1) The document outlines San Francisco's Green ICT program and four-part plan to measure and reduce the environmental impact of information and communication technologies (ICT) by 24% by 2012.
2) The plan includes building an initial baseline of ICT energy consumption, implementing energy conservation measures like power management and server virtualization, and measuring indirect impacts through projects in energy, buildings, transportation, and health.
3) Results are expected to include reductions in greenhouse gas emissions, waste, and raw materials used, as well as addressing social inequity by increasing access to technology, jobs, education and services.
4. Agenda
Welcome To San Francisco
San Francisco Four Part ICT Plan
Harness the Mandate
Build a Baseline
Make Change
Communicate
Results of Green ICT Change Projects
Reducing emissions
Reducing waste produced
Reducing raw materials
Addressing social inequity
Indirect
What’s Next
6. San Francisco Climate Goals
Greenhouse Gas Emissions nari
o
ge Sce
han
Actual No C
9.7 2002 Climate Change
9.1 9.2 Resolution Goal
Million Tons eCO2
7.3
6.8
5.5
2008
Targets
1.8
GHG Reduction Targets 25% 50% 80%
1990 2000 2005 2012 2017 2025 2050
7. Green ICT
By “Green” we mean a reduction
in the…
Energy consumed and green house
gas emissions
Waste produced and materials used
By “Information and communications
technology (ICT)” we mean electronic…
Devices that are linked to communications networks
Whose essential function is the creation, manipulation, storage,
movement or presentation of information in any human
or machine readable form
8. Green ICT Framework
Vision – Connected Urban Development
Mission – Measure and reduce carbon footprint by 24% by 2012
Approximate Incremental Life-Cycle
Life-Cycle Phase Measure* GHG Emission Reduction (%)**
Improve manufacturing energy efficiency 6%
Production
Reduce emissions from semiconductor manufacture 3%
100% power management 8%
Use Purchase ENERGY STAR v3.0 compliant PCs 1%
Turn PC off during periods of non-use 2%
Upgrade to extend PC life by 50% 7%
End of Life
Maximize recycling of PC control units 1%
Total 28%
Four Part Plan
1. Harness the Vision
2. Build a baseline
3. Make Change
4. Measure and communicate results
9. Step 1: Harnessing the Vision
Greenhouse Mayor’s Executive
Gas Directive “Initiatives to
Emission Measure and Reduce
Reduction Environmental Impact
Resolution of Government ICT”
Environmentally Connected Urban
Preferable Development
Purchasing Conference –
Ordinance Amsterdam
Feb June Feb Sep
2002 2005 2008 2008
Mar Oct Apr Jan
2003 2007 2008 2009
Precautionary City Climate
Principle Change ordinance
Adopted requires
Departmental
Action Plans
Green ICT Departmental
project Climate Action
launched as Plans To Be
part of CUD Completed
initiative
10. Step 2: Building the Baseline
Assess energy consumption
Create initial baseline for City of environmental impact of
ICT
Determine what areas will have the
most impact on action plans
11. ICT Electricity Consumption in
Commercial Office Buildings
15,628
Kwh/day 14,264
Kwh/day
% Building Electricity Use
ICT = 28%
ICT = 26% ICT = 26%
ICT = 20%
4,327 3,699 U.S.
