ENGINEERING INNOVATIONS FORUM PRESENTS

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Title: ENGINEERING INNOVATIONS FORUM PRESENTS

1
ENGINEERING INNOVATIONS FORUMPRESENTS
EMERGING TECHNOLGIES IN THEENERGY INDUSTRY

Organized by Professional Engineers Ontario
Ontario Association of
Certified Engineering Technicians and
Technologists
Ontario Society of
Professional Engineers

2
EMERGING TECHNOLGIESIN THEENERGY INDUSTRY

OPENING
Andre Rudnicky, P.Eng.
Chair of EIF 2007

3
EMERGING TECHNOLGIESIN THEENERGY INDUSTRY

WELCOMING ADDRESS
Patrick J. Quinn, P.Eng.
President Professional Engineers Ontario (PEO)

4
EMERGING TECHNOLGIESIN THEENERGY INDUSTRY

WELCOMING ADDRESS
Danny Young, P.Eng.
President / Chair Ontario Society of Professional
Engineers (OSPE)

5
EMERGING TECHNOLGIESIN THEENERGY INDUSTRY

WELCOMING ADDRESS
Ken McMartin, P.Eng.
President, Canadian Council of Professional
Engineers

6
EMERGING TECHNOLGIESIN THEENERGY INDUSTRY

INTRODUCTION
Dennis Trudeau, Moderator
Independent journalist, former host and
interviewer on CBC radio, CBC television and CBC
newsworld

7
EMERGING TECHNOLGIESIN THEENERGY INDUSTRY

PRESENTATION
Mark Romoff
President and CEO, Ontario Centres of Excellence
Inc.
Engineering Prosperity The Economic Argument
for Energy Innovation

8
Engineering Energy The Economic Argument for
Energy InnovationMarch 2007
Where Next Happens

Mark Romoff
President and CEO

9
The Logic Model
Economic Prosperity
Competitiveness
Productivity
Innovation
10
Ontarios Economic Prosperity

Growing U.S. appetite for our products and
services
Favorable exchange rate
Smooth functioning border

11
Ontarios knowledge infrastructure

Technology, Talent and Tolerance
World-class research institutions
Hugely talented cadre of researchers and
students
Private and public sector understanding of
innovations
centrality to competitiveness and economic
prosperity

12
Ontarios Focus on Innovation

Ontario Ministry of Research and Innovation
Premier as Minister
Deputy Minister recruited from Ireland
Ontario Research Fund
Ontario Research and Innovation Council
Incremental Funding

13
OCE and MRI Supporting Innovation

Ontario Market Readiness Program
Investment Accelerator Fund (IAF)
Business Mentorship and Entrepreneurship Program

14
Ontario Centres of Excellence (OCE) Inc.

Who We Are
Leading driver of the research to
commercialization process with a strategic focus
on improving Ontarios competitiveness through
innovation
Key partner with industry, universities,
colleges, students, research hospitals, investors
and governments

15
Ontario Centres of Excellence (OCE) Inc.

What We Do
Drive economic prosperity through support for the
successful transfer of new technologies from the
laboratory to the marketplace
Train, develop and enable the deployment of the
next generation of Ontario innovators and
entrepreneurs

16
OCE Expertise
Centre of Excellence for Communications and
Information Technology Centre of Excellence for
Earth and Environmental Technologies Centre of
Excellence for Energy Centre of Excellence for
Materials and Manufacturing Centre of Excellence
for Photonics
17
OCE Programs
Investing in research, moving the results to the
marketplace and developing the next-generation
of innovators and entrepreneurs
Network
Commercialization Program (Accelerate)
Research Program (Innovate)
Talent Program (Cultivate)
18
Investing vs. Funding

Investing Resources
Investing Time
Investing Expertise

19
The Stern Review

Action to reduce GHG Emissions Invest 1 of
GDP
Cost of inaction a GDP 20 lower than otherwise
Highly unlikely to find solution in any single
technology
Portfolio of technologies required
Markets for low-carbon energy products are
likely to be
worth at least 500bn per year by 2050 and
perhaps
much more

