Do You Know What a Boiler Is?

A boiler is a combustion system that is self-contained and heats water. The heated water turns into steam and is then used by the operator. In order to have an efficient working unit, there are four parts to the system. Here is a short explanation of what each part of a boiler does.

The Pump

The boiler system can be filled with corrosive gasses that can affect the life of the boiler. The deaerator pumps can help minimize the impact of the gasses. By raising the temperature of the water feed, you can also prevent thermal shock. By reducing the corrosive gasses and thermal shock, you can prolong the life of your boiler system, save energy, and lower operating costs.

The Combustion

Without combustion, there would be no heat, and for that reason, the reactions that occur within the combustion chamber are critical to the effectiveness of the boiler system. Boilers are created of cast iron, a sturdy and heat resistant metal that can withstand the incredible temperatures that the burning fuel reaches inside the combustion chamber. Once ignited, the temperatures can move up 200 degrees or more in minutes and then the system can efficiently transfer the heat into the exchange unit.

The Burner

As the name suggests, the burner heats the water causing the combustion to occur. As the reaction moves inside the unit, the thermostat sends a message to either produce more heat or to stop burning. An external source provides the fuel, which is pumped through a specially designed filter into the boiler through a nozzle that initiates a fine spray. The mist allows for easy ignition.

The Exchanger

In a boiler unit, the exchanger is the part that moves the pressurized, heated water through a system that transfers the heat to an object or into the air and recirculates the water.

It is surprising that so many people know so little about such a common and useful machine. How much did you know about the workings of the boiler?…

Why Are Pneumatic Pressure Regulators Important?

A pneumatic pressure regulator can be used to all kinds of industries from lifting the bed of a dump truck to holding an aircraft’s internal pressure at a constant state. The use of the system can play a key part in knowing which parts are essential to safe operation and which ones are not. To understand why pneumatic pressure regulators are important it is a good idea to start by understanding where they are used and what happens if they fail.

Where Are They Used?

You are more likely to find arrow regulators in heavy equipment used for industrial purposes because they help keep the pressure constant in larger systems. For example, you can find pressure regulators in everything from the cockpit of an aircraft to your home pressure cooker. These units are also called pressure relieving valves and are generally used wherever high pressures can build or need to be maintained.

What Happens If They Fail?

Without a regulator you can build up too much pressure too fast and cause catastrophic failure of your equipment. A common example is the fact that the regulators on pressure cookers used to have a high failure rate and cause explosions of boiling food in home kitchens. In some cases, a failed regulator can lead to a loss of pressure instead of a buildup of too much pressure. For instance, if your air compressor tank is constantly empty, it is a good idea to see if the leak is coming from a failed regulator.

Having the right type of pneumatic pressure regulator can save you a lot of work in your daily home and work life. These units can be used in industrial manufacturing, home cooking and even aircraft and aerospace applications. It is a good idea to regularly check the health of your regulator to avoid failures of the whole system.…