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High-pressure steam improves efficiency in certain applications, such as power generation, despite having the same temperature as low-pressure steam, due to the higher enthalpy it possesses.

Enthalpy (H) is a thermodynamic property that includes both internal energy (U) and the energy associated with pressure-volume work. It can be expressed as H = U + PV, where P is pressure and V is volume. When steam is at higher pressure, the enthalpy is increased due to the additional energy associated with the pressure.

In power generation, high-pressure steam is typically used in steam turbines. These turbines extract work from the steam, which can then be converted into mechanical or electrical energy. Higher enthalpy steam contains more energy per unit mass, allowing the turbines to extract more work. This leads to higher efficiency in converting heat energy into useful work.

Additionally, high-pressure steam allows for a greater temperature difference between the heat source (e.g., combustion chamber) and the heat sink (e.g., condenser). The larger temperature difference increases the efficiency of heat transfer, resulting in better overall system efficiency.

It's worth noting that while low-pressure steam may have the same temperature as high-pressure steam, its lower enthalpy means it carries less energy per unit mass. Therefore, it is less capable of performing work and has lower efficiency in applications where work extraction is desired.

In summary, high-pressure steam improves efficiency compared to low-pressure steam due to its higher enthalpy and the ability to extract more work from the system, resulting in a more efficient energy conversion process.

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