2. Sustainability
3. SUSTAINABILITY exploiting natural resources without destroying the ecological balance of an area
able to be maintained
4. SUSTAINABILITY
“Sustainable development challenges the entire industrial and commercial system to restructure itself…”
Warren Bennis (1925 - ) U.S. Educationalist and Writer
Beyond Leadership: Balancing Economics, Ethics and Ecology, 1994
5. Renewable energy utilizes natural resources such as sunlight, wind, tides and geothermal heat, which are naturally replenished. What is Renewable Energy?
6. The Southeast has almost no potential for wind energy
7. Wind Potential Maps show potential for wind and solar use in the U.S.
Dark blue and red show the best options for wind/
The Southeast has almost no opportunity for wind generation -- only potential sites are pristine southern Appalachian ridge tops and off-shore
80% of all new Renewable Generation is through wind turbine additions
>5000 MW added in 2006! ~>3300 Turbines
Maps show potential for wind and solar use in the U.S.
Dark blue and red show the best options for wind/
The Southeast has almost no opportunity for wind generation -- only potential sites are pristine southern Appalachian ridge tops and off-shore
80% of all new Renewable Generation is through wind turbine additions
>5000 MW added in 2006! ~>3300 Turbines
8. Where We’re Headed�Researching wind potential off the Georgia coast Maps show potential for wind and solar use in the U.S. – Darkest colors show the best options for wind.
The Southeast has almost no opportunity for wind generation -- only potential sites are pristine southern Appalachian ridge tops and off-shore
A joint study beginning in 2004 of wind power generation potential off the Georgia coast, conducted by Georgia Tech and Southern Company, concluded that there may be enough wind – in the 15- to 17-mph range – to power an offshore wind farm.
What’s Next: Earlier this year Southern Company nominated three sites off Tybee Island for the placement of meteorological towers to collect additional data.
Southern Company is currently working with Minerals Management Service of the Department of the Interior to permit installation and operation of meteorological towers. MMS will conduct a public meeting in Savannah on Nov. 12, 2008 as part of a rulemaking process to instruct entities on how to apply and install alternative energy projects on the Outer Continental Shelf. There has been a moratorium on all of these activities in federal water since July 2005
Issues: Current commercial offshore wind turbines are not built to withstand major hurricanes
above a Category 3 or a 1-minute sustained wind speed of 124 mph.
While available wind data indicates that a wind farm located offshore in Georgia would likely have an adequate wind speed, project costs run approximately 50% – 100% higher than land-based systems. Based on today’s prices for wind turbines, a commercial size 50 MW to 160 MW offshore wind farm could produce electricity at 12.9 to 8.2 cents/kWh respectively.
Potential benefits:
• Free fuel for the duration of the project with no impacts from increasing fuel prices.
• Renewable energy credits and/or potential reduced costs from carbon credits/avoided taxes.
• Potential for the creation of a new industry and new job opportunities within Southern Company’s service territory.Maps show potential for wind and solar use in the U.S. – Darkest colors show the best options for wind.
The Southeast has almost no opportunity for wind generation -- only potential sites are pristine southern Appalachian ridge tops and off-shore
A joint study beginning in 2004 of wind power generation potential off the Georgia coast, conducted by Georgia Tech and Southern Company, concluded that there may be enough wind – in the 15- to 17-mph range – to power an offshore wind farm.
What’s Next: Earlier this year Southern Company nominated three sites off Tybee Island for the placement of meteorological towers to collect additional data.
Southern Company is currently working with Minerals Management Service of the Department of the Interior to permit installation and operation of meteorological towers. MMS will conduct a public meeting in Savannah on Nov. 12, 2008 as part of a rulemaking process to instruct entities on how to apply and install alternative energy projects on the Outer Continental Shelf. There has been a moratorium on all of these activities in federal water since July 2005
Issues: Current commercial offshore wind turbines are not built to withstand major hurricanes
above a Category 3 or a 1-minute sustained wind speed of 124 mph.
While available wind data indicates that a wind farm located offshore in Georgia would likely have an adequate wind speed, project costs run approximately 50% – 100% higher than land-based systems. Based on today’s prices for wind turbines, a commercial size 50 MW to 160 MW offshore wind farm could produce electricity at 12.9 to 8.2 cents/kWh respectively.
