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Pinhole leaks in heat exchangers allow steam to leak into the process fluid. If the boiler is heating hard water, particulates can precipitate out of the water and scaling can occur on the boiler surfaces, lowering efficiency and reducing heat-transfer rates. Scaling can also be a big concern with boilers. A shift in the feedwater temperature can affect boiler performance and efficiency. Water should flow in at a constant temperature so that the boiler uses a consistent amount of work to heat the water to the required temperature. Additionally, the temperature of the water entering the boiler must be monitored. First, boilers have burners that are prone to clogging, which ultimately affects performance. Boilers alone require significant maintenance. A significant amount of money must be allocated to steam system maintenance for a variety of reasons. Electric heaters typically have much lower maintenance costs than steam heaters. Maintenance costs should also be considered. If the plant is located in an area where hydroelectric energy is abundant, the cost of electricity is lower. Geography and location, for example, influence the cost of electric power. That can be a bit misleading, however, because other factors should also be considered when weighing the total cost of steam vs. Thus, steam is generally the heating method of choice for CPI plants.Ĭhallenges and Considerations for Steam SystemsSteam typically has lower operating costs than electric heat - electric heat costs roughly four to five times as much per kWh than steam. Steam heating is typically less expensive than electric heating. The condensate is normally routed back into the boiler feed line. As the steam gives up heat to the process fluid, the temperature of the steam decreases and the steam condenses. Hot steam flows through one side of the exchanger and the process fluid to be heated flows through the other side. A heat exchanger is another component of a steam heating system. Higher pressure ratings translate into higher capital costs - higher-pressure steam requires piping with a higher pressure rating, which comes at a higher cost.
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As the temperature in the boiler increases, so does the steam’s pressure and enthalpy.Īfter exiting the boiler, the steam travels throughout the plant in a piping network. High-pressure systems are expensive to build and maintain therefore, steam is not an ideal solution for heating processes above 406☏. At 250 psi, the temperature of steam is approximately 406☏. Steam above 250 psi is considered high-pressure steam. Medium-pressure steam falls between 50 psi and 250 psi. Steam is classified as low pressure when it is below 50 psi. Water enters the boiler and is heated to generate steam, which is categorized by its pressure. Many different types of boilers are available.
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Boiler design and construction is governed by the ASME Boiler and Pressure Vessel Code (BPVC), an American Society of Mechanical Engineers (ASME) standard. The heart of the steam system is the boiler - a pressurized chamber heated by a system of (typically gas-fueled) burners. A steam system has four basic parts: a boiler, a steam distribution system, a heat exchange system, and a condensate return system. If the plant’s heat load is more than 1 MW (3.4 million Btu), a steam system is a realistic option some steam boilers have a capacity exceeding 50 million Btu.
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Much of the cost depends on the amount of heat required. Steam Heating SystemsSteam is an efficient heating source that is also very cost effective. In some cases, the optimal approach may be a combination of steam and electric heating. The process requirements will help guide the optimal heating approach. To decide which is better, the goals of the plant and the nature of the process must be determined. Facilities commonly generate heat using electricity or steam. At the other end of the spectrum, frozen pipes and feedstock lines could trigger a plant shutdown. Inefficient heating could also increase waste or reject rates by not achieving a temperature setpoint, which can impair quality. On the benign end, an inefficient heating source increases operating expenses. Choosing the wrong type of heating source can have a variety of negative consequences. Regardless of the details, engineers must decide on a heating source that works best for a particular process. The amount of heat required and the necessary level of consistency can vary from process to process. Consider process requirements and plant operating goals to determine the optimal heating source for your facility.Most facilities in the chemical process industries (CPI) require some form of heat.