20
OCE Success StoryTechint Goodfellow
Technologies Inc.

Environment and Energy Saving Sensor
University of Torontos Murray Thomson, Techint
Goodfellow Technologies Inc. and Dofasco Inc.
OCE brought partners together, initiated IP
protection, negotiated transfer to industry for
commercialization
Reliable remote real-time sensing of CO and CO2
emissions and temperatures
Can save up to 20 per cent of the energy now
wasted in production
Steel, cement and energy production markets
Strengthen global competitiveness of Ontario
industries

21
Ontario Centres of Excellence (OCE) Inc.

Delivering Results 2005-2006
OCE invested 21.4 million in 482 research
projects leveraging 33.3 million of investment
from partners
Engaged 691 Primary Investigators and 3,081
researchers
Helped 836 people move into positions outside
academia
Created 17 new licences
Launched 20 start-up companies, bringing the
total number of OCE-initiated companies to 73
These companies attracted 78 million in capital
investments in the last year

22
March 28 Dr. David Johnston, President,
University of Waterloo April 20 Jan Carr, CEO,
Ontario Power Authority May 24 Donald Ziraldo,
Co-founder of Inniskillin Winery
23
Thank you Join Us May 1
24
EMERGING TECHNOLGIESIN THEENERGY INDUSTRY

PRESENTATION
William (Bill) Smith, P.Eng.
Vice President, Power Generation, Siemens Canada
Limited
Emerging Technology in the Energy Industry

25
Engineering Innovations Forum - 2007 Emerging
Technology for the Energy Industry
William (Bill) Smith Vice President Power
Generation
26
Active in Six Business Areas
5
Automation and Control
Medical
Power
Transportation
Automation andDrives
TransportationSystems
Medical Solutions
Power Generation
PowerTransmission andDistribution
Industrial Solutions and Services
Siemens VDOAutomotive
Siemens Building Technologies
External sales of Operations Groups excluding
Other Operations (as of September 30, 2006)
28.5
19.7
19.3
17.3
9.8
5.4
1) Since Oct.1, 2006 represented by Siemens
Networks GmbH Co. KG and Siemens Enterprise
Communications GmbH Co. KG
27
Power Generation Portfolio
230.480
Industrial Applications
Fossil Power Generation
Instrumentation Control
Wind Power
Business activities
Small and medium gas turbines
Gas turbines and gas turbine power plants
Instrumentation and control systems for all types
of power plants
Wind turbines (on- offshore)
Small steam turbines
Steam turbines and steam power plants
Electrical generators
Industrial power plants incl. generation of power
and heat
IT solutions
Wind farms(on- offshore)
Combined-cycle power plants
Integrated Gasification Combined-Cycle (IGCC)
power plants
Service solutions
Service solutions
Biomass-fired and geo-thermal power plants
Solutions for oil gas
Electrical generators
Compressors drives
Service solutions
Service solutions
Marketposition
2
2
1
5
28
Global Megatrends shaping tomorrow's markets

Urbanization
Today 280 million people in megacities (gt 10
million)
2007 First time in human history more people
living in cities than in rural areas
2015 350 million people in megacities
? Challenge for infrastructure

Demographic change
Average life expectancy increases globally
Population growth from more than 6 billion to 8
billion by 2025
Challenges for infrastructure and healthcare

29
Energy Triangle in 2020
CYBER PHYSICAL SECURITY ACCESS TO PRIMARY
FUELS SYSTEM RELIABILITY
SUPPLY MIX DEMAND MANAGEMENT DELIVERED
PRICE RESOURCE COMPETITION
LOWER CO2, NOX , SO2 BEYOND COMPLIANCE CONSERVATIO
N MINDSET
Energy Infrastructure Demands Higher Efficiency,
Lower Emissions
30
Global Trends in Deregulation Drive Market
Dynamics
Equipment Phase
Asset optimization Phase
Replacement Phase
CAPEX OPEX cagr
Deregulation
15 - 30 years
10 to 15 years
10 to 15 years

Building up reliable efficient
infrastructures for electricity supply
Competitive product system ranges
Quick time to market solution
Huge demand for capital/financing

Optimizing the grids for power quality and
power-flow efficiency
Development of automation, communication and
network mgmt.

