presents the stanlin energy system. the need for the stanlin energy system with your heating system...
TRANSCRIPT
PRESENTS The
“Stanlin Energy System”
STANLIN ENERGY Efficiency, Conservation & Clean Air Solutions
The Need for the Stanlin Energy System with Your Heating System
The Problem – Excess Draft
• High gas consumption due to Excess Draft – Up to 30% more gas consumption• Excess Draft affects over 90% of boiler and hot water systems• Excess Draft is not maintenance related but rather design related How Excess Draft Causes Increased Fuel Consumption and Costs 1. Excess Draft is like having a giant vacuum cleaner attached to the top of your boiler’s chimney or stack Heat produced by your boiler is sucked right out of your boiler rather than heating your building or hot water
2. The flame from your boiler’s burner is supposed to spread across the full burner to make full contact with the heat exchange surface. Instead it is pulled towards the center of the burner so contact with the heat exchange surface is reduced meaning less heat. Think large pot on a small burner on a stove and you get the idea
3. Because your boiler is not producing and retaining heat efficiently it needs to run more to produce the required amount of heat. If it runs more it burns more fuel and costs more to operate
4. The valve which controls the pressure or amount of gas flowing to your boiler must be set at the maximum recommended setting to get the most heat possible out of it. Maximum pressure means maximum consumption.
How the Stanlin Energy System Fixes these Problems and Reduces Fuel Consumption Draft in your chimney or stack is reduced to the amount necessary to exhaust combustion gases
only. The heat previously being sucked up the stack now remains in your boiler where it can heat your building or hot water. “Ideal Draft”
The flame on your boiler burner stops being sucked into the middle of the burner and can make full contact with the heat exchange surface to provide more heat. Think large pot now on a large burner and you get the idea. “Increase in Thermal Efficiency”
Because your boiler is producing and retaining more heat there is less call for heat on the boiler system. Less call for heat means your boiler needs to run less. If it runs less it burns less fuel and costs less to operate. “Equals Huge Savings”
With the increased efficiency now in your boiler the valve controlling the pressure or amount of gas flowing to you boiler can be set to its minimum recommended setting. Minimum pressure means less gas being consumed so not only is your boiler running less it is using less fuel when it does run.
Why the Stanlin Energy System Makes Great Financial Sense
Works with your current boiler so no need for an expensive boiler replacement Typical payback period of between 18 and 24 months. No additional or ongoing maintenance costs 10 Year Manufacturers Warranty Life expectancy of over 30 Years
Proof of increased efficiency and reduced gas consumption
The Stanlin Energy System:• Is Fail Safe
• Is mechanically simple-uses No energy & has No moving parts
• Regulates thermodynamically rather than mechanically
• Is maintenance FREE
• Operates continuously, both on-cycle & off-cycle
• Provides substantial fuel savings
• Typical fuel savings when using the System are
*4 to 15%+- on power boilers and *15 to 29%+- on atmospheric boilers & hot water heaters
*Savings vary by application each unit will provide a different return based on combustion enhancement after system is installed.
The Regulator works much like a turbulator BUT:The Regulator works much like a turbulator BUT:- it has many more applications- it has many more applications- - installation is much easierinstallation is much easier, , saves more moneysaves more money & & is cost effectiveis cost effective- and has - and has nono negative side effects or problems like Turbulators do negative side effects or problems like Turbulators do
Four Questions to ask a Heating Expert about... Four Questions to ask a Heating Expert about... Power BoilersPower Boilers
1.1. When analyzing combustion gases, what indicates increased combustion efficiency? When analyzing combustion gases, what indicates increased combustion efficiency? (better fuel burn)(better fuel burn)
Answer:Answer: The fuel is burning better if there is an increase in the percentage of CO2 (carbon dioxide) produced by The fuel is burning better if there is an increase in the percentage of CO2 (carbon dioxide) produced by the combustion process. This is the same as a decrease in the percentage of O2 (oxygen) in the combustion the combustion process. This is the same as a decrease in the percentage of O2 (oxygen) in the combustion
gases. If CO (carbon monoxide) is present, a reduction in the PPM (parts per million) also indicates a better burn.gases. If CO (carbon monoxide) is present, a reduction in the PPM (parts per million) also indicates a better burn.