Potential benefits:
• Free fuel for the duration of the project with no impacts from increasing fuel prices.
• Renewable energy credits and/or potential reduced costs from carbon credits/avoided taxes.
• Potential for the creation of a new industry and new job opportunities within Southern Company’s service territory.
9. Solar Intensity: United States Birmingham 99
Pensacola 105
Savannah 104
Las Vegas 210
The solar resource is moderate, but not significant.
Birmingham 99
Pensacola 105
Savannah 104
Las Vegas 210
The solar resource is moderate, but not significant.
10. Making Solar Work Evaluating cutting-edge solar technologies
7 photovoltaic technologies installed on roof of corporate office
5 kilowatts in size each
Collect data for 12 months – work with third-party consultant to evaluate performance
Potential to expand by 2011
Bottom line at this point
Cost-effective solar energy will require large reductions in installation costs and significant increases in PV efficiency As part of our commitment to deliver environmental solutions, we are studying ways to make solar power work in the Southeast.
We have a host of demonstration projects under way.
The company will install seven photovoltaic (PV technologies) on the roof of the Georgia Power corporate office in Atlanta.
The test projects should be up and running in the fourth quarter of 2008.
The project will collect date for 12 months; then we’ll work with an independent consultant to evaluate the performance of each technology.
We also work with Georgia Tech on solar research.
Currently, we are funding Dr. Ajeet Rohatgi as a Georgia Power Distinguished Professor. He is responsible for Georgia Tech’s University Center of Excellence for Photovoltaic Research and Education.
Photo Explanation: This 340-kilowatt, rooftop solar system was installed on the Georgia Tech swim center during the 1996 Olympics. It was a $5 million project. Georgia Power paid $1.8 million; the remainder was funded by the U.S. Department of Energy and Georgia Tech. Today, the Center produces enough electricity to provide 30-40 percent of the building's power needs - an amount sufficient to energize 70 average homes. As part of our commitment to deliver environmental solutions, we are studying ways to make solar power work in the Southeast.
We have a host of demonstration projects under way.
The company will install seven photovoltaic (PV technologies) on the roof of the Georgia Power corporate office in Atlanta.
The test projects should be up and running in the fourth quarter of 2008.
The project will collect date for 12 months; then we’ll work with an independent consultant to evaluate the performance of each technology.
We also work with Georgia Tech on solar research.
Currently, we are funding Dr. Ajeet Rohatgi as a Georgia Power Distinguished Professor. He is responsible for Georgia Tech’s University Center of Excellence for Photovoltaic Research and Education.
Photo Explanation: This 340-kilowatt, rooftop solar system was installed on the Georgia Tech swim center during the 1996 Olympics. It was a $5 million project. Georgia Power paid $1.8 million; the remainder was funded by the U.S. Department of Energy and Georgia Tech. Today, the Center produces enough electricity to provide 30-40 percent of the building's power needs - an amount sufficient to energize 70 average homes.
11. PV technology can be applied to pitched residential rooftops, flat-roof commercial buildings, and “central station” power.
12. Where We’re Headed, Making Solar Work Partnership with Cadmus Construction to create a solar community in Roswell
First neighborhood in the Southeast to apply for Platinum-level LEED-ND® certification
Georgia Power installed hybrid metering system
Homes billed for electricity at regular rate
Second meter registers production of electricity from solar roof systems, and Georgia Power buys back the electricity
Provides renewable energy to the grid, much of it during peak demand
Community has the capacity to reduce 180 tons of carbon emissions per year The integrated solar roof system uses the sun’s thermal energy to produce hot water for the homes and photovoltaics to produce electricity.
LEED-ND – Leadership in Energy and Environmental Design – Neighborhood Developments (LEED-ND) - certified buildings have demonstrated energy conservation and addressed concerns for site development, water savings, energy efficiency, materials selection and indoor environmental quality.
“This system alone provides the capacity for this community of eight homes to eliminate more than 180 tons of carbon emissions per year.
Other environmental features used in the neighborhood include rain-harvesting and stream buffer restoration, as well as green design and engineering methodologies, which will help offset hundreds more tons of emissions.