Developing in a new competitive
environment
Overall optimized economics of assets
e.g. leasing models, outsourcing of IT related
processes

Curve was designed by Boston Consulting Group for
UK development , adaptation by PTD ST
31
Options for Reducing Emissions, in Particular CO2
Power Plant Industry
32
Three major trends towards CO2-free fossil power
plants
Conventional combustion with post-combustion CO2
capture
3.
Fuel (coal, gas)
Conventional combustion
Post-combustion CO2 capture(chem. process)
Air
Oxyfuel and post-combustion CO2 capture
1.
Flue gas without CO2
Oxygen separation
Combustion with pure oxygen
Post-combustion CO2 capture(phys. process)
O2
Pre-combustion CO2 capture (IGCC)
2.
Hydrogen combustion
Air separation, gasification,CO2 capture
H2
Flue gas without CO2
CO2
CO2
CO2 transport and storage (e.g. enhanced oil
recovery, depleted natural gas fields, aquifers)
33
Power Generation Emerging Technologies Overview
Economic Innovation 1x1 Peaker
Low Emissions Technologies - IGCC
Renewables Wind and SOFC
34
SGT6-5000F Duty Cycle Analysis
2005 SGT6-5000F Fleet Operating Profile
Base
2005 Average
Intermediate
Peaker
169 of 189 Units Reporting
Over Half of the Fleet Operates in Peak /
Intermediate Duty
35
SCC6-5000F 1x1 Peaker

Key Features
Unit Size - 260 MW at 49 efficiency
Built around the SGT6-5000F
GT - 10 minute start 150 MW
Low Water Consumption
Low gas pressure required (500 550 psig)
Once-through HRSG (Benson Technology)
ST - Single Pressure / Non-Reheat / Bedplate
Traditional SCR same as in todays CCs
Fan Cooled Condenser with full steam bypass
capability
Air Cooled Generators

Cost Effective Efficiency Through a Combination
of Proven Technologies and Components
36
What is IGCCTypical IGCC Plant Layout
Coal / Petcoke Preparation
Gasifier Island
ASU
Gas Turbine Generator Steam Turbine Generator
HRSG
Gas Cleanup Island

335 MWe Power Output
40 Efficiency (HHV)
Started up in 1997

ELCOGAS, Puertollano IGCC Plant, Spain
37
Siemens SFG Gasification Technology Highlights
Highlights
SFGT Gasifier

Multi-fuel gasifier accepts a wide variety of
feedstocks (e.g., bituminous coal, sub-bituminous
coal, lignite, biomass and liquid wastes)
cooling screen low maintenance, rapid
start-up/shut down
Dry feed system high carbon conversion (gt98)
Raw gas is tarfree
Full Quench ideal for all downstream processes
which require CO shift
Technology development started in mid-1970s
more than 20 years of successful operating
experience with fuel gasification technology

38
Siemens IGCC Reference Power PlantScope
Slag Conveyor System
Slag
Soot Cake
Water
Sulfur Recovery System
Sulfur
Coal Handling System
Waste Water Treatment System (SWS)
Coal
Slag Removal System
Soot Water
Tail Gas to Selexol Process
Clean Water
Acid Gas
Water
Coal Drying System
Siemens SFG Gasifier Island
Syngas Cooling
Hg Removal System
Selexol Process
CO2 Compression and Drying System
Water Gas Shift System
COS Hydrolysis
Compressed Dry CO2
Air
O2/N2
ASU
Syngas Conditioning System
Air
N2
Clean Syngas
NG
Gas Turbine Generator
Gas Turbine Generator
Electricity
Air
HRSG
HRSG
Siemens
Stacks
Others
Steam
Steam Turbine Generator
SWS- Sour Water Stripper
Electricity
39
IGCC Issues Solutions