2.2. What indicates an increase in thermal efficiency? What indicates an increase in thermal efficiency?(more available heat is being retained and put to use)(more available heat is being retained and put to use)
Answer: Answer: When the "stack loss" is reduced there is a corresponding increase in the retained available heat. Stack When the "stack loss" is reduced there is a corresponding increase in the retained available heat. Stack loss can be measured for general comparison by multiplying the net stack temperature by the stack gas velocity in loss can be measured for general comparison by multiplying the net stack temperature by the stack gas velocity in
feet per minute under near identical conditions.feet per minute under near identical conditions.
Example:Example: A boiler is operating in a room with an ambient temperature of 70°F. An initial stack temperature A boiler is operating in a room with an ambient temperature of 70°F. An initial stack temperature reading is made of 403°F and the draft initial draft was 3,650 FPM. After thewas installed the stack reading was reading is made of 403°F and the draft initial draft was 3,650 FPM. After thewas installed the stack reading was 371°F and the draft was 2650 FPM. What is the change in stack loss? The net temperature of 333° times 3,650 371°F and the draft was 2650 FPM. What is the change in stack loss? The net temperature of 333° times 3,650 FPM equals 1,215,450 degree-FPM loss. The later reading of 301° time 2650 FPM equals 797,650 degree-FPM FPM equals 1,215,450 degree-FPM loss. The later reading of 301° time 2650 FPM equals 797,650 degree-FPM
loss. The later reading indicates a 34% reduction in stack loss, while still producing a faster recovery time!loss. The later reading indicates a 34% reduction in stack loss, while still producing a faster recovery time!
3.3. How can "ideal draft" be verified in boiler equipment? How can "ideal draft" be verified in boiler equipment?
Answer:Answer: The draft is set while taking total stack pressure and pilot tube reading, and setting where the boiler was The draft is set while taking total stack pressure and pilot tube reading, and setting where the boiler was set when it was being certified at the lab while it was being rated.set when it was being certified at the lab while it was being rated.
4.4. If all else remains constant, and one or more of the above factors is improved, is it If all else remains constant, and one or more of the above factors is improved, is it certain that there must be an improvement in the overall efficiency of the heating certain that there must be an improvement in the overall efficiency of the heating
equipment, resulting in a lowering of the amount of fuel used per unit of heat/steam equipment, resulting in a lowering of the amount of fuel used per unit of heat/steam produced/used?produced/used?
Answer: Answer: Yes. It is certain that there must be an improvement in overall efficiency and a lowering of the amount of Yes. It is certain that there must be an improvement in overall efficiency and a lowering of the amount of fuel to produce and use the same amount of heat/steam.fuel to produce and use the same amount of heat/steam.
Four Questions to ask a Heating Expert about...Four Questions to ask a Heating Expert about... Atmospheric BoilersAtmospheric Boilers
1.1. When analyzing combustion gases, what indicates increased combustion efficiency? (better fuel When analyzing combustion gases, what indicates increased combustion efficiency? (better fuel
burn) burn)
Answer:Answer: The fuel is burning better is there is an increase in the percentage of CO2 (carbon dioxide) produced by The fuel is burning better is there is an increase in the percentage of CO2 (carbon dioxide) produced by the combustion process. This is the same as a decrease in the percentage of O2 (oxygen) in the combustion the combustion process. This is the same as a decrease in the percentage of O2 (oxygen) in the combustion gases. If CO2 (carbon monoxide) is present, a reduction in the PPM (parts per million) also indicates a better gases. If CO2 (carbon monoxide) is present, a reduction in the PPM (parts per million) also indicates a better
burn.burn.
2.2. What indicates an increase in thermal efficiency? What indicates an increase in thermal efficiency? (more available heat is being retained and put to use) (more available heat is being retained and put to use)
Answer: Answer: Answer: When the " stack loss" is reduced there is a corresponding increase in the retained available Answer: When the " stack loss" is reduced there is a corresponding increase in the retained available heat. Stack loss can be measured for general comparison by multiplying the net stack temperature by the stack heat. Stack loss can be measured for general comparison by multiplying the net stack temperature by the stack
gas velocity in feet per minute under near identical conditions.gas velocity in feet per minute under near identical conditions.
