1. Barriers and Opportunities Commercial and Institutional Sectors Katherine Delves Senior Standards Development Manager Office of Energy Efficiency, NRCan Toronto, May 4 - 5, 2006

2. 2 What we will cover …  Barriers  Opportunities - Equipment  Energy Star Criteria  Other Premium Efficiency Criteria  Early replacement  Putting it Together  New Buildings - High performance new buildings (Integrated design)

3. 3 Barriers  Misplaced incentives, building owners do not install equipment  Energy small portion of operating costs  Significant initial capital investments  Lack of criteria identifying High Efficiency in all product categories  Availability of product meeting the criteria or long lead times  Confusion regarding application  Lack of awareness of the benefits

4. 4 Opportunities ENERGY STAR Criteria  Office equipment (computers, monitors, imaging equipment)  Appliances (commercial refrigeration, vending machines, commercial clothes washers, water coolers, commercial cooking)

5. 5 Opportunities – Self-Contained, Commercial Refrigeration Effective Date Units that Pass*Energy Efficiency Levels ENERGY STAR200125% CEC Tier I200375% CEC Tier II200450% CEC Tier IV200725%ENERGY STAR EPAct 2005201025%ENERGY STAR NRCan Tier I200775%CEC Tier I NRCan Tier II200850%CEC Tier II *Source: California Energy Commission (CEC) Database

6. 6 Opportunities – Refrigerated Beverage Vending Machines Effective DateEnergy Efficiency Levels ENERGY STAR Tier I200455% of Edaily* (CSA C804) ENERGY STAR Tier II200745% of Edaily (CSA C804) California Energy Commission 2006ENERGY STAR Tier I US EPActNot covered NRCan Tier I2006ENERGY STAR Tier I NRCan Tier II2008ENERGY STAR Tier II Edaily = 8.66 +0.009 * C kWh/day, C=# of cans

7. 7 ENERGY STAR for Rebuilt Refrigerated Vending Machines  Beverage companies rebuild vending machines to extend their life.  A vending machine can be rebuilt two or three times and stay in service over 15 years.  US EPA has a draft criteria for an ENERGY STAR rating for refurbished vending machines. Requirements  Refurbishment centre and original equipment manufacturer must be ENERGY STAR partners.  Rebuilt machine must meet the energy consumption and low- power mode requirements of ENERGY STAR.

8. 8 Vending Machine Retrofit Options UpgradeEnergy Reduction (%) Low-power mode30-60% 1 ECM motor for evaporator fan14% 2 T8 lamps with electronic ballasts9% 2 High-efficiency compressor9% 2 High-efficiency fan blades3% 2 1 Market and Benchmark Analysis for Vending Machines, Caneta Research Inc., Sept./04 2 D. Westphalen et al, Energy Savings Potential for Commercial Refrigeration Equipment, A.D. Little Inc., June/96

9. 9 Opportunities Other Premium Efficiency Equipment Criteria  NEMA Premium Motors (CanMOST)  80 Plus (80% efficiency internal power supplies)  Near Condensing and Condensing Boilers (NRCan list)  Premium T8 (CEE criteria and lists of qualified products)  T5 In High Bay Applications  Chillers (high IPLV levels)  EnerGuide for Industry

10. 10  Over a motor’s lifetime, energy costs add up to many times the purchase cost.  Built from superior materials and design-optimized, premium- efficiency motors can also improve your system’s reliability.  CanMOST helps you: ‑ Find the most energy efficient motor for your application. ‑ Quickly and easily determine the energy and cost savings associated with any motor purchase, repair or replace decision. Features:  Comprehensive database of 43,000 motors  Energy savings calculations  Greenhouse gas reductions calculations  Lifecycle cost analysis  Specialized parameters (e.g. centrifugal speed/load correction)  Canadian utility rates & dollar values Opportunity - CanMOST

11. 11 Set the operating conditions Costs Step 2: Analyse and Compare: Savings Greenhouse Gas Reductions Payback period CanMOST Example Motor Savings Analysis Module Step 1:

12. 12  Market transformation initiative for internal power supplies of desktop computers and desktop-derived servers –80% or greater efficiency at 20%, 50% and 100% of rated load –True power factor of 0.9 or greater  Offers utilities an opportunity to secure energy and peak savings in the Commercial / Institutional sector –Utilities offset the incremental cost to manufacturers by paying for each qualified PC sold in their territories  Reduced heat loss of > ½ means 40% increased reliability (heat is one of the leading causes of semiconductor failure). –$100 per repair incident  Creates early market traction for the upcoming ENERGY STAR ® specification revision. Opportunity - 80 PLUS

13. 13 80 PLUS Potential * For the 2-year duration of the program Assumes: 7% market penetration in year 1 and 14% in year 2. Standard rate of 430 kgCO2e/kWh Potential Savings Estimates*: Energy Savings GHG Emissions (GWh/yr) Reductions (Kt CO2e) 2006177 20075021  2005 sales: > 3 million desktop PCs  Sales are expected to increase by 6% per year in 2006 and 2007.  Average lifespan of a PC is 4-5 years. Canadian PC Distribution by End-User 2005 ~ 4 million units (desktops and laptops)

14. 14 Opportunity – Premium T8 Lighting  CEE / Industry Consensus Premium Efficiency 4ft T8 (higher lumen output)  When compared to a T12 system, electricity savings of a high-performance T8 system can be as high as 40 percent.  List on CEE site (soon to be on NRCan site) http://www.cee1.org/com/com- lt/com-lt-prod.pdf BALLASTEfficiencyPower Std T8 Ballast 85%59 W Premium T8 91%55W LAMPInitial Lumens Lumen Maint. Std T8 lamp 280090% Premium T8 lamp 315095%

15. 15 Opportunity – Condensing and near-Condensing Boilers  CSA 4.9 (ANSI Z21.13) safety standard requires that boiler greater than 300,000 Btu/hr have a minimum combustion efficiency of 80%.  Proposed High Efficiency Criteria Tier 1 : 85 - 88% (near condensing) Tier 2 : 89% and above (condensing)  Technologies/Applications to meet these levels: Corrosion resistant heat exchanger – stainless steel PVC Venting of combustion products – condensing Stainless steel chimney liners – near condensing Condensing boilers – require return water temperatures (50ºC max) Medium efficiency boilers – require higher return water temperature  Condensing boilers are not recommended for all applications: Condensing boiler – applications using hot water at low temperature. Mid-efficiency boiler – applications needing hot water at high temperature

16. 16 InstallationReplacementNew Boiler type Output 1,500,000 BTU/H Existing (Ec = 60%) Standard (Ec = 80%) Near- condensing (Ec = 86%) Condensing (Ec = 95%) Standard (Ec = 80%) Near- condensing (Ec = 86%) Condensing (Ec = 95%) Input (BTU/H)2,500,0001,875,0001,744,0001.579,0001,875,0001,744,0001.579,000 Cost difference ($)$0$13,125$43,600$53,684$0$30,475$40,559 Operational costs – Based on 4000 GJ output and $10,3/GJ $68,667$51,500$47,907$45,778$51,500$47,907$45,778 Annual savings$0$17,167$20,760$22,889$0$3,593$5,722 Simple Paybackn/a0.8 year2.1 years2.4 yearsn/a8.5 years7.1 years Opportunity – Condensing and near-Condensing Boilers Note: Output: 1,500,000 BTU/H Annual output gas demand: 4,000 GJ / year

17. 17 Opportunity – T5 in High Bay Applications  Saves energy compared to MH 295W vs. 460W  White light compared to HPS yellow  Improved Colour Rendering (82 vs. 65 for MH)  Colour options – 3000, 3500, 4100, 6500k  Instant on – motion detectors increase energy saving  Dimmable to from 100 to 1%  Improved lumen maintenance  No colour shift  No end of lamp life cycling  120V, 277V, 347V systems Standard14W21W28W35W Lumens @ 35° C1350210029003650 Lumens @ 25° C1200190026003000 High Output24W39W54W80W Lumens @ 35° C2000350050007000 Lumens @ 25° C1750310044506150