Siemens Reference Plant Market Ready
Power Output
630 MWe
Performance Feedstock
Sub-Bituminous Coal
Design Feedstocks
Lignite to Bituminous Coal
Petcoke
Blends
Startup / Backup Fuel
Natural Gas
Elevation
Sea level to 3,300 Ft
Emissions
15 ppm NOx
4 ppm So2
90 Hg Capture
CO2 Capture Ready

Cost reduction by 15 to 20

Develop reference plants
Build on CCPP reference design experience
60 replication
15 modification
25 custom scopes
Use more advanced technologies
Scale up projects

Risk reduction allocation

FEED study
Phased approach to implementation / availability
Flexibility from regulator
Government incentives
Stakeholder risk sharing
Capture learning curve

Next wave of IGCC plants will require an
innovative approach to risk allocation
40
Wind Turbines Next Generation
More than 5,800 installed WTG world-wide (per
March 2006)

Multi-MW-Class
Pitch-Technology with variable speed
2.3 MW VS
2.3 93
3.6 MW
5.X MW planned

5.X MW
3.6-107

MW-Class
CombiStall-Technology
2,149 WTG

2.3-82 CS
2.3-82 VS
2.0 MW

kW-Class
Stall-Technology
3,600 WTG

2.3-93
1.3 MW
1.0 MW
0.6 MW
WTG Wind Turbine Generator
41
Bringing SOFC Products to Market

Siemens has a clear focus on the industrial and
dispersed markets for fuel cells.
Siemens has made excellent progress in the course
of the last two years.
Atmospheric plasma spraying is fully qualified as
a mass manufacturing technology many thousands
of cells have been produced
Ceramic seal-less cathode-supported cell design
has proven robust in large system
SFC-200 design has been completed, built and is
currently undergoing extensive factory testing,
qualifying a multitude of cost reducing
innovations
New cell designs have been tested, opening a
potential path to single cells producing up to
1000W enabling also a substantial improvement in
stack power density

Major research programs are in place with key
government institutions to support further
development of the cells, modules and BOP
systems. Path to a sustainable profitable
stationary fuel cell business is emerging based
on Delta-cell technology enabling 70 cost
reductions.
42
The Future Energy Landscape
Deep sea exploration
Unconventional oils (tar sands, oil shales)
Off-shore wind farm
Gas to liquids(GTL)
Gas liquefaction (LNG)
Nuclear power plants
Flue gas cleaning (scrubbers, mercury)
Hydrogen economy
Power plant dispatch optimization
Integrated gasification combined cycle (IGCC)
Synfuels from gasification
CO2 separation and deposition
System load management
Fuel cells
Integrated energy solutions!
43
THANK YOU!
44
EMERGING TECHNOLGIESIN THEENERGY INDUSTRY

PRESENTATION
Jan Carr, Ph.D., P.Eng.
CEO, Ontario Power Authority (OPA)
Electricity in Tomorrows Energy Supply

45
Electricity in Tomorrows Energy Supply

Engineering Innovations Forum
Ontario Science Centre
March 1, 2007

46
Moving Power
Niagara Falls 1890s
47
The Lighting Business
limelight, gaslight and electric lighting station
London 1890s
48
Birth of Electricity Sector
generation technology transmission technology
utility electricity service
lighting
distribution technology utility business
49
Ontario Electrifies
Niagara Falls power arrives in Berlin (Kitchener)
and Toronto 1910-1911
Adam Becks Electric Circus
50
Scale and Technology
steam turbines replace reciprocating steam engines
51
Technical Development and Economy of Scale Drive
Expansion
new construction
technology advance
bigger size
lower cost
higher use
52
Business Model
Ontarios Hydro Family
53
Disruptive Innovation
aircraft industry changes the economics of high
powered engines arrival of gas turbines to
electricity generation
54
Disruptive Economics
55
Restructuring the Electricity Sector
increasing number of investors
innovation reduces barriers to entry
protected monopoly gives way to multilateral
competition
slow down in growth of electricity use
shrinking investment needs
56
Migration of Electricity
essential utility service with reliability and
availability that is fundamental to the economy
specialized solution to lighting or energy
deployment for industrial applications