The development received a Home Energy Rating System (HERS) score of 47, which means the homes will be 53 percent more energy efficient than other new homes built to the 2006 Energy Code.
As part of the development’s green impact, Southern Company and Cadmus Construction are also partnering with Kennesaw State University on a related environmental education outreach initiative. This initiative will use Weatherford Place as an environmental development model for Kennesaw students to study in core science and science education classes.The integrated solar roof system uses the sun’s thermal energy to produce hot water for the homes and photovoltaics to produce electricity.
LEED-ND – Leadership in Energy and Environmental Design – Neighborhood Developments (LEED-ND) - certified buildings have demonstrated energy conservation and addressed concerns for site development, water savings, energy efficiency, materials selection and indoor environmental quality.
“This system alone provides the capacity for this community of eight homes to eliminate more than 180 tons of carbon emissions per year.
Other environmental features used in the neighborhood include rain-harvesting and stream buffer restoration, as well as green design and engineering methodologies, which will help offset hundreds more tons of emissions.
The development received a Home Energy Rating System (HERS) score of 47, which means the homes will be 53 percent more energy efficient than other new homes built to the 2006 Energy Code.
As part of the development’s green impact, Southern Company and Cadmus Construction are also partnering with Kennesaw State University on a related environmental education outreach initiative. This initiative will use Weatherford Place as an environmental development model for Kennesaw students to study in core science and science education classes.
14. Re-powering Opportunity Plant Mitchell, Albany, GA
80 MW Biomss
Other potential targets are existing, small coal plants who are under consideration for retirement.�
Replace or modify existing boiler and fuel handling systems to accept biomass.
15. Appropriate Size for Biomass
Relatively small unit
Adequate land space for large wood piles
Use Much of the Existing Plant
Appropriate Size for Biomass
Relatively small unit
Adequate land space for large wood piles
Use Much of the Existing Plant
16. Adds Fuel Diversity
Utilizes Locally Produced Biomass Fuel
50-75 new jobs in harvesting wood fuel
Maximizes the Life and Value of an Existing Resource
Adds Fuel Diversity
Utilizes Locally Produced Biomass Fuel
50-75 new jobs in harvesting wood fuel
Maximizes the Life and Value of an Existing Resource
17. Developing Green Energy Solutions Building renewable generation
Now – 136 MW – 34,000 homes
Future – 580 MW – wood waste, landfill methane gas, everyday trash
Providing Green Energy to customers
Investing $4.5 million on renewable energy research
Evaluating bio-mass generation at Plant Mitchell Building renewable generation -- Three years ago, we had less than 1 megawatt of renewable energy. Today, we have contracts for 136 megawatts, with plans to push that to 580 megawatts in the future.
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More than 4,000 customers have already signed up for green energy. They’ve purchased more than 16,000 blocks of green energy. How significant is that? Buying just one block of green energy per month per year is equivalent to planting 125 trees or not driving 2,000 miles. You can expect demand for green energy to increase.
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For renewable energy to make a larger contribution toward meeting overall demand and achieve its associated environmental benefits, Southern Company will pursue equity investments in renewable energy projects, such as wind, solar, biomass, and geothermal, throughout the country where they are economically feasible; research renewable energy technologies; and identify and implement economically feasible renewable technologies that take advantage of native resources and work well in the Southeast. �
Georgia Power and Southern Company have invested $4.5 million over the last five years in renewable research. (Solar demonstration projects at schools across the state, Fernbank Science Center; working with Georgia Tech to evaluate wind off Georgia coast)
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Plant Mitchell evaluating converting Unit 3 to burn 100 percent biomass as early as 2011 – would be the first Georgia Power unit to burn wood only. When fired with coal, Mitchell 3 produces 164 MW. With wood, we anticipate we will produce about 80 MW. Mitchell's potential needs may be 950,000 tons of wood per year to fuel the unit. (Tom Johnson will talk about Southern Company’s biomass efforts in a session after the upcoming break.)
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Building renewable generation -- Three years ago, we had less than 1 megawatt of renewable energy. Today, we have contracts for 136 megawatts, with plans to push that to 580 megawatts in the future.
