How to Achieve Better Concrete Curing with Flameless Heating Systems
Precision is critical when it comes to curing concrete! Adhering to exact specifications is necessary–if you don’t, your concrete could become chalky, cracked, or flaky.
Though there are plenty of different methods for curing concrete, including water-based curing and electrical curing, there are some potential downsides you need to watch out for. For example, water-based curing requires a specific amount of moisture–but use too much or too little, and the concrete might not form properly.
This is where flameless heaters come in. Industrial flameless heaters are an effective, eco-friendly, and efficient way to cure concrete. This article will discuss how flameless heaters can help you achieve better concrete curing.
Why is Cahill the Industry Leader in Temporary Heating?
Cure Larger Areas with More Power
One of the many benefits of flameless heaters is the ability to cure large areas over a shorter period. When you’re working on a construction site, time is of the essence; without enough power to cure the concrete, you might miss your deadline.
Flameless heaters provide an efficient, effective way to cure concrete. They can cure larger areas with significantly more power than their curing counterparts. You’ll be able to meet all your deadlines with plenty of time to spare.
Maintain Specific Conditions Over Long Periods
Ambient temperatures must stay within a certain range to properly cure concrete. Without the proper curing conditions, concrete is significantly weakened and more prone to cracking and scaling.
Flameless heating systems allow you to maintain a specific, even temperature throughout a large area. When you use a flameless heater, you don’t need to worry about cold spots or the temperature changing without warning; the ambient temperature of your site will stay the same as long as the heater is running!
Reduce Fuel Consumption
Industrial flameless heaters are well-known for their energy efficiency. While flamed heaters and other methods of curing concrete use extensive amounts of fuel, a single flameless heater can output an immense amount of heat without expending any unnecessary fuel.
By replacing flamed heaters with flameless ones, you can reduce the amount of fuel needed to cure concrete. This decrease in fuel consumption has a range of benefits, primarily the reduction of harmful fume buildup and increased safety of the workers.
Reduce Harmful Fume Buildup
One of the biggest downsides to using flamed heaters for curing concrete is the excessive amount of harmful fumes they emit. Carbon dioxide and carbon monoxide are pumped regularly into the atmosphere by flamed heaters, which poses a safety hazard for workers and the environment.
When curing concrete, there’s another reason you’ll need to avoid fume buildup: carbonation. Carbonation is a process that happens when concrete comes into contact with carbon dioxide.
Avoid Carbonation and Increase Durability
Carbonation is responsible for much of the world’s CO2 emissions. The carbonation process begins when concrete comes into contact with the atmosphere. This process results in weakened foundations, breakdown of steel reinforcements, and poor air quality for workers.
When flamed heaters and other methods of curing concrete are pumping carbon dioxide into the air, the risk and consequences of carbonation become much greater. The more fuel emitted into the atmosphere; the more dangerous carbonation becomes. Meanwhile, using a flameless heater can heavily reduce fumes, thus curbing the carbonation process and protecting workers, civilians, and the environment.
Industrial Heater Blower Rentals
Flameless heaters are the perfect solution for all your industrial heating needs, whether curing concrete or keeping your workers comfortable. With a flameless heater, it’s easier than ever to create the optimal weather conditions for concrete curing, no matter the weather!
Cahill Heating Rentals provides high-efficiency, environmentally friendly methods for curing concrete. Contact us today to get started.