an energy currency
intermediate form of energy
created from variety of sources
usable for a variety of applications
fungible and standardized

component of an integrated process
lighting service
industrial complex

57
Where to Next?
new energy currency
58
Economic Innovation Smart Meters
59
Technical Innovation Electricity Production
60
Technical Innovation - Supply
61
Technical Innovation Electricity Uses
mass markets driven by standards
industrial and commercial markets driven by
economics
62
Another Energy Currency
two currencies with synergies that expand the
scope of each
63
OPA Conservation and Technology Development Funds
energy efficient buildings
kinetic hydropower
low windspeed turbine
decentralized peak load coordinator
64

tomorrows electricity will be shaped by
convergence of challenges and opportunities
technological advances that affect electricity
production and use
technological advance that affect hydrogen as a
complementary energy currency
general economic factors which affect the
business context and commercial structure of the
electricity industry

65
EMERGING TECHNOLGIESIN THEENERGY INDUSTRY

PRESENTATION
Scott Rouse, P.Eng., MBA, CEM
Managing Partner, Energy _at_ Work
Vision for Tomorrow A Review of the Facts

66
Vision for Tomorrow based on a customer
review of the facts
"EMERGING TECHNOLOGIES IN ENERGY
INDUSTRY"Ontario Science Centre March 1, 2007
from 6 pm to 10 pm http//www.peo.on.ca//EIF/2007
.htm
An Ontario Energy Champions perspective Scott
Rouse, P.Eng. MBA, CEM CSDP Managing Partner,
Energy _at_ Work www.Energy-Efficiency.com 416
402.0525
67
Ministry of Energy Requested Advice

OPAs Ontarios Supply Mix Advice Report, Dec.
9, 20055 is a Prudent Planning Assumption
to Ontarios electricity demand (from long term
planning perspective)- we took a look at the
facts from a customer perspectiveNote This is
the first presentation on the Ontario Energy
Champion Report - Thank you!(privately
funded and available on line www.Energy-Efficiency
.com)

68
Ontarios Projection (2006) Real challenges
AND- our investments can become our strength
69
Our key drivers Real Bottom Line
1) Reduce operating costs Fossil Dependency
Electricity 2) Global Competition is demanding
more with less 3) Increase profit and
productivity pressures 4) Increasing issues as
well as protecting market share 5) Reduce
environmental liabilities and risk
70
Ontario Energy Champion Report

Customer Perspective Light / Heat / Comfort /
Safety / etc. Vs kW or kWh (Supply
Solutions)Are there smarter choices Vs the
status quo?Alternative Tos e.g.
Customer co-generation / district heating/cooling
systems Methane recovery at sewage plants for
generation Prohibit once though cooling (less
than 50 efficiency) etc. Alternative
Methods Lighting re-design for 50
savings, ban incandescent Daylight
harvesting, solar water heating Controls
motion / infra red systems Photo luminescent
material to enhance safety

71
Prosperity does not equal Consumption

The numbers supportParadigm of meeting
Consumption with More Supply does not provide the
breakthrough we need.
Fresh questions, new tools and re-define our
evaluation calculator, i.e. - economic
prosperity- environmental performance, and -
socially responsibility security New
Success Criteria