18. 18 Opportunity – High Efficiency Chillers Scenario: 300 ton chiller, 2500 hr/yr EE Regulation Possible HE Level FEMP IPLV (kw/ton).55.48.44 Savings kwh/yr 60,00074,50082,500 Incremental cost 0$12,600$19,800 Payback, years 01.72.4 Assumed incremental cost is $60 per 0.1 kw/ton IPLV improvement

19. 19 Opportunity –EnerGuide for Industry  A Website that provides comprehensive Web-based information and tools to help equipment buyers make energy-efficient decisions with business benefits in mind.  Provides energy-saving tips for the purchase, operation and maintenance of energy- efficient equipment.  Products covered include:  Motors  HVAC  Lighting  Distribution transformers  Battery chargers  Pumps  Uninterruptible  Variable Frequency power suppliesdrives And coming soon:  Boilers & Steam  Compressed air  Arc welding  And more

20. 20 Information on each product: Introduction An overview, including how much energy that product uses in industry, as well as allowable energy-efficiency levels in Canada. How Much Will I Save? Gives a calculation example. Purchasing Tips Advice and tools for purchasing energy-efficient models. For example, CanMOST, the Canadian Motor Selection Tool, for choosing an energy-efficient motor. Operation and Maintenance Tips Useful Links To other web sites.

21. 21 Refrigeration in Supermarkets, Ice and Curling Rinks  Buildings of high energy density (500 to 1,000 kWh/m2/year)  High refrigeration needs (up to 50% of the total building energy consumption)  Simultaneous heating and refrigeration requirements  Large use of synthetic refrigerants  Exothermic buildings (heat rejected by the R system > heating requirements)  High potential for energy savings and CO 2 emission reductions

22. 22 Technical Opportunities in Refrigeration  Packaged refrigeration system To confine the refrigerant in the mechanical room  Secondary loops using environmentally friendly fluids On the hot and cold side of the refrigeration system to distribute heat and « cold »  Integration of heating, ventilation and air conditioning system with the refrigeration system  Variable condensation temperature and Control strategy optimization To take benefit of the Canadian climatic conditions

23. 23 Refrigeration in Ice Rinks Typically: 40% energy savings Heat reclaimed from the refrigeration system for the building purposes and possibility of energy export for other buildings

24. 24 Demonstration in a Loblaws Supermarket  Innovative two-loop system with environmentally friendly fluids (Ethylene Glycol, Potassium Formate, Propylene Glycol)  Heat reclaim from the refrigeration system for the building heating purposes (No furnace !)  25% reduction in energy consumption (90% reduction for heating)  75% reduction in GHG emissions Loblaws supermarket - Repentigny, Québec Innovative two-loop refrigeration system

25. 25 Opportunities Early replacement (using current standards)  Exit Signs  Dry-Type Transformers

26. 26 Shaw Tower Performance:  27.6% > MNECB  Energy Intensity:.4 gj/m 2 /yr  Annual savings $96,678; 56.96 tonnes GHG Features: Condensing boiler- 89% Double bundled chiller with waste heat supplying MURB water loop heat pumps Variable speed drives CO 2 controlled ventilation Efficient lighting – 10w/m 2

27. 27 BC Cancer Research Centre Features: Heat recovery on vent hoods High efficiency lighting 10.72 w/m 2 with daylighting and occupancy sensors Double bundled chiller High efficiency, low e windows Performance:  42.4% > MNECB  $328K annual savings or $13.90 m 2 /year

28. 28 Contact Information Katherine Delves 613-947-1207 kdelves@nrcan.gc.ca oee.nrcan.gc.ca/regulations egi.gc.ca