(CLICK)
More than 4,000 customers have already signed up for green energy. They’ve purchased more than 16,000 blocks of green energy. How significant is that? Buying just one block of green energy per month per year is equivalent to planting 125 trees or not driving 2,000 miles. You can expect demand for green energy to increase.
(CLICK)
For renewable energy to make a larger contribution toward meeting overall demand and achieve its associated environmental benefits, Southern Company will pursue equity investments in renewable energy projects, such as wind, solar, biomass, and geothermal, throughout the country where they are economically feasible; research renewable energy technologies; and identify and implement economically feasible renewable technologies that take advantage of native resources and work well in the Southeast.
Georgia Power and Southern Company have invested $4.5 million over the last five years in renewable research. (Solar demonstration projects at schools across the state, Fernbank Science Center; working with Georgia Tech to evaluate wind off Georgia coast)
(CLICK)
Plant Mitchell evaluating converting Unit 3 to burn 100 percent biomass as early as 2011 – would be the first Georgia Power unit to burn wood only. When fired with coal, Mitchell 3 produces 164 MW. With wood, we anticipate we will produce about 80 MW. Mitchell's potential needs may be 950,000 tons of wood per year to fuel the unit. (Tom Johnson will talk about Southern Company’s biomass efforts in a session after the upcoming break.)
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18. Landfill Methane Gas (LMG) LMG is certified as an abundant renewable generation resource which by production was over eleven times the total solar photovoltaic generation in the U.S. for 2007.
The conversion of LMG to a generation source also eliminates the methane emissions from landfills which are of particular concern due to the fact that it is 21 times more effective at trapping heat in the atmosphere than carbon dioxide.
Georgia Power has a contract with the Seminole Landfill facility to purchase 22,500 MwH, or enough energy to power approx. 2,000 homes.
19. Where We’re Headed Building renewable generation
Future – 580 MW – wood waste (biomass), landfill methane gas, everyday trash
Investing $4.5 million on renewable energy research
Adding two zero-emission nuclear power units
***See Detailed Notes on Attached Document***
***See Detailed Notes on Attached Document***
20. Promoting Energy Efficiency Invest $43 million annually in 18 different demand-response and energy efficiency programs
Will reduce demand by 1,000 megawatts by 2010
Distributed more than 200,000 compact fluorescent light bulbs
Provided energy efficiency advice to more than 150,000 customers in past three years Georgia Power will invest $43 million annually in 18 different demand response and energy efficiency programs, including six new programs recently approved by the Georgia Public Service Commission. These programs are expected to reduce electricity demand by 1,000 megawatts by 2010. This represents more than 5 percent of Georgia Power’s current total load.
Example: Energy Star Appliance Program
Power Credit programs
Over the past two years, through promotion of the Change a Light campaign, Georgia Power has distributed more than 200,000 compact fluorescent light bulbs to consumers across Georgia who have pledged to change at least one standard light bulb in their home to a compact fluorescent bulb. We’re a national leader in this effort. For our efforts, Georgia Power received the 2007 Excellence in ENERGY STAR Promotion Award.
Promoting energy efficiency is another way we live green. Let’s see how we’re integrating efficiency messages into our advertising campaign.
Georgia Power will invest $43 million annually in 18 different demand response and energy efficiency programs, including six new programs recently approved by the Georgia Public Service Commission. These programs are expected to reduce electricity demand by 1,000 megawatts by 2010. This represents more than 5 percent of Georgia Power’s current total load.
Example: Energy Star Appliance Program
Power Credit programs
Over the past two years, through promotion of the Change a Light campaign, Georgia Power has distributed more than 200,000 compact fluorescent light bulbs to consumers across Georgia who have pledged to change at least one standard light bulb in their home to a compact fluorescent bulb. We’re a national leader in this effort. For our efforts, Georgia Power received the 2007 Excellence in ENERGY STAR Promotion Award.
Promoting energy efficiency is another way we live green. Let’s see how we’re integrating efficiency messages into our advertising campaign.