Example:Example: A furnace or boiler is operating in a room with a ambient temperature of 70°F. An initial stack reading A furnace or boiler is operating in a room with a ambient temperature of 70°F. An initial stack reading is made of 370° F stack temperature and a draft of 200 FPM. After some energy-saving modifications were made is made of 370° F stack temperature and a draft of 200 FPM. After some energy-saving modifications were made
the stack reading was 470° and a draft of 100 FPM. What is the change in stack loss? The net temperature of the stack reading was 470° and a draft of 100 FPM. What is the change in stack loss? The net temperature of 300° times 200 FPM equals 60,000 degree FPM loss. The later reading of 400° multiplied by 100 FPM equals 300° times 200 FPM equals 60,000 degree FPM loss. The later reading of 400° multiplied by 100 FPM equals
40,000 degree FPM. The later reading indicates a 33% reduction in stack loss.40,000 degree FPM. The later reading indicates a 33% reduction in stack loss.
3.3. How can "ideal draft" be verified in heating equipment? How can "ideal draft" be verified in heating equipment?
Answer:Answer: You know you have attained "ideal draft" when no combustion gases are spilling (flowing into area You know you have attained "ideal draft" when no combustion gases are spilling (flowing into area surrounding the heating equipment), but the draft is as low in velocity as possible while providing adequate surrounding the heating equipment), but the draft is as low in velocity as possible while providing adequate
combustion air to the fuel.combustion air to the fuel.
4.4. If all else remains constant, and one or more of the above factors is improved, is it certain that there If all else remains constant, and one or more of the above factors is improved, is it certain that there must be an improvement in the overall efficiency of the heating equipment, resulting in a lowering of the must be an improvement in the overall efficiency of the heating equipment, resulting in a lowering of the
amount of fuel used per unit of heat/steam produced/used?amount of fuel used per unit of heat/steam produced/used?
Answer: Answer: Yes. It is certain that there must be an improvement in overall efficiency.Yes. It is certain that there must be an improvement in overall efficiency.
Proof of Savings – Not Just Promises As a purchaser of energy savings products, you know all too well that product manufacturers, heating contractors, and engineers all promise great energy savings with their solutions but can fall woefully short on delivering or proving those savings after you have bought. With the Stanlin Energy System we provide you proof, both immediate and long term that your boiler efficiency has been improved and energy consumption reduced. We provide this proof to you n two distinct ways.
1. Precise Measurement and Analysis of Boiler Performance
We don’t guess at the efficiency of your boiler performance, we measure it and document it so you have clear evidence of efficiency gains with the Stanlin Energy System. All heating engineers and technicians know a flue gas analysis (measuring the composition and temperature of the gases exhausted from your boiler) is the best way to confirm the efficiency of your boiler. Stanlin Energy Group provides you with a detailed report with actual flue gas readings and other critical measurements like return water temperature, supply water temperature, and off cycle times. These measurements are taken before and after installation so you can clearly see the immediate changes in performance and efficiency with your boiler system. A sample copy of the “Installation Performance Report” is attached to provide you with more detail on the exact information you will receive with the installation of the Stanlin Energy System.
2. Continued Monitoring of Gas Consumption for 12 Months
While the “Installation Performance Summary” provides you with immediate feedback on efficiency gains with your boiler continued monitoring of gas consumption provides you with long term proof of reduction in gas consumption. We don’t just install the System and leave you to figure out whether or not your gas consumption has been reduced. For a 12 month period following the installation of the Stanlin Energy System. we work with you and your gas provider to collect both historical and current gas consumption and prepare a detailed analysis of your consumption factoring in the changes in weather. The report is provided to you monthly so you have regular updates on your consumption and savings achieved with the Stanlin Energy System compared to your historical consumption. A sample copy of the “Savings Analysis Report” is attached so you can see the information you will be receiving on a monthly basis. In addition to monitoring the performance of the Stanlin Energy System, the Savings Analysis Report provides you with extremely valuable information on the overall performance of your boiler system and in many instances has alerted building owners and managers to other problems that would have otherwise gone unnoticed and cost hundreds or even thousands of dollars in extra fuel consumption before being remedied.
Our Commitment to Demonstrated Value
You pursue an energy reduction program for one simple reason – to reduce energy consumption. With the Stanlin Energy System we are committed to ensuring that is precisely what you achieve. With our pre and post installation analysis and continued monitoring we don’t just install and leave you hoping you made a good purchase decision. We stick with you as long as it takes so that you know you made a good purchase decision and the value of the Stanlin Energy System has been clearly demonstrated to your satisfaction. All this is included with your purchase – No Extra Fees. No follow-up service charges.
The The Stanlin Energy SystemStanlin Energy System……
Works on all passes,Works on all passes,
Has no negative side effectsHas no negative side effects
Makes the boiler operate where Makes the boiler operate where the manufacture designed it to!the manufacture designed it to!
In addition to substantial savings. The Stanlin Energy System allows the boiler systems to operate as they were designed to
operate – and has the following benefits:
• Reduces equipment run time
• Reduces equipment repair & maintenance cost
• Reduces harmful emissions to the environment due to less run time and cleaner burn
• Reduces recovery time
• Increases output & output temperature
• Increases the life on equipment
• Allows increased production /growth without adding equipment
• Increases net income & business value
The Stanlin Energy System is an invention with no moving parts.
It has proven to be effective in lowering fuel costs in fossil fuel boiler
systems by up to 29% and more in some cases.
If your business is in a situation where you have
“Multiple Power boilers feeding into a single stack”
Our system may provide
“Above Average Savings” in these situations.
Pool PavilionPool PavilionWith the System installed, this 125 Horsepower Cleaver Brooks boiler has maintained a With the System installed, this 125 Horsepower Cleaver Brooks boiler has maintained a
consistent reading of consistent reading of under 4.0% oxygen for 10 Yearsunder 4.0% oxygen for 10 Years. .
So it has not been tuned up for over 10 years. So it has not been tuned up for over 10 years.
It has continued to It has continued to save over 20%save over 20% for the last 10+ years. for the last 10+ years.
The Pavilion – Realizing a The Pavilion – Realizing a 20.7%20.7% Fuel Savings after Fuel Savings after Comparing all the Factors!Comparing all the Factors!
Degree DaysDegree Days, , Water UsageWater Usage, and the , and the Number of Number of SwimmersSwimmers
The Mountlake Pool Pavilion – The Mountlake Pool Pavilion – Before and After ReadingBefore and After Reading
7.7
3.5
7.3
3.2
5.5
3.5
1
1.5
2
2.5
3
3.5
4
4.5
5
5.5
6
6.5
7
7.5
8
Ideal Range Low Fire Medium Fire High Fire
ML Terrace Oxygen Readings Before & After Installation.
Ideal Range Before Eddy Eddy InstalledBefore After InstallIdeal Range
-0.06
0.4
-0.04
1.5
-0.025
3.1
-0.5
0
0.5
1
1.5
2
2.5
3
3.5
4
Ideal Range Low Fire Medium Fire High Fire
MLTerrace - Static Draft - Before & After (This reading is for a Power Boiler not an Atmospheric.)
Ideal Range Before Eddy Eddy InstalledBefore After InstallIdeal Range
20
58
22
55
23
40
22
5
10
15
20
25
30
35
40
45
50
55
60
Ideal Range Low Fire Medium Fire High Fire
ML Terrace - Excess Air - Before & After
Ideal Range Before Eddy Eddy InstalledBefore After InstallIdeal Range
0.02
0.01
0.08
0.05
0.11
0.08
0
0.02
0.04
0.06
0.08
0.1
0.12
Low Fire Medium Fire High Fire
ML Terrace - Pitot Tube Readings - Before & After
Before Eddy Eddy InstalledBefore Install After
650
450
1300
1030
1550
1300
0
200
400
600
800
1000
1200
1400
1600
Low Fire Medium Fire High Fire
ML Terrace - Air Velocity - speed of exhaust gases in feet per minute
Before Eddy Eddy InstalledBefore Install After Install
510
353
1050
810
1300
1021
0
200
400
600
800
1000
1200
1400
Low Fire Medium Fire High Fire
ML Terrace - Stack Volume in cubic feet per minute up the stack
Stack Vol;ume Before Eddy Stack Vol;ume Eddy InstalledStack Volume Before System Stack Volume After Install
AfterAfter
BeforeBefore
Buse Timber Company –Washington
600 Horsepower Cleaver Brooks - High Pressure Steam Boiler
The System is Saving approximately $9,000.00 per Month!!
7.5
1.5
6.9
1.7
3.9
2
1
1.5
2
2.5
3
3.5
4
4.5
5
5.5
6
6.5
7
7.5
Ideal Range Low Fire Medium Fire High Fire
Buse Timber Company - Stack Oxygen Readings
Ideal Range Before EddyEddy Installed
I
After System Before System
Ideal Range
System Installed Before System
Ideal Range
System Installed Before System
Buse Timber – Stack Loss
0
5
10
15
20
25
30
35
40
IdealRange
Pin #1 Low
Pin #2 Pin #3 Pin #4 Pin #5 Pin #6 Pin #7 Pin #8 Pin #9 Pin #10High
Stack Excess Air - 300 HP Cleaver Brooks
Ideal Range
System Installed Before System
1. 41. 41. 61. 6
1. 91. 7
2. 1
4
1. 8
4. 3
2
5. 2
2. 1
5. 3
2. 3
5. 2
2. 7
5. 5
3. 1
5. 7
1
1. 5
2
2. 5
3
3. 5
4
4. 5
5
5. 5
6
I deal
Range
Pin
#1
Low
Pin
#2
Pin
#3
Pin
#4
Pin
#5
Pin
#6
Pin
#7
Pin
#8
Pin
#9
Pin
#10
High
Stack Oxygen Percentage - 300 HP Cleaver Brooks
With Eddy Draft Regulator Technology Before Eddy
Ideal Range
System Installed Before System
0
2
4
6
8
10
12
Ideal Range Pin #1 Low Pin #2 Pin #3 Pin #4 Pin #5 Pin #6 Pin #7 Pin #8 Pin #9 Pin #10 High
Percent Carbon Dioxide - 300 HP Cleaver Brooks
Ideal Range
System Installed Before System
48
1629
6
929
5246
5446
53 52
66 65 66
5258
6571
98
71
102
0
25
50
75
100
125
150
175
200
IdealRange
Pin #1 Low
Pin #2 Pin #3 Pin #4 Pin #5 Pin #6 Pin #7 Pin #8 Pin #9 Pin #10High
Stack Carbon Monoxide - 300HP Cleaver Brooks
Ideal Range
System Installed Before System
330
340
350
360
370
380
390
400
410
420
430
IdealRange
Pin #1 Low
Pin #2 Pin #3 Pin #4 Pin #5 Pin #6 Pin #7 Pin #8 Pin #9 Pin #10High
Stack Temperature - 300 HP Cleaver Brooks
Ideal Range
System Installed Before System
1.41.41.61.6
1.91.7
2.1
4
1.8
4.3
2
5.2
2.1
5.3
2.3
5.2
2.7
5.5
3.1
5.7
1
1.5
2
2.5
3
3.5
4
4.5
5
5.5
6
IdealRange
Pin #1 Low
Pin #2 Pin #3 Pin #4 Pin #5 Pin #6 Pin #7 Pin #8 Pin #9 Pin #10High
Stack Oxygen Percentage - 300 HP Cleaver Brooks
Ideal Range
System Installed Before System
We Offer Our Clients Powerful Results
With System June 2001-June 2003 Before System
Edmonds. Months 25-42
2557 25862450
2908 2839
3941 4039
43654200
3735
3064
22211928
15221343 1396
2710
3571
47554600
3303
4306
3712
4613
6556 6591
6257
5955 5971
5473
47554600
3303
4306
3712
4613
0
1000
2000
3000
4000
5000
6000
7000
3-Jun Jul Aug Sep Oct Nov Dec Jan Feb Mar Apr May 4-Jun Jul Aug Sep Oct Nov
With System June 2001-June 2003 Before System
Stanlin Energy System Pre-Qualification GuidelinesStanlin Energy System Pre-Qualification GuidelinesThere are three parts to determining if the building is a good candidate for the Stanlin Draft There are three parts to determining if the building is a good candidate for the Stanlin Draft Regulator.Regulator.Part A: To determine if there is proper room for the equipment.Part A: To determine if there is proper room for the equipment.Part B: To determine if the equipment has enough excess draft for application.Part B: To determine if the equipment has enough excess draft for application.Part C: To determine if we have a good base.Part C: To determine if we have a good base.PART APART AObserve the equipment and determine if there is more than one appliance going into a Observe the equipment and determine if there is more than one appliance going into a common stack.common stack.Measure the diameter of the stack. When measuring, please notice if it is a thin wall (24 Measure the diameter of the stack. When measuring, please notice if it is a thin wall (24 gauge or less) or B-Vent (double wall) or heavy wall (3/16 of an inch or more). gauge or less) or B-Vent (double wall) or heavy wall (3/16 of an inch or more). The mounting location needs to be determined. If there is only one appliance going into a The mounting location needs to be determined. If there is only one appliance going into a single stack on a light wall, a section insert is applicable. For heavy wall installation, if there single stack on a light wall, a section insert is applicable. For heavy wall installation, if there is access to the top of the stack, a drop-in insert is the desired solution.is access to the top of the stack, a drop-in insert is the desired solution.Where there are multiple appliances going into a common stack, each appliance will need a Where there are multiple appliances going into a common stack, each appliance will need a separate unit between the appliance and the point where it meets the common stack area.separate unit between the appliance and the point where it meets the common stack area.To have enough room to install the Stanlin Draft Regulator, we need approximately 1½ times To have enough room to install the Stanlin Draft Regulator, we need approximately 1½ times the diameter of the stack in either height or length. If there is slightly less room than this, the diameter of the stack in either height or length. If there is slightly less room than this, please consult with a master dealer. On heavy wall pipes, a custom saddle-mounted unit please consult with a master dealer. On heavy wall pipes, a custom saddle-mounted unit may be needed.may be needed.PART BPART BWe will need draft, oxygen, temperature, excess air, and carbon monoxide readings. If any We will need draft, oxygen, temperature, excess air, and carbon monoxide readings. If any other readings are available, please submit them.other readings are available, please submit them.On power forced units, we will need the manufacture, BTU, model number, and what the On power forced units, we will need the manufacture, BTU, model number, and what the manufacture specifications where at the factory when it was certified. manufacture specifications where at the factory when it was certified. On atmospheric units, the draft needs to be a minimum of negative .035 or greater to On atmospheric units, the draft needs to be a minimum of negative .035 or greater to warrant an application. You should also do the “Hand Test” to see at what point you can feel warrant an application. You should also do the “Hand Test” to see at what point you can feel strong heat coming from the draft hood. If you feel strong heat at the base of the draft hood, strong heat coming from the draft hood. If you feel strong heat at the base of the draft hood, no application would be warranted. The higher your hand goes into the draft hood before no application would be warranted. The higher your hand goes into the draft hood before you feel strong heat, the better the application will work. Anything greater than 50% up the you feel strong heat, the better the application will work. Anything greater than 50% up the hood is potentially a good application and what type of stack, (single wall or B-Vent).hood is potentially a good application and what type of stack, (single wall or B-Vent).PART CPART CThree years worth of whatever affects your usage. (which includes one or more of the Three years worth of whatever affects your usage. (which includes one or more of the following following degree daysdegree days, , water usagewater usage, , productionproduction, and equipment that we don’t apply too, , and equipment that we don’t apply too, etc.etc.
People ask, What’s My Cost? The Answer is…· Zero · Nothing · Nada - Zip - Nothing At All - Nothing Whatsoever….
Your cost is better than Zero .. It’s Free Money Monthly!!! Forever
You provide the Opportunity…. Constant gas billWe provide the Technology …. That reduces the gas billThen you keep 50% of the savings = Free Money Monthly Forever!
It’s F.M.M.F. for the client (Free Money Monthly Forever!!!)
If you have stacks you might as well rent them to us & receive FREE money every month.
We are renting stacks, installing a unique device that saves money & the rent is half the money saved each month for 10 years, & then you keep 100% forever.
What I need is: to see if you quality? 3 years gas bills and 3 years water bills &whatever else affects your usage (occupancy, production, degree days, etc.)? Signed stack rental form: Then we’ll make appointment to come test your facility to see if you qualify for us to rent your stacks. It must meet our ROI (return on investment) numbers (that’s your usage times percentage we can possibility save)
Provides the Technology for,Provides the Technology for,
““Excessive Air / Draft Reducer Excessive Air / Draft Reducer
for Dramatic & for Dramatic &
Impressive Fuel Savings, Impressive Fuel Savings,
Previously Thought Previously Thought Unattainable.”Unattainable.”
STANLIN ENERGY Efficiency, Conservation & Clean Air Solutions
Contact the sales Representative that sent Contact the sales Representative that sent youyou
to this site and start saving NOW! to this site and start saving NOW!
Send back a signed copy of “Rent the Send back a signed copy of “Rent the Stack” with all the requirements. Stack” with all the requirements. (whatever effects your usage) and a $500 (whatever effects your usage) and a $500 check or initial no charge and we’ll take check or initial no charge and we’ll take $750 out of your 50% savings.$750 out of your 50% savings.
Start receiving F.M.M.F. Start receiving F.M.M.F. (Free Money (Free Money Monthly Forever)Monthly Forever) its 50% for the 10 years its 50% for the 10 years and then you receive 100% of the savings and then you receive 100% of the savings FOREVER! & EVER!FOREVER! & EVER!
You also have the right to buy it outright You also have the right to buy it outright at any time.at any time.