To order our new swrl‑R, submit a request for quote below or contact us

by phone : 404-991-2546
or email : sales@plumcombustion.com


You may pick your standard :


swrl-R1000




swrl-R3000




swrl-R5000




Prices shown for 5 units/order
Includes injector, flame rod, ignitor and view window


...and complete the form below before submission:


Customer

Name :
Street :
City :
State :
Zip :
Contact :
Phone :
Email :

Item

Quantity :
Expected Delivery :

Specifications

Performance


Nominal
Power : kBTU/Hr
XSA : %
TDR : : 1
NOx : ppm


Hardware


Inlet
Connection :
∅ : "


Flange
∅ : "
Bolt ∅ : "
Bolt Circle ∅ : "
Bolt Count :


Insert
∅ : "
Length : "


Flow


Air
Flowrate : SCFM
Pressure : ATM
Temperature : °F


Fuel
Type :
Flowrate : SCFH
Pressure : IWC
Temperature : °F


Electrical


Fan
Power : W
Connection :


Accessories


Flame Detection
View Window :
Flame Rod :
UV Scanner :


Ignition
Spark Rod :
Ignition Module :


Nominal Power : It is a measure of the heating rate output by this unit at its main design point. Since our burners are relatively resilient and provide a broad range of flame stability, they can be used above this value.
Nominal XSA : The Excess air is a measure of oxygen left unburnt at nominal power. Emission levels depend on this value.
Nominal TDR : The turndown ratio is the ratio between the nominal and minimum power (Hi/Lo fire). The swrl-R unusually high turn down ratio allows it to stably operate over a broad range of firing rates.
Nominal NOx : NOx level at nominal power. This value depends upon the flame and process temperatures, the excess air (XSA) and the residence time of the products in the process.
Inlet Connection : Make sure that the connection is compatible with your fuel train.
Inlet ∅ : Fuel connection diameter.
Flange ∅ : Flange diameter.
Flange Bolt ∅ : Flange bolt hole diameter. Choose bolts that will fit in these holes to properly mount your burner.
Flange Bolt Circle ∅ : Bolt circle diameter (see figure below).
Flange Bolt Count : It determines the mounting pattern which is essential for your burner to properly mount on your walls.
Insert ∅ : Insert diameter: There is a +0.00/-0.02" tolerance on this diameter such that your burner will slide properly into any hole with this nominal diameter.
Insert Length : The insert should be long enough to penetrate the process wall and stabilize the flame at a desired location within the process (see figure below).
Air Flowrate : Air flowrate required to operate the burner at nominal power with prescribed excess air. It dictates the choice of the fan and may significantly impact the burner’s cost.
Air Pressure : Atmospheric pressure on the site. We designed our burner to function on most sites. If you plan to use this burner on high altitude platforms, contact us so we can inform you on the matter.
Air Temperature : Atmospheric temperature on the site.
Fuel Type : Natural gas, propane, landfill, etc.
Fuel Flowrate : Fuel flowrate rate required to achieve the nominal power at prescribed excess air. This parameter affects your operational cost as it affects fuel consumption.
Fuel Pressure : Fuel pressure at the burner inlet. You will need to set your fuel pressure at this value to ensure proper burner operation.
Fuel Temperature : Typical fuel temperature at the burner inlet.
Fan Power : Refers to the fan\'s electrical power consumption.
Fan Connection : Ensure that you will be able to plug burner into your electrical infrastructure.
Flame Detection View Window : Quartz window mounted at the back of the burner for visual check.
Flame Detection Flame Rod : Outputs a flame signal based on rectifying electrical properties of the flame. Includes a ground boom and a cathode which protrudes into the flame region. Requires signal conditionning.
Flame Detection UV Scanner : Outputs a flame signal based on UV-radiations emitted by the flame, not ideal in sooty environments. Requires signal conditionning.
Ignition Spark Rod : Insulated cathode running through the injector.
Ignition Ignition Module : High voltage switching power supply.

Our swrl‑R burners provide the cleanest and most efficient combustion on the market, and can be tailored to your needs which makes it perfectly suitable for any heating application.

The swrl‑R are low-NOx burners for gas-fired heating applications offering power outputs ranging from 50 kBTU/hr to 30 MBTU/hr. The swrl‑R burners are available in various sizes and footprints and can be readily retrofitted to a wide range of industrial heating processes, including low temperature ovens, refineries and metal processing furnaces. With the swrl‑R, Plum Combustion is the only burner manufacturer to provide a fully adaptive solution perfectly suitable for retrofit applications.