Kwh/day California
Kwh/day Average Average
City Hall 1 South Van Ness U.S. DoE CBECS CA Energy
Data Commission CEUS
Data
12. ICT Electricity Consumption
ICT Energy Consumption kWh
PCs, Monitors & Laptops
51%
Data Center
14%
2% Radio
12%
Servers (not in data center)
4% 3%
Network
14%
Phones (landline &
cell recharge)
Printers
13. Step 3: Make Change
Energy Conservation Measures
Reduce desktop/pc
kWh Saved
power consumption
Printing/imaging Energy Efficient, 54%
consolidation Power Managed PCs
Data Center
10%
Reduce power of non 0%
Wind Power for
Radio Facility
data center servers
20% Printer Consolidation
Build new data center 16% 0%
Server Consolidation/ Cell Recharge
Alternative sources Virtualization
Other
16. Reduce Waste: Computer Store
Summary of Environmental Benefits for Purchase
of 9,000 EPEAT Certified Desktop Computers
Mass-based Savings Summary
7000000
6000000
5000000
4000000
3000000
2000000
1000000
0
Primary GHG Air Water Toxics MSW HazW
Materials emiss emiss emiss
Source EPA – Electronic Environmental Benefits Calculator
17. Reduce Energy Consumption -
Main Data Center
4,334
Kwh/day
“Best Practice” -45%
Kwh of Electricity Use
2,384 Kwh/day
“State-of-the-Art” -55%
1,950 Kwh/day
Existing Data Center New Data Center, 2010
19. Address Social Inequity
SFConnect – A new approach to Government
Bring services directly to those in need
Community for the community
Technology enabling service delivery
Homeless, Parks, Youth, Technology
TechConnect – Connecting community with technology
Increase access jobs, education, healthcare, and services
Better engage and participate in their communities
Fully participate in the global information economy and society
Framework
Access
Equipment
Focused Content
Training and Support
21. DSL/Cable Modem Broadband Use
Well Above U.S. Average
85+% of Households Have DSL/Cable Modem
Q2 and Q3: Internet Access
Telephone Dialup 4.5%
DSL 47.2%
No Yes
10.2% 89.8%
Cable Modem 29.5%
Paid Wireless 5.3%
Free Wireless 2.5%
Other 0.8%
22. 80+% See Role for
City in Advancing Access
Q56: MAIN Role of the City Should Be…
No role Install wireless network and
offer Internet to public
23%
14%
Other 5%
15% 25%
Encourage private firm to
build fiber optic network
Install network and offer Internet,
18% cable and phone service
Install network and lease to
companies (phone, Int, cable)
23. Step 3 Make Indirect Change
Sectors
Energy – Wind Power
Building – 1SVN Changes
Transportation – Connected Bus, SF Park,
Telework
Health – Urban Telemedicine
24. Local Renewable Energy:
Wind Power
Normalized 33-foot Diurnal Wind Speed Patterns –
Twin Peaks
25. Building Management
Use digital controls
Dept of Technology headquarters
undergoing retrofit of HVAC and lighting
system
Replace pneumatic controls with direct digital
controls and other measures
Reduce energy consumption by
1,300,000 kWh/yr 3600/kWh day
27. SF Park Pilot Project
Usage by Rate and Type
All Blocks, Study Period
100%
80% Unmetered
Unpaid, No DP
60%
$5/hr
$4/hr
40%
$3/hr
20% DP
0%
10:00
11:00
12:00
13:00
14:00
15:00
16:00
17:00
18:00
19:00
20:00
21:00
22:00
23:00
1:00
2:00
3:00
4:00
5:00
6:00
7:00
8:00
9:00
0:00
28. Telework Depressed
Due to Low Broadband Speeds
Q50: Internet Needs to Work at Home
70%
62.3%
Percent of Respondents
60%
50%
40% 36.7%
30.3%
30% 25.8%
19.5%
20%
10%
2.0%
0%
Very high reliability Very high speed High speed DSL/cable speed Low Internet speed Work at home
(100Mbps+) (10-100 Mbps) (1-10 Mbps) is adequate not feasible
Q51: If Had Sufficient Speed,
How Many Days per Week Would You Work at Home
35%
30.1%
30%
Percent of Respondents
25.6%
25%
20%
16.6%
15% 11.9%
10%
6.3% 5.8%
5% 3.7%
0%
None One Two Three Four Five Six or more
Note: Total does not equal 100% since some had multiple responses.
29. Potential Telework Increase Given
Sufficient Internet Speed
7%
6%
5%
4%
3%
2%
1%
0%
Car-alone Carpool Walk Public Transit Other
5+ days 4 days 3 days 2 days 1 day
30. Potential Savings:
Emissions
Grams Kilograms Kilograms
Emission per mile per year per year (adjusted)
Reactive Organic
0.34 55,007 64,007
Gases (ROG)
Nitrogen Oxides
0.47 76,039 88,480
(NOx)
Fine Particulates
0.52 84,128 97,893
(PM10)
Carbon Monoxides
2.91 470,792 547,826
(CO)
Greenhouse Gases
71,185,110 82,832,759
(CO2)
31. Health - Urban Telemedicine
Fiber-based Broadband Connections to 11 Community Health Centers
32. Step 4: Communicate
The EcoMap Project
Engage Citizens by
Show resources, consumption
Facilitating planning for mitigation
Build on City’s Solar Map