72
http//www.thegreatwarming.com/index.html
Triple Bottom Line Criteria is Front Page News
Economic Prosperity 25 IRR Environmental
Performance Beyond Compliance Social
Responsibility Leadership
Triple Bottom Line!
73
Economic Prosperity 25 Internal Rate of Return
encouraging our customers to use energy more
efficiently and making a radical reduction in our
own energy consumption.
http//www.bpgas.co.uk/community
BP Beyond Petroleum
Dow was chosen as a Showcase Company based on
the Companys leadership in energy efficiency.
From 1994 to 2005, Dow reduced its global energy
intensity by 22, exceeding an aggressive
corporate goal and cumulatively saving more than
900 trillion Btu.
74
Environmental Performance Accepted
2002 actual emissions
2030 projected emissions
Stern ReportHadley Centre for Climate
Prediction and Research Based on Folland et al
(2000) and Jones and Moberg (2003)An
Inconvenient TruthAl Gores 2007 Academy Award
winning documentary
annual average forecast growth in emissions to
2030
Power generation growing fastest
75
Social Responsibility Bottom Line
Imagine a World, (January 29, 2007)in which
socially responsible and eco-friendly practices
boosts a companys bottom line. Its closer than
you think Peter Engardio, pg. 50
More examples everyday and in popular media
Oprah Magazine, pg. 230, article with Bobby
Kennedy includes pollution based
prosperity discussion National Post, pg.PH7 on
Green Homes Plus .
76
New Realizations For this month!

FEBRUARY 2007 IN THE HEADLINES Wal-Mart in
pledge to slash its carbon footprint Big firms
unite over climate change Tesco boss unveils
green pledges Gore's Oscar-nominated film
credited in global warming GE Energy Provides
40 Million Financing Investment banks eye
joint climate change strategy Dell, The
Conservation Fund and Carbonfund.org Launch
Global Carbon-Neutral Initiative California
Governor Sets Low Carbon Fuel Standard U.S.
Senator Boxer lays out climate change plans
General Electric, AES Plan GHG Reduction
Partnership Virgin's Branson offers 25 mln
global warming prize

77
Ontario Energy Champions Agree!

12 Case Studies Demonstrating that there are
better choices to achieve real results Our
destination is determined by our vision of
tomorrow and the investment we make today - we
must invest wisely, step up to the challenge and
protect what is not ours to waste- now -
Let the facts speak!

78
LESSON 4
"Don't be afraid to challenge the pros, even in
their own backyard."
Learn from the pros, observe them, seek them out
as mentors and partners. But remember that even
the pros may have leveled out in terms of
their learning and skills. Sometimes even the
pros can become complacent and lazy. Leadership
does not emerge from blind obedience to anyone.
Xerox's Barry Rand was right on target when he
warned his people that if you have a yes-man
working for you, one of you is redundant. Good
leadership encourages everyone's evolution.
Reference General Colin Powell- A Leadership
Primer
79
61 rejected energy Vs 36.2 Useful
(61 Waste)
(36.2)
http//eed.llnl.gov/flow/02flow.php
80
Electricity Flow Chart 1999 (Quadrillion BTU)
USEA (2001) Toward a National
Energy Strategy
(66 Waste)
(34)
(100)
Supply Costs Generation / Transmission and
Distribution at 4,000/kWEnd Use Efficiency at
1,000/kW (California experience)41 benefit
without the waste! kW saved is worth more much
more.
z
81
New and Emerging Energy Efficiency Economy
Fossil Fuel Economy - mature industry - 3
Trillion - Climate challenged
Slight Decline in fossil economy is measured in
Billions transferring to our new Energy
Efficiency Economy
Energy Efficiency Economy
Investment
Growth
Chasm
Time
Correction
Mature
Development
Courtesy of Energy _at_ Work MECH and ASSOCIATES
82
Example Nanotechnology

Energy mix of the future? Generation and
storage of renewable energy will be the fastest
growing sector in energy market for next 20
years. (Helmut Kaiser)Market volume worldwide
will increase from US 95.8 billion in 2007
US 124.4 billion in 2010 and US 198.1
billion in 2015 - based on the value chain.
Energy efficiency will increase by 1 / 3 /yr -
120,000 direct employment by 2010 and 2more
indirect.
3 major market driving forces Climate change
economical damage (1 to 5 of GDP) Pricing.
Fossil rising volatile Vs renewable
Location No infrastructure step change
opportunity Source Engineer Live

