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Energy
Energy is defined
as the ability to do
work.
Work is defined as
the transfer of
energy
Chuck Evans
Facilities Manager
JFH-MS-ARF-FM
JFH-MS-ARF-FM
JFH-MS-ARF COL Donald M. Windham - CFMO
JFH-MS-ARF-FM
COL Sam Massey – Facilities Supervisor
Chuck Evans [Manager (601)313-6366]
Danny Stegall [Fire Marshall (601)313-6366]
Keith Wallace [AT/FP Engineer (601)313-6590]
Angel Rigney [Utility Clerk (601)313-6331]
Ed Birmingham [Engineer Asst.]
AND
John Harnish, Installation Energy Manager
(601)313-6275
Why Conservation?
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•
•
From the mid-1980s to September 2003, the inflation adjusted price of a barrel of
crude oil on NYMEX was generally under $25/barrel. Then during 2003, the price
rose above $30, reached $60 by August 11, 2005, and peaked at $147.30 in July
2008. Commentators attributed the price increases of this period to a confluence of
factors, including reports from the United States Department of Energy and others
showing a decline in petroleum reserves,[2] worries over peak oil,[3] Middle East
tension, and oil price speculation.
U.S. real gross domestic product (GDP) is expected to decline by 2.7 percent in
2009, triggering decreases in domestic energy consumption for all major
fuels. Economic recovery is projected to begin in 2010, with 2.2 percent year-overyear growth in GDP. Accompanying the projected economic recovery should be a
mild rebound in energy consumption for all the major fuels in 2010.
United States Of America
Electricity generation in the U.S. depends primarily on fossil fuel (coal, oil and natural
gas), fulfilling over 71% of our electricity needs. Another 20% of our electricity
generation is from nuclear power. Increasing demand for electricity will likely increase
electricity production using fossil fuels faster than that using nuclear power since any
approval for a new nuclear power plant has to overcome huge technical and political
hurdles.
Oil Field Forecasts
Projected Oil Production Peak Year by Oil Expert
Big Gushers:
Projected output of world’s top oil fields, in million
barrels of oil and natural gas liquids produced daily
Peak Year
Oil Expert
Oil Field
Country
2007
2010
% Chg
2006-2007
A.M. Samsam Bakhitari
Ghawar
Saudi Arabia
5.6
5.0
-10.7
2007-2009
Matthew R. Simmons
Cantarell
Mexico
1.7
1.2
-30.3
After 2007
Chris Skrebowski
North & South Rumaila
Iraq
1.3
1.3
0.0
Before 2009
Kenneth S. Deffeyes
Greater Burgan
Kuwait
1.2
1.3
1.5
Before 2010
David Goodstein
Safaniyah
Saudi Arabia
1.2
1.3
12.5
Sonatrach Oper. Fields
Algeria
1.1
0.9
-13.5
Around 2010
Colin J. Campbell
Daqing Fields
China
0.8
0.7
-12.9
After 2010
World Energy Council
Gachsaran
Iran
0.7
0.7
0.0
2010-2020
Jean H. Laherrere
Ahwaz Asmari
Iran
0.6
0.5
-14.2
2016
Energy Information
Administration Nominal Case
Azeri Chirag Guneshli
Azerbaijan
0.6
1.2
72.6
Samotlorskoye
Russia
0.6
0.6
0.0
Cambridge Energy Research
Associates
Bu Hasa
United Arab Emirates
0.5
0.7
32.7
Ku-Maloob-Zaap
Mexico
0.5
0.7
42.8
2025 or later
Shell
Northern Fields
Kuwait
0.5
0.8
44.4
No visible Peak
Michael C. Lynch
Upper Zakum
United Arab Emirates
0.5
0.6
10.7
Rest of world
69.9
77.3
10.5
After 2020
Source: Hirsch, Robert et al. February 2005. Peaking of World Oil Production: Impacts,
Mitigation and Risk Management. Prepared for the US Dept of Energy
Source: Wood Mackenzie
JFH-MS-ARF-FM Energy Goals
•Demonstrate leadership in smart energy management.
•Save taxpayer dollars through energy cost savings.
•Renew and rejuvenate MSARNG buildings and related infrastructure
at minimal cost to agency (Increase energy efficiency).
•Protect air quality and conserve water.
•Contribute to the nation's energy and economic security (Reduce
dependence on foreign oil).
Energy conservation goals (established by Congress and Executive Order
13423 for all Federal agencies)
Reduce energy consumption by 20% from 2003 to 2015 (EPAct)
Reduce energy consumption by 35% from 2003 to 2015 (EO)
Reduce greenhouse gas emissions by 30% from 1990 to 2010 (EO)
DoD’s installation energy program IS the Federal Energy Program (we are
65% of the total) $2.3 billion/year; 250 trillion BTUs
MSARNG Pamphlet 11-27
The following energy conservation actions will be implemented by
all units/activities of the MSARNG:
1. Appoint and train Energy Councils as required.
2. Appoint and train Building Energy Monitors for every building in
the MSARNG.
3. Immediately complete, implement, and comply with all No Cost
checklist items in Annex A, MSARNG Pam 11-27.
4. Complete and implement as many of the Low Cost and
Medium/High Cost items in Annex A as available funding will allow.
5. Complete and implement an Energy Management Plan.
6. Report all violations or non-compliance through Chain-ofCommand.
MSARNG Utility Costs
Energy Type
Total Use (FY06)
Total Cost
Electric Total
58,174,600 kWh
$5,053,813
Propane Total
10,500 gals
$
27,786
16,047 gals
$
Natural Gas Total
161,623,700 ccf
$1,413,254
987,417 ccf
$1,027,666
Trash Total
$572,417
Water/Sewer Total
90,000,045 gals
Total Non-Armories
$6,350,053
$5,556,066
Total Armories
$ 782,542
$1,045,233
Grand Total
$7,132,595
$ 6,601,299
Note: 31 different utility
providers for Federal Facilities
Total Use (FY08)
55,619,636 kWh
Total Cost
$4,711,933
$
$
93,110
22,274,650 gals $
36,034
743,966
81,701
Building Energy Monitors
Responsibilities:
1. Complete checklist in Appendix A and Annex B of
MSARNG Pam 11-27 and retain for Command Inspection
with a copy forwarded to JFH-MS-ARF-FM.
2. Inform building occupants of Energy Management Plan
and monitor compliance with the plan.
3. Set the building thermostat controls and operating
hours.
4. Forward copies of all utility bills to JFH-MS-ARFFM monthly (mail, fax or e-mail).
Energy Councils
Comply with MSARNG Pam 11-27
Establish reasonable goals and objectives –
Be realistic, do not attempt to reduce energy consumption by 20%
in the first three months.
Assess Your Resources - What tools do you have available to reduce
energy consumption? (full time staff, M-Day soldier awareness,
posters, and publications).
Record Your Efforts – Publish an Energy Conservation Plan.
Identify how energy is being used and/or wasted.
Identify energy conservation opportunities that reduce energy use
and/or cost.
Risk versus Return
Most energy projects are very low risk.
Many options have high returns for low initial investment cost
(compact fluorescent and T-8 fluorescent).
Capital projects have very long life (current and recent capital
improvement projects at AVCRAD, CSJFTC, AASF-MEI, AASF-JAN and
others pending).
Energy Efficient Lighting Options
Lighting accounts for approximately 25 percent
of all electricity used in the MSARNG.
Lighting – Savings Measures
Turn off lights in unoccupied areas.
Reduce lighting in daytime as you can.
Reduce light levels in non-working areas such as hallways.
Clean walls and windows and use light color paints on walls and ceilings if possible.
Remove unneeded light bulbs (4 bulb fixtures-outside 2)
Clean fixtures and covers.
Replace incandescent bulbs with compact fluorescent (saves $10.00 per year in
electricity per bulb)
Fluorescent lamps are much more efficient than incandescent bulbs and last 6 to 10
times longer. Although fluorescent and compact fluorescent lamps are more expensive
than incandescent bulbs, they pay for themselves by saving energy over their lifetime.
Scheduling – Turn lights off manually in areas that do not require continuous light; or
install occupancy sensors.
Replace T-12 with T-8 fluorescent bulbs and ballasts.
Do not illuminate the building.
Use task lighting rather than overhead lights as much as possible.
Outdoor Lighting Tips
• Many lights can be controlled with motion detectors, so they only turn
on when they are needed. Use outdoor lights with a motion detector
and photocell so they will automatically turn off during the day.
(Philadelphia, Greenwood, Rolling Fork, Senatobia, Canton, Clinton,
Houston, MS have all been retrofitted with motion controlled securtity
lights)
• Turn off architectural lighting (lighting up the facility).
• Exterior lighting is one of the best places to use CFLs because of their
long life.
Other Electrical – Savings Measures
Turn off all unnecessary equipment when not in use.
Personal heaters will not be used (1500 watts).
Have vendor remove light bulbs from all vending/snack machines.
Turn off computer monitors, printers, transformers when not in use
(power strip).
Heating – Savings Measures
∙Close off unused areas and rooms. Have employees work in a single zone if possible.
Lower heat settings whenever possible (no higher than 65 degrees).
∙Reduce heat to 55 Degrees during periods of non use such as nights and weekends
(turn off if not freezing weather).
∙Make sure windows and doors are closed and properly sealed.
∙Do not heat the drill hall except on drill.
∙Replace air filters regularly.
∙Turn off all heaters when outside air temperature reaches 65 degrees.
Cooling – Savings Measures
Close off unused areas and rooms.
Turn off AC after operating hours.
Ensure doors and windows are closed and properly sealed.
Replace air filters regularly.
Zone employees if possible.
Close blinds, drapes, or shades to prevent solar heating.
Use personal fans and set thermostat to highest level possible for comfort
(no lower than 75 degrees).
Water – Savings Measures
Repair leaking faucets, toilets and urinals.
Inspect hot water heater semi-annually.
Turn off hot water heaters when not required.
Set hot water temperature to 105 degrees unless using for dish
washing (140 degrees).
Drain sediment from hot water tanks.
Refrigeration – Savings Measures
Defrost refrigerators and freezers regularly.
Only use refrigerators for MSARNG food activities (unplug and open
doors when not in use).
Set controls as low as possible for preservation.
Keep doors closed and replace gaskets as needed.
Clean coils regularly.
Building Envelope – Savings Measures
Repair or replace broken windows or doors.
Keep doors and windows closed.
Install shades, curtains, or blinds on windows and doors.
Replace weather stripping around windows and doors.
Check insulation in ceilings and roofs.
Paint walls with light, reflective colors.
Monitor utility bills! Be familiar with what you are charged and how you are
charged.
Energy Audits
• We conduct energy audits as often as possible of facilities identified as
large users.
We are there to assist in reducing consumption; not to inspect.
We identify methods of saving energy and advise the unit POC.
We record energy data in the FM database and monitor results.
Requests for audits can be forwarded to Chuck Evans or John Harnish.
JFH-MS-ARF-FM Energy Training
• JFH-MS-ARF-FM can provide training to units or commands if
requested.
• Training is similar to this with emphasis on individual actions to
reduce energy consumption.
• Can provide energy pamphlets and stickers as requested.
• Use the web based energy training at:
http://www.ngms.state.ms.us/cfmo/Energy_Training.ppt
•
•
In September 2005, the Mississippi Army National Guard, Facilities
Management Office, in cooperation with the Department of Public
Works, Camp Shelby, MS began a project to conserve energy and
water at Camp Shelby. The project involved replacing 60 year old gas
fired boilers with instantaneous gas fired water heaters, installing lowflow faucets, flush valves, urinals and shower heads, installing motion
controlled safety and security lighting, and replacing inefficient
incandescent lights with T-8 florescent lighting. This project involved
approximately $2.85 million dollars and 83 latrine buildings, 58 dinning
halls and/or day rooms and disposal of hazardous wastes.
The project was completed in August 2006 on time and within budget.
This is one of many energy conservation projects completed in the
past four years at Camp Shelby, MS through the efforts of the
Facilities Management Office, Facilities Management Division (JFHMS-ARF-FM), and Department of Public Works, Camp Shelby, MS.
These include $4.3 million electrical distribution system
improvements, $1,081,752 barracks improvements to include
insulation, energy efficient HVAC installation, and electrical
improvements, $21,000 lighting project replacing incandescent
fixtures with T-12 fluorescent in the Troop Issue Subsistence Activity
(TISA), $7 million water system improvements project to include a new
water tank, new deep well, treatment plant, and all new pipe system
throughout the facility., and $45,000 lighting project at the MATES
(Mobilization Equipment Storage) facility.
•
The Mississippi Army National Guard, Facilities Management Office,
Facilities Management Division also has developed a comprehensive
energy conservation training program that is available on our web site
for use by commanders and soldiers at all levels. The FM Division
also regularly conducts energy conservation training at administrative
officer meetings and course for new commanders and first sergeants.
All construction projects for new facilities and for maintenance and
repair are reviewed at the 35% and 95% level by the division for energy
conservation opportunities and energy efficient materials and
equipment to include motion controlled lighting within the facility and
security lighting as well as HVAC design, T-8 or T-12 and compact
fluorescent usage, low flow fixtures for water and instantaneous water
heaters.
•
What was the impact of the project? This project has dramatically
decreased Camp Shelby gas and electric energy costs and
substantially lowered water usage as well as waste water required to
be treated. While the full potential of this project cannot be calculated
as of this date due to the use of Camp Shelby as a mobilization station
for the war on terror, the simple payback period has been calculated to
be 4.5 years on water conservation and 7.8 years on energy
conservation measures. Calculated potential savings of $426,483 per
year were based on the price of energy and water conservation at the
time of project development in March 2005. Since that time, Camp
Shelby has seen rapid growth and use as a mobilization station and
energy prices have escalated dramatically.
The Difference is:
$
If every unit or activity in the MSARNG would reduce
energy consumption by 10%, the savings would equal
over $660,000.00. That money could be used to repair
armories or for utility infrastructure improvement
projects to generate additional savings.
Every full-time employee and/or soldier is an asset for
potential savings.
[email protected]
[email protected]