canada's third-largest university
Canada's leading interdisciplinary research and teaching universityOver 55,000 students at two campuses in TorontoExpansion of engineering program now the Lassonde School of EngineeringMajor Faculty of Environmental StudiesOver 7,000 employeesSingle largest campus in Canada8,000,000 sq. ft. portfolio with 21MW electrical peak load (future engineering building) including over 10,000 tons of centralized chillers for air conditioningHosting Track and Field events in a new stadium under construction for 2015 Pan Am GamesSimilar to scope of City of North Bay Motto – redefine THE POSSIBLE, Tentanda Via: The Way must be tried.Slide3
3Sustainability & Energy Management at York University
A journey of a thousand miles begins with a single step (
Lao-tzu, The Way of Lao-tzu. Chinese philosopher, 604 BC - 531 BC)
York’s energy management journey single step began with a bold leadership vision from the VP of Finance & Administration back in the 2005 time frame to complete a large energy management program to reduce both our utility operating cost and our environmental footprint by 25% while renewing ageing infrastructure.
York University was facing a problem not uncommon to many post secondary and public sector facilities then as they are now – the need to address deferred maintenance of old infrastructure in the face of rising utility costs and reduced operating budgets.Vision strongly aligned with institution’s core values of sustainability and wanting and needing to practice what we preach in terms of environmental improvements, and business acumen Board of Governors Approved the first measure in 2006 of $41 million project, and the journey began…Slide4
4Sustainability & Energy Management at York University
York University had made previous large investments into two 5 MW natural gas fired cogeneration units in 1997 and 2003 which typically supply almost 50% of the electricity and most of the heating to the Keele campus
These early action energy efficiency initiatives were consistent with the province’s health care goal to eliminate coal fired generation and the associated greenhouse gas and other air quality contaminants, and well contributed to grid diversity, transmission efficiency and resiliency
The $41 million project built on this previous success with the aim that the greenest energy is the energy you don’t use focusing on Conservation and Demand Management (CDM)Slide5
5Sustainability & Energy Management at York University:
Maximize the Outcome – what is the value proposition of our $41 Million Project
Realize Operating Utility and Maintenance Cost Avoidances and future cost increases from consumption reduction
Reputation
EngagementAddress Deferred Maintenance of Ageing InfrastructureImprove comfort and lighting “Create” new infrastructure capacity with increased capital costMaximize utility incentives to enhance project Slide6
6Sustainability & Energy Management at York University:
Maximize the Outcome – what is the value proposition of our $41 Million Project
Realize Operating Utility and Maintenance Cost Avoidances and future cost increases
from consumption
reductionWe have reduced our annual energy consumption from our 2007 peak by over 29% (439,000,000 Mega joules reduction)During this time the size of the University has grown by over 5%, and all this growth has been absorbedIn environmental terms this represents over 20,000 tons of greenhouses gases reduced annually, also over 29% reduction with more to comeWe have hired a specialty maintenance supervisor to ensure we sustain our and enhance our savings with additional focus on HVAC schedulingSlide7
7Sustainability & Energy Management at York University:
Maximize the Outcome – what is the value proposition of our $41 Million Project
Reputation and Engagement: Headlines that attract staff and students
York
University named one of Canada’s Greenest Employers in 2013 and 2014For the second year in a row, the UI Green Metric Ranking of World Universities awarded York with the title of greenest university in Canada. President and Vice-Chancellor Mamdouh Shoukri said of the award, “York University continues to strive to be at the forefront of sustainability strategies.”York University wins 2012 provincial award for environmental excellenceMetering installed by the project underpins our award winning student engagement program Res Race to Zero, and is an outstanding program that takes a community-driven approach to sustainability and exemplifies York’s mission to create local solutions with a global impact.Slide8
8Sustainability & Energy Management at York University:
Maximize the Outcome – what is the value proposition of our $41 Million Project
Address Deferred Maintenance of Ageing Infrastructure: HVAC systems that were old corroded and leaking, dampers, pumps, VAV boxes, pneumatic controls
Improve comfort and lighting – better spaces to learn and work
“Create” new infrastructure capacity with increased capital cost: we have added entire buildings with no new campus distribution infrastructureSlide9
9Sustainability & Energy Management at York University:
Maximize the Outcome – what is the value proposition of our $41 Million Project
Maximize utility incentives to enhance project – OVER $3,355,000 to date
York acknowledges with thanks our utility incentive partners.
Ontario Power Authority, Toronto Hydro/Office of Energy Efficiency/Better Buildings Partnership, Enbridge Gas, Toronto Water Capacity Buy Back Program and NRCANSlide10
What next on the journey to reducing consumption? Completed review of possible next steps in early 2012 as gas prices had fallen making some original measures financially unattractive, where there now better unforeseen options – RESULT:
anticipated incentive of $880,000 on top of previous $3,355,000
10Slide11
New Steam Turbine Chiller Project
11Slide12
New Steam Turbine Chiller ProjectBoard of Governors approved of $5,000,000 budget to engineer, procure and install a 3,000 ton steam turbine driven chiller in the Keele Campus Central Utilities Building
This project has several attributes which independently substantiate the concept;
Reduced energy consumption and associated environmental stewardship (reducing annual electrical consumption by 5,231,000 kWh and peak consumption by 2MW, over 4,000 tons of CO2 avoided assuming imported coal fired peaking generation, twice the capacity and efficiency)
Requirement for Incremental Peak Chilling Capacity – new buildingsMaximizing York Electrical Power Generation – unloads cogen thermal constraintMinimization of Imported Power and reducing cost of purchased electricity Investment Business Case and Incentive Timeliness (<8 year payback, with an electricity saving of $523,101/year) Modernization and reliability – replaces very inefficient 1964 unitInfrastructure Cost Avoidance – electrical sub-stations, new chillers12Slide13
Sustainability & Energy Management at York: Looking AheadMany impressive accomplishments that we are proud of as we continue to advance our commitment to sustainability progress
Need to deal with cost challenges and climate change are increasing
York has reduced over 30,000,000 kWh/year but there are still hundreds of new opportunities with daylight harvesting, and new technology like LEDs
Future aspirations: Smart Grid Fund Micro grid application with support from our Faculty of Environmental Studies and Lassonde School of Engineering with the launch of the Electrical Engineering program, multi MW chilled water storage peak shifting and renewable integration with the increasing flexibility of the new Feed-In-Tariff regimes for large campuses
13Slide14
14YorkW!$E Energy Management Project
Quick Stats – Campus Buildings
51 Buildings across both Campus have had new energy efficient lighting installed
that has reduced lighting demand by over
2.3 MW (2,300 kW) 31 Buildings have had major controls upgrades adding over 2,000 new control and monitoring points, 141 Variable Speed drives have been added to 19 Campus buildings representing 3,185 hp of fan power converted to Variable Air Volume Control (VAV) 2,350,000 CFM of ventilation on Campus has been converted to VAV 160 new utility meters installed on Campus (Keele Campus)