83
Once given the chance they succeed
LED Lighting Control systems Solar water
heating Deep lake cooling Energy from
Waste Energy recovery Re-commissioning
84
Barriers are Real 33 in fact

Attention No time or incentive to change
Affordability Dont have money to change
Awareness Dont know opportunities exist
Attitude Not part of my business
Accountability Energy Efficiency is not
measuredNeed Partnerships and new thinking
to overcome

85
Where to begin? Remove the Confusion

Three Keys
Vision- customer focus
Investment- equal playing field
Experience- leverage lessons

Use these challenges to enhance Ontarios
Competitive Advantage
86
Advice Vision, Transparent Investment and
Experience Starting right!

New Construction "We shape our buildings
thereafter they shape us. (WINSTON
CHURCHILL)
TechnologiesLighting, motors, equipment, system
purchases.etc.

Look beyond the 8 first cost
Focus on the true costs Our decisions impact
the 92 life cycle costs hidden, but
what we and our children inherit.
87
E_at_W Plan Field Tested Framework- supporting
the vision
Vision
E_at_W Plan
2.0Audit
1.0 Benchmark
3.0Results
Internal External Site Description
Operational engagement Stakeholder contribution
Score Sheet Utility Data for 25 months
Best Practice Matrix Market Conditions
Projects Cost Savings Behaviour
Operations Load Reduction Performance
Optimization
88
Transparent Investment Real Time Monitoring
Courtesy of
89
Experience Companies do get do it!

Unilever
6M annual savings
Dupont
Energy use flat
35 production increase
85 GHG reduction
In-house supply side
90 M annual savings
2.6 M tonnes reduced GHG
2.2 M Emission credits
Canada / USA Awards
T-D Centre
27 reduction
Energy Plan
Real time monitoring

Eastman Kodak
33 lower energy consumption
Owens Corning
98 Base 260 M
02 Base 225 M
18 Production
10 Unit Energy increase
Hudsons Bay Company
Companies not taking energy seriously will not
be competitive.

90
Result Negawatt Generator - Homes, Business, etc.
Customeravings
Avoided Generation Transmission
Distribution
Exciting Partnership OPA / Boma Program with
400/kW incentive
91
Triple Bottom Line Calculator
Result?A Paradigm Shiftin new possibilities!
92
Vision Challenges can become strengths!

1. Success requires a vision of tomorrow-
investment today for a better tomorrow.
2. Electric deregulation to benefit customers -
focus on customer needs first
3. Protecting the Status Quo is not an option.
4. Ontarios competitiveness is essential-
comprehensive solutions are needed.

93
Transparent Investment /kW made or saved

5. Base kW/ kWh value on facts - consider the
true cost / benefit investment.
6. Capture economic energy first - best
return on investment supply demand
7. The method to best deliver conservation - is
determined by the customer, so ask / listen!
8. Integrated solutions are needed - we must
maximize benefits remove silos.

94
Experience (Conservation is real)

9. Investments must respect the work needed-
tools and investment are required.
10. Process needed to eliminate barriers-
example is time for certificate of approval
11. Require consistent government messages
Vertically Horizontally.
12. Focus investment on results - not process /
administration

95
Energy _at_ Work

Our mission is to deliver sustainable and cost
effective solutions for our clients
Benefits - Triple Bottom Line Economic
Prosperity
Environmental Performance
Social Responsibility Security

Utility Plan
Monitoring
Projects
Training
96
Scott Rouse, P. Eng, MBA, CEM CSDP
Energy _at_ WorkScott.Rouse_at_Energy-Efficiency.com41
6 402.0525
Reference Ontarios Energy Champions
ReportSee www.Energy-Efficiency.com
97
EMERGING TECHNOLGIESIN THEENERGY INDUSTRY