Even when operating with low excess air, the swrl‑R burners achieve low-NOx emissions because of their unique design causes exhaust gas to recirculate into the core of the flame, thus reducing its peak temperature. The swrl‑R uses the combustion air to keep its components cool and, thus, increase their life expectancy. An advanced injection and mixing system provides a stable and compact flame that does not impinge on the furnace walls over a broad range of operation.

In summary, the swrl‑R burners deliver remarkable performance because their design incorporates advanced combustion and aerodynamic concepts employed in modern jet engines. Notably, the swrl‑R burners were developed by the group of world class combustion experts who founded Plum Combustion.

Plum Combustion products reduce your run costs with a product adapted to today and tomorrow's challenges:
  • The swrl‑R burners reduce ownership costs because of their competitive price, low maintenance and ability to meet emissions limits while burning the fuel with low excess air.

  • The swrl‑R burners reduce fuel consumption because they burn the fuel with low excess air while satisfying governments' emission limits. This significantly reduces the flow rate of hot gases, which carry energy, out of the process. And fuel savings reduces carbon dioxide emissions!

  • The swrl‑R burners eliminate emissions taxes and could produce energy subsidies because they meet the stringiest emissions limits. And most importantly, using swrl‑R burners will also create business opportunities as it would allow your company access to low-emissions markets.

  • The swrl‑R burners' simple and robust design, and unique cooling system minimize parts replacement, maintenance and, thus, process down time costs.
Get the best experience with exceptional features at a very competitive price:

Power : From 50kBTU/h to 30MBTU/h to target a wide range of applications.

Emissions : Get single digit ppm NOx and CO emissions.

Turn Down Ratio : Passive Fuel Split injector technology allows the swrl‑R burners to be operated with very low fuel pressure. Our fuel injectors are optimized for your application and turn down ratios of 100:1 are attainable.

Versatility : You can readily customize the swrl‑R burners to replace any burner in your process or employ them to optimize the performance of newly developed heating processes. If you are designing a new project, keep us in the loop. And you can change the performance of your swrl‑R burner by replacing parts instead of buying a new burner.


Maintenance : The swrl‑R burner simple design provides easy access to critical components that simplifies maintenance. The sensors are serviced using slide ports and the inside of the burner is accessed by simply removing the back cover.

Reliability : Structural cooling and stainless steel construction extend the life expectancy of the swrl‑R burners allowing them to operate for years in harsh environments.

Footprint : Compact flame, and small high-rev fans facilitates installation in confined spaces.

Feel free to contact us if you have any questions, we will be delighted to assist you.

