At a Glance: When we talk about industrial burners, we’re usually referring to systems that run on natural gas, oil, or both (dual-fuel), along with specialized burners designed to reduce emissions like low NOx models. Each type is built for a specific set of applications and operating conditions.
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What sets today’s burners apart is how much control and precision they offer. We’re seeing systems that can dial in fuel-to-air ratios down to exact percentages, integrate with facility-wide automation systems, and maintain rock-solid flame stability across a wide turndown range.
With energy costs rising and emissions standards tightening, burner selection is no longer just about heat output—it’s about long-term performance, fuel flexibility, and staying compliant without constant maintenance headaches. When we help spec burners for a project, we’re always weighing factors like available fuel, local regs, process temperature needs, and how much serviceability the maintenance team can realistically handle.
Gas burners are a core component of many industrial heating systems, valued for their efficiency, clean combustion, and adaptability to a wide range of applications. Whether used in boilers, ovens, or furnaces, these burners deliver consistent performance and are engineered to meet the rigorous demands of industrial operations.
Natural gas burners are one of the most widely used systems in industrial settings, and for good reason. They offer clean combustion, reliable performance, and easy integration into everything from boilers to thermal oxidizers. In most of the facilities we’ve worked with, natural gas is the default fuel thanks to its steady supply and relatively predictable pricing.
Industrial natural gas burners are built to handle much higher firing rates than anything you’d find in a residential setup. They’re designed to run under tougher conditions—think high-volume process heating, drying lines, and round-the-clock boiler operation.
We typically break these systems down into three main types:
If you’re working in a region with strict air quality regs, premix or low-NOx configurations are often required. And one of the major benefits we see is how natural gas simplifies operations—no on-site tanks, fewer moving parts, and lower maintenance compared to oil systems.
Propane burners are a go-to option when natural gas isn’t available—something we see often in remote facilities, temporary job sites, or areas without reliable gas infrastructure. One of propane’s biggest strengths is portability. It gives you flexibility without having to worry about pipeline access, which can be a dealbreaker in certain builds or rural locations.
From a design standpoint, propane systems are usually more compact and require smaller storage footprints compared to natural gas. That makes them easier to install in tight spaces or mobile units. But propane isn’t just a drop-in replacement—you’ve got to account for its physical properties. It’s denser than natural gas and stored under pressure as a liquid, so safety is critical. That means proper leak detection, ventilation, and pressure relief systems aren’t optional—they’re essential.
We often see propane used in applications like temporary construction heating, mobile equipment, material handling gear like forklifts, or as a backup fuel in dual-fuel systems. When the main gas line goes down or prices spike, switching over to propane can keep operations running without missing a beat.
One thing to keep in mind: propane burns a little hotter and cleaner than oil, but it still needs careful combustion control to meet modern emissions standards, especially if you’re in a regulated air district.
Industrial oil burners are high-powered devices used to generate heat by converting liquid fuel into a fine mist, mixing it with air, and igniting it to produce a controlled flame. These burners can burn light or heavy fuel oil.
Light is less dense and contains fewer impurities, making it easier and cheaper to refine into high-value products like gasoline and diesel. It flows more easily and typically commands a higher market price.
Heavy fuel oil is thick, dense, and contains higher levels of sulfur and impurities, which makes it harder to refine and burn cleanly, but it’s often the most cost-effective option for large-scale industrial setups. We usually see it in operations that run around the clock and can support the extra infrastructure. Because of its high viscosity, it needs to be preheated before combustion to ensure proper atomization. That means setting up fuel heating circuits, insulated lines, and specialized pumps that can handle the heavier flow. It’s not as straightforward as running gas, but for high-demand applications, the trade-off in fuel cost can make it worth the extra maintenance and complexity.
Compared to gas burners, oil burners typically produce higher particulate emissions and require more complex maintenance protocols, including fuel system cleaning and atomizer maintenance.
Process heating burners are specialized systems designed for specific industrial applications requiring precise temperature control, uniform heat distribution, and reliable operation in demanding environments. These burners are designed for applications including metal heat treating, chemical processing, and material drying operations.
Process heating burners often incorporate features such as:
These days, most process heating burners are tied into plant-wide control systems using protocols like Modbus or Ethernet/IP, so everything talks to each other. That kind of integration lets operators optimize the entire process—not just burner performance, but energy usage across the line—making it easier to fine-tune for efficiency, spot issues early, and maintain consistent output.
Low NOx burners are engineered to minimize nitrogen oxide (NOx) formation during the combustion process. These burners achieve emission reductions through several techniques, including staged combustion, where fuel and air are introduced in multiple phases to control flame temperature and residence time. This staged approach creates fuel-rich and fuel-lean zones that limit peak combustion temperatures while ensuring complete fuel burnout.
