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What Is The Working Principle Of Heat Exchanger?

What Is The Working Principle Of Heat Exchanger?

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February 7, 2024

Have you ever watched a wisp of smoking rolling out from the factory chimney or smokestack? Have you ever thought of the amount of energy that goes waste during the process? Well, to be precise, energy losses have always been the prime concern of the factory giants. Experts say that conserving energy has made these industries to install a heat exchanger.

What is a Heat Exchanger?

Heat exchangers are devices that transfer heat between two fluids (liquid or gases). These can be used to either cool or heat a system. To keep the fluids separate, walls are present

Some common places where we can see the heat exchanger are in an internal combustion engine in the form of a radiator, in cooling units for petrochemical industries, power stations, HVAC units, etc.

The principle of Working of Heat Exchanger

Thermodynamically, the heat has the tendency to flow from a higher to a lower temperature. Therefore, when two fluids at two different temperatures (one high and other comparatively lower) are made to flow keeping them separated by a heat conducting surface, then from the body at the higher temperature the heat transferred to the lower one.

However, apart from the above theory, other certain thermodynamic parameters remain in concern while designing a heat exchanger. It also monitors the flow of the liquid on three different configurations—

  • Ensuring that the flow of liquid inside the pipes is ‘Counter-flow’ in nature (fluid flowing parallel to each other but opposite in direction)
  • Ensuring the flow is ‘Parallel-flow’ (fluid flowing parallel in the same direction)
  • Ensuring the configuration of the fluid flow is ‘Cross-flow’ i.e. perpendicular to each other

Factors Affecting the Heat Flow or Transfer

The popular heat exchanger manufacturer keeps in mind all the thermal factors that contribute to an efficient unit. These variables affect the exchanger’s size and performance. The following are some variables—

  1. The mass of the fluid passing through the pipe (mh for hot liquid and mc for cold)
  2. The temperature at which the hot and cold liquid enters & leaves the system denoted by Thi & Tci (for inlet) and, Tho & Tco (for an outlet)
  3. Heat energy coefficient of each of the flowing fluids (Uh & Uc)
  4. The ability of the wall of the heat exchanger to resist the heat under e/ λ
  5. The available surface area of the exchanger
  6. The pressure value of both the fluids (whether or not constant)
  7. The thermal properties of the fluids like heat coefficients (Uh & Uc), density (ρ), heat capacity (cp), viscosity (µ) and conductivity (λ)

Note: The thermodynamic properties of the fluids should maintain a constant value at any point in time in the entire system.

Conclusion

With several numbers of variables playing a crucial role in the unit’s working, selecting the optimally functioning heat exchanger is challenging. For ensuring that the working principle of the heat exchanger fits perfectly well with the thermal properties, it takes the entire system to be adiabatic that is there is no heat exchange between the system and surrounding.

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