21. Where We’re Headed, Demand-side Conservation Reducing usage during critical peak consumption periods
Provides credit (Power Credit Program) for electricity by residential customers not used during critical peak periods Energy Efficiency BrochuresEnergy Efficiency Brochures
22. Green Strategy Help customers achieve their energy conservation and green energy goals by offering cost-effective products and programs
Develop a balanced portfolio of environmentally friendly generation, energy conservation and renewables to meet the growing needs of Georgia
Expand research and demonstration programs to cultivate additional cost-effective environmentally beneficial technologies
23. Introduce yourself
Hello I’m Jim Earley, I’m the Team Manager of the Energy systems Team
I’ve been with Georgia Power for 23 years
Our team is made up of 11 engineers that provide technical support of the Marketing and sales staff
We have 2 main functions Sales support and Energy conservation / Energy audits
In a typical year we do about 800 audits, I checked last we and we have completed over 1400 this year.
So I know you are concerned about energy.Introduce yourself
Hello I’m Jim Earley, I’m the Team Manager of the Energy systems Team
I’ve been with Georgia Power for 23 years
Our team is made up of 11 engineers that provide technical support of the Marketing and sales staff
We have 2 main functions Sales support and Energy conservation / Energy audits
In a typical year we do about 800 audits, I checked last we and we have completed over 1400 this year.
So I know you are concerned about energy.
24. Georgia Power’s Energy Systems Team Energy
Financial
Environmental Our Goal is simple … … to help them and you our customers meet your goals
We are the good guys ( put on White hat)
We want to help you meet all your goals
You have a variety of goals energy savings
Environmental that may be related to energy efficiency, controls, processes etc
And financial
Today we are going to share how we can helpOur Goal is simple … … to help them and you our customers meet your goals
We are the good guys ( put on White hat)
We want to help you meet all your goals
You have a variety of goals energy savings
Environmental that may be related to energy efficiency, controls, processes etc
And financial
Today we are going to share how we can help
25. Can Help you to improve your Efficiency Energy Efficiency Audits�
Design Assistance�
Industrial Product Demonstrations
Codes / Environmental Assistance We provide ( go over outline )We provide ( go over outline )
26. Energy Efficiency Audits Lighting�
HVAC�
Water Heating�
Compressed Air Lighting is one of the fastest changing products we deal with.
We have seen exit lights go from 40 watts incandescent that last a month
to 18 watt compact fluorescent that last a year to
3 watt LED that last 25 years
So you can save more in Maintenance than in energy
Most of you have changed out your office lights by now, but we still see many ML and HPS in the warehouses and production areas
We recently had a customer that needed to increase their lighting leaves, so we did not recommend the normal t-8 replacement, we went with the smaller brighter t-5 lamps
They had 525 - 400W MH lights They replaced 400 w with t-5
The customer saved1,000,000 kWh and $85,000 and had a payback of 2.0 years without any tax credit but down to 1.4 Years w/ tax incentive
Let’s talk about those incentives
Lighting is one of the fastest changing products we deal with.
We have seen exit lights go from 40 watts incandescent that last a month
to 18 watt compact fluorescent that last a year to
3 watt LED that last 25 years
So you can save more in Maintenance than in energy
Most of you have changed out your office lights by now, but we still see many ML and HPS in the warehouses and production areas
We recently had a customer that needed to increase their lighting leaves, so we did not recommend the normal t-8 replacement, we went with the smaller brighter t-5 lamps
They had 525 - 400W MH lights They replaced 400 w with t-5
The customer saved1,000,000 kWh and $85,000 and had a payback of 2.0 years without any tax credit but down to 1.4 Years w/ tax incentive
Let’s talk about those incentives
27. Lighting Tax Incentive Programs Special lighting - only audits
Provide payback calculations
Federal Tax Deduction
EPACT 2005
Extended to 2013
State Tax Credit
Ga HB 670
Georgia Power Rebates for �Non-Profit Customers
20% up to $5,000
Limit 5 Facilities per Customer
EPACT – Energy Policy Act of 2005
About 2 years ago we told the PSC in our IRP filing that we would help Customers get the Federal tax incentive.
The lighting-only accelerated tax deduction offered via EPAct 2005’s Energy Efficient Commercial Buildings Deduction is based on achieving lower lighting power densities than the minimum required by ASHRAE/IES 90.1-2001 Energy Standard for Buildings Except Low-Rise Residential Buildings, the national energy standard for all commercial construction in the United States.