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To keep combustion stable at lower flame temperatures, these systems rely on enhanced control logic and carefully selected materials that can handle the stress without breaking down. It’s a balancing act—you’re trying to lower NOx without sacrificing efficiency or reliability, so everything from the burner head design to the control sequence has to work together to keep performance consistent.
In air handling systems, especially HVAC and industrial drying setups, duct burners are a solid choice. They’re installed directly in the airstream and are built to run safely in tight, enclosed spaces while delivering even heat across the system. For processes that need higher heat intensity, like curing ovens or conveyorized drying lines, high-velocity burners step in. These units generate a concentrated heat flux and rely on advanced flame stabilization to maintain consistent performance during rapid cycling or variable loads. In some of these cases, a traditional gun style burner from Power Flame could also be utilized.
Dual-fuel burners are designed to run on two fuel types—typically natural gas and oil—and they offer a major advantage: flexibility. We’ve seen facilities save significantly by switching to whichever fuel is more cost-effective at a given time, or by keeping production online during a supply disruption. These systems do require tighter control systems and more maintenance planning, but the ability to toggle between fuels adds real operational resilience.
Direct-fired systems deliver combustion products straight into the airstream. This maximizes efficiency—sometimes hitting close to 100%—since there’s no heat loss through a secondary surface. They’re common in tough environments where air purity isn’t a concern.
Indirect-fired systems, on the other hand, use a heat exchanger to isolate combustion gases from the process air. These are ideal for industries where air quality matters, like food processing or pharmaceutical manufacturing, and they provide more control over the air temp and cleanliness, even if some efficiency is sacrificed.
Modern burner systems are engineered to help facilities stay compliant while making the most of their fuel spend. A few of the technologies we work with regularly include:
Understanding the diverse landscape of industrial burner technologies is essential for optimal system selection and operation since each technology offers specific advantages suited to particular applications. Success depends on matching burner characteristics to process requirements while considering fuel availability, environmental regulations, and long-term operational economics.
Power Flame has spent over 75 years at the forefront of the commercial combustion equipment industry. Through our innovative technology, we have developed commercial and industrial burners, process and air heating burners, low NOx burners, and more high-quality products designed to offer the best service possible. Reach out to our experts to learn more about our burners and hands-on burner combustion training classes.
Choosing the right industrial burners can significantly affect your facility’s safety and efficiency. At Charles A. Hones, Inc., we can help you choose the right burner for your specific industrial use. Here are some factors to consider to help you select an industrial burner:
Identify the specific purpose for which you need industrial burners. The requirements for burners used in heating applications may differ per application. Burners used in processes like metal melting or glass production can vary in heat requirements, fuel type, and other aspects from burners used in food production and processing.
Calculate the heat requirements of your industrial process. This involves determining the amount of heat energy in BTUs or kWs your burner must create to achieve the desired temperature for production output. Understanding your heat requirements helps you select burners with the correct capacity. If you are new to your industry, complete in-depth research on its heat requirements. Contact our team members for help verifying the heat production of each of our industrial burners.
Determine the type of fuel you intend to use in your production process. Common industrial burner fuels include natural gas, propane, diesel, heavy oil, and biofuels. Your choice of burner fuel may depend on availability, cost, and environmental considerations. Consider purchasing fuel wholesale to stock up and reduce the likelihood of running out during your manufacturing processes.
Look for burners that offer high combustion efficiency. Efficient burners can help reduce fuel consumption, operating costs, and emissions. We can provide combustion efficiency data for our burners to help you make the right selection for your industrial applications.
Be aware of local and national emissions regulations that may apply to your industrial processes. Make sure that your burners meet or exceed these standards. This can help you avoid potential compliance issues and penalties in the future. Operating in compliance with these standards can also help your burners remain in good working condition.
Select a burner with the appropriate size and capacity to meet your heat requirements. Oversized burners can lead to inefficiencies and increased operating costs. Undersized burners may not provide sufficient heat, adding time to production processes. Determining the type of burner generally used in your industry can help you find the correct burner size and capacity.
Modern industrial burners often come with advanced control systems and automation features. Consider burners with controls that allow for precise temperature regulation. Look for burners that have fuel-air ratio adjustments and remote monitoring. Burner control and automation can help improve your industrial processes’ efficiency and safety.
Evaluate the ease of maintenance and availability of spare parts for your chosen burners. Easy-to-maintain burners can reduce downtime and maintenance costs over time. We can provide information on maintenance and other support for your industrial burner at Charles A. Hones, Inc.
You can determine the future costs of your burner by balancing the initial purchase cost with the long-term operating costs. Be sure to include fuel consumption and maintenance expenses in this calculation. Consider the return on investment over the life of the equipment to determine the burner’s value. Our team members can help you find a burner best suited to your budget and needs.
Depending on the application, there are various types and sizes of industrial burners. At Charles A. Hones, Inc., we offer the following types of burners: