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Exergy analysis reveals the amount of useful work you can get from a warm exhaust stream
(ProQuest Information and Learning: ... denotes formulae omitted.)
The process industries are extensive users of energy. But it is now clearly established that a large amount of this energy is wasted, essentially in the form of heat rejected to the environment through gaseous or liquid effluents. The temperature level of this heat makes it of no use by the process; and at the same time, in many cases, it cannot be economically upgraded. Examples of industries rejecting considerable thermal energy include: thermal power plants, metallurgical processing, the cement industry, pulp and paper, and petrochemicals. Table 1 gives typical exhaust temperatures for some such industries.
On the basis of the second law of thermodynamics, the quality of an energy source is determined by its ability to perform work. In the specialized literature, this work potential is referred to as availability, or more precisely "available energy" or exergy. From this standpoint, heat (thermal energy) is considered to be the most degraded form of energy.
A simplified approach to evaluate the exergy content of a hot waste stream is presented here. The objective is to provide engineers a means to easily estimate the amount of useful energy they may recover from industrial heat exhausts. Such energy can be used, for example, to drive a turbine for onsite production of electricity. Some of the new and emerging technologies for converting waste heat into work are also briefly described. Many of these technologies are already on the market or on the verge of commercialization.
The concept of exergy
Exergy is a thermodynamic property that was first introduced in the mid1950s as a measure of the capability of a hot stream to produce useful work. Exergy is related to the well-known thermodynamic properties enthalpy and entropy through the equation:
... (1)
where H is the specific enthalpy of the stream, S the specific entropy of the stream, and T is the temperature in Kelvins. The subscript 0 indicates a reference condition, which usually corresponds to the environment containing or surrounding the system.*
Several properties of exergy can be noted with the definition of Equation (1