Standard 90.1 is also the standard for all Federal building construction, and was adopted for the 2001 version of the International Energy Conservation Code (ICC).
We started offering special lighting – only audits
We sent out mailings and gave a quick audit and payback, and information about the federal tax deduction.
There was a deadline of December 31st 2008.
That was extended in the Bailout bill to 2013
$0.60 / sq ft. if 40% less that ASHRAE 90.1 2001 (deduction).
All buildings covered by ASHRAE/IES Standard 90.1-2001 qualify under the Commercial Buildings Deduction rules.
Iincludes public buildings, schools and rental housing.
Rental housing must be within the scope of Standard 90.1-2001, which includes residential buildings four stories or higher.
Georgia wanted to help customers to improve their lighting and created House bill 670
It provides a tax credit of $0.60 / sq ft if 30% less than ASHRAE 90.1 2004
Some of our customers don’t pay taxes, and we wanted help them
We will pay 20% of t he cost of a lighting project that would qualify for the fed tax deduction up to $5000
EPACT – Energy Policy Act of 2005
About 2 years ago we told the PSC in our IRP filing that we would help Customers get the Federal tax incentive.
The lighting-only accelerated tax deduction offered via EPAct 2005’s Energy Efficient Commercial Buildings Deduction is based on achieving lower lighting power densities than the minimum required by ASHRAE/IES 90.1-2001 Energy Standard for Buildings Except Low-Rise Residential Buildings, the national energy standard for all commercial construction in the United States.
Standard 90.1 is also the standard for all Federal building construction, and was adopted for the 2001 version of the International Energy Conservation Code (ICC).
We started offering special lighting – only audits
We sent out mailings and gave a quick audit and payback, and information about the federal tax deduction.
There was a deadline of December 31st 2008.
That was extended in the Bailout bill to 2013
$0.60 / sq ft. if 40% less that ASHRAE 90.1 2001 (deduction).
All buildings covered by ASHRAE/IES Standard 90.1-2001 qualify under the Commercial Buildings Deduction rules.
Iincludes public buildings, schools and rental housing.
Rental housing must be within the scope of Standard 90.1-2001, which includes residential buildings four stories or higher.
Georgia wanted to help customers to improve their lighting and created House bill 670
It provides a tax credit of $0.60 / sq ft if 30% less than ASHRAE 90.1 2004
Some of our customers don’t pay taxes, and we wanted help them
We will pay 20% of t he cost of a lighting project that would qualify for the fed tax deduction up to $5000
28. This is a customer that we worked on that had multiple chillers with a primary and secondary water loops.
This is a food processing customer that deals with chocolate and needs to maintain very tight temperature and humidity ranges
They were not able to vary the Flow in the secondary loop without losing control of the temperature in the system.
We recommended the by-passes on the a /h be removed and the valves changed.
This allowed the pumps to be replaced with variable speed drive pumps
The cost was $250,000 and saved $150,000 per yearThis is a customer that we worked on that had multiple chillers with a primary and secondary water loops.
This is a food processing customer that deals with chocolate and needs to maintain very tight temperature and humidity ranges
They were not able to vary the Flow in the secondary loop without losing control of the temperature in the system.
We recommended the by-passes on the a /h be removed and the valves changed.
This allowed the pumps to be replaced with variable speed drive pumps
The cost was $250,000 and saved $150,000 per year
29. Energy Efficiency Audits This is a water heater, it doesn't look like a normal water heater. It is a heat pump heat exchanger / compressor section
This customer was replacing a water heating system to provide 150 degree water.
We noticed that they were getting rid of heat from several chillers and recommended a HPWH to remove the heat from their chillers and put it into their domestic waterThis is a water heater, it doesn't look like a normal water heater. It is a heat pump heat exchanger / compressor section
This customer was replacing a water heating system to provide 150 degree water.
We noticed that they were getting rid of heat from several chillers and recommended a HPWH to remove the heat from their chillers and put it into their domestic water
30. Energy Efficiency Audits Lighting�
HVAC�
Water Heating�
Compressed Air We also provide Compressed air audits. Wwe see misuses and inappropriate uses of compressed air, many people think it is free because it is just air,
But it is not free.
We have seen customers with leaks as high as 50% ($150,000)
We typically see 20 -30 % savings 20 -$30,000
We also provide Compressed air audits. Wwe see misuses and inappropriate uses of compressed air, many people think it is free because it is just air,
But it is not free.
We have seen customers with leaks as high as 50% ($150,000)
We typically see 20 -30 % savings 20 -$30,000
31. Design Assistance Lighting Systems
HVAC Systems
Energy Management Systems
Water Heating Systems / Water Metering
Industrial Processes� We do a limited amount design assistance
LIGHTING – large square and rectangular areas not specialty lighting
Vendor software to do calculations
HVAC and EMS we use Enersim to evaluate, we can build your building in the computer (list components and schedules weather)
Model different end uses and calculate cost
Help check HVAC size and help design and calculate EMS
WATER HEATING we can meter hot water use to determine energy use and sizing
INDUSTRIAL PROCESS- we offer help and demosWe do a limited amount design assistance
LIGHTING – large square and rectangular areas not specialty lighting
Vendor software to do calculations
HVAC and EMS we use Enersim to evaluate, we can build your building in the computer (list components and schedules weather)
Model different end uses and calculate cost
Help check HVAC size and help design and calculate EMS
WATER HEATING we can meter hot water use to determine energy use and sizing
INDUSTRIAL PROCESS- we offer help and demos
32. Industrial Product Demonstration at the�Technology Application Center Infrared Process Heating
Induction Heating
Plasma Cutting
Ultraviolet Curing
This is a customer that was adding a production line to their plan
They were space constrained and environmentally limited
We showed them how they could powder coat their parts and cure them in a IR oven.
Meet their quality standards, test before they spend money
Results- smaller footprint for oven, no VOC’s faster line speedThis is a customer that was adding a production line to their plan
They were space constrained and environmentally limited
We showed them how they could powder coat their parts and cure them in a IR oven.
Meet their quality standards, test before they spend money
Results- smaller footprint for oven, no VOC’s faster line speed
33. Infrared Process Heating
Induction Heating
Plasma Cutting
Ultraviolet Curing
This is an induction billet heater. It is used to preheat blocks of Aluminum before going into an extruder
The old way to heat would be to run through a gas oven, 40% EFFICIENT not as even a heat
Induction heats the part evenly and at 80 % efficiently
This picture is a Super-conductor induction billet heater and has a90% efficiency ratingThis is an induction billet heater. It is used to preheat blocks of Aluminum before going into an extruder
The old way to heat would be to run through a gas oven, 40% EFFICIENT not as even a heat
Induction heats the part evenly and at 80 % efficiently
This picture is a Super-conductor induction billet heater and has a90% efficiency rating
34. Environmental Help Identify Water-Saving Opportunities
Investigate Alternatives to Incineration of Waste Products
Waste Heat Recovery Streams / Thermal Oxidizers We want to help our customer environmentally
Water is a major concern today. We are looking at ways to help you save water, Cooling towers / processes
We want to help you take waste heat streams and turn tem into useful energy streams
We use new processes to avoid wasteful thermal oxidizers
We are involved in organizations like ASHRAE to stay up to date on codes and regulationsWe want to help our customer environmentally
Water is a major concern today. We are looking at ways to help you save water, Cooling towers / processes
We want to help you take waste heat streams and turn tem into useful energy streams
We use new processes to avoid wasteful thermal oxidizers
We are involved in organizations like ASHRAE to stay up to date on codes and regulations
35. Introduce yourself
Hello I’m Jim Earley, I’m the Team Manager of the Energy systems Team
I’ve been with Georgia Power for 23 years
Our team is made up of 11 engineers that provide technical support of the Marketing and sales staff
We have 2 main functions Sales support and Energy conservation / Energy audits
In a typical year we do about 800 audits, I checked last we and we have completed over 1400 this year.
So I know you are concerned about energy.Introduce yourself
Hello I’m Jim Earley, I’m the Team Manager of the Energy systems Team
I’ve been with Georgia Power for 23 years
Our team is made up of 11 engineers that provide technical support of the Marketing and sales staff
We have 2 main functions Sales support and Energy conservation / Energy audits
In a typical year we do about 800 audits, I checked last we and we have completed over 1400 this year.
So I know you are concerned about energy.