by phone : 404-991-2546
or email : sales@plumcombustion.com




Specifications

swrl‑R 1000
swrl‑R 3000
swrl‑R 5000
Custom
Performance
Nominal
Power : 1000 kBTU/Hr3000 kBTU/Hr5000 kBTU/Hr50 - 30000 kBTU/Hr
XSA : 15 %15 %15 %0 - 100 %
TDR : 100 : 1100 : 1100 : 10 - 100 : 1
NOx : < 20 ppm< 20 ppm< 20 ppmTBD
Hardware
Inlet
Connection : NPTNPTNPTTBD
∅ : 1 "1.5 "1.75 "0 - 2 "
Flange
∅ : 10 "13.5 "19 "4 - 24 "
Bolt ∅ : 0.75 "0.75 "0.875 "0.25 - 1 "
Bolt Circle ∅ : 8.5 "11.75 "17 "4 - 24 "
Bolt Count : 8812TBD
Insert
∅ : 4.75 "8 "12.25 "3 - 15 "
Length : 12 "17 "17 "4 - 24 "
Flow
Air
Flowrate : 10000 SCFM30000 SCFM50000 SCFM0 - 300000 SCFM
Pressure : 1 ATM1 ATM1 ATM0 - 2 ATM
Temperature : 80.33 °F80.33 °F80.33 °F0 - 150 °F
Fuel
Type : Natural GasNatural GasNatural GasTBD
Flowrate : 1000 SCFH3000 SCFH5000 SCFH0 - 30000 SCFH
Pressure : 28 IWC28 IWC28 IWC5 - 100 IWC
Temperature : 80.33 °F80.33 °F80.33 °F0 - 1000 °F
Electrical
Fan
Power : 200 - 400W925 - 1675W1400 - 2800WTBD
Connection : NEMA 5-15 120VACNEMA 5-15 120VACNEMA 6-50 240VACTBD
Accessories
Flame Detection
View Window : OptionalOptionalOptionalTBD
Flame Rod : IncludedIncludedIncludedTBD
UV Scanner : OptionalOptionalOptionalTBD
Ignition
Spark Rod : IncludedIncludedIncludedTBD
Ignition Module : OptionalOptionalOptionalTBD
Nominal Power : It is a measure of the heating rate output by this unit at its main design point. Since our burners are relatively resilient and provide a broad range of flame stability, they can be used above this value.
Nominal XSA : The Excess air is a measure of oxygen left unburnt at nominal power. Emission levels depend on this value.
Nominal TDR : The turndown ratio is the ratio between the nominal and minimum power (Hi/Lo fire). The swrl-R unusually high turn down ratio allows it to stably operate over a broad range of firing rates.
Nominal NOx : NOx level at nominal power. This value depends upon the flame and process temperatures, the excess air (XSA) and the residence time of the products in the process.
Inlet Connection : Make sure that the connection is compatible with your fuel train.
Inlet ∅ : Fuel connection diameter.
Flange ∅ : Flange diameter.
Flange Bolt ∅ : Flange bolt hole diameter. Choose bolts that will fit in these holes to properly mount your burner.
Flange Bolt Circle ∅ : Bolt circle diameter (see figure below).
Flange Bolt Count : It determines the mounting pattern which is essential for your burner to properly mount on your walls.
Insert ∅ : Insert diameter: There is a +0.00/-0.02" tolerance on this diameter such that your burner will slide properly into any hole with this nominal diameter.
Insert Length : The insert should be long enough to penetrate the process wall and stabilize the flame at a desired location within the process (see figure below).
Air Flowrate : Air flowrate required to operate the burner at nominal power with prescribed excess air. It dictates the choice of the fan and may significantly impact the burner’s cost.
Air Pressure : Atmospheric pressure on the site. We designed our burner to function on most sites. If you plan to use this burner on high altitude platforms, contact us so we can inform you on the matter.
Air Temperature : Atmospheric temperature on the site.
Fuel Type : Natural gas, propane, landfill, etc.
Fuel Flowrate : Fuel flowrate rate required to achieve the nominal power at prescribed excess air. This parameter affects your operational cost as it affects fuel consumption.
Fuel Pressure : Fuel pressure at the burner inlet. You will need to set your fuel pressure at this value to ensure proper burner operation.
Fuel Temperature : Typical fuel temperature at the burner inlet.
Fan Power : Refers to the fan\'s electrical power consumption.
Fan Connection : Ensure that you will be able to plug burner into your electrical infrastructure.
Flame Detection View Window : Quartz window mounted at the back of the burner for visual check.
Flame Detection Flame Rod : Outputs a flame signal based on rectifying electrical properties of the flame. Includes a ground boom and a cathode which protrudes into the flame region. Requires signal conditionning.
Flame Detection UV Scanner : Outputs a flame signal based on UV-radiations emitted by the flame, not ideal in sooty environments. Requires signal conditionning.
Ignition Spark Rod : Insulated cathode running through the injector.
Ignition Ignition Module : High voltage switching power supply.




Literature

NameFileUpload DateVersion
swrl-R1000 Brochure swrlR1000brochure.pdf 08/12/2015rev0.0



Plum Combustion is committed to delivering the most advanced technology in our burners. We leverage technology developed at Georgia Tech on jet engines to achieve the lowest possible NOx and highest overall efficiency - but we bring it right to your home or factory line. R is our core mixing technology that makes our burners the most advanced the market has ever seen. Plum Combustion has spent several million dollars and countless hours of prototyping to achieve hard-to-beat products ahead of the lowest emission standards.

R promotes compact, clean and stable flames with reduced NOx emissions, even at low CO levels. It takes advantage of radial-tangential flow to create the desired flame structure and product entrainment into the core while lowering the peak temperature.

R allows product-system integration to be performed right at the product order phase to ensure that targets set by our customers are met in the field. It includes propritary advanced reduced order models that incorporate flame modeling, fluid mechanics and structural analysis to provide our customers with the most suitable burner for their application. Simple customer inputs such as geometrical constaints, pressure/temperature,etc. are fed into our computer models to generate the optimal solution. This automated process allows our design to be altered on the fly and saves client time and consulting fees, not to mention the integration headackes.

R involves key technological processes in the testing of our products to obtain reliable units over a broad range of applications. This process relies on identifying and reproducing customer operating conditions in the combustion facilities developed at Plum, which include various simulators such as a test furnace, vitiators, radiant tubes, ect. Each product goes through stress, endurance and cycling tests to guarantee a reliable unit operating within the desired range.



Overhead movable data display in Plum Combustion test laboratory during a benchmark experiment.

Applications

R enables products aimed at the following gas-fired heating markets:

  • Heat treatment/metal processing
  • Drying/curing
  • Steam generation
  • Radiant tubes
  • Vitiation
  • Public/residential heating
  • Incineration/cremation
  • Burn-off
  • Grain/corn drying
  • Cooking/baking
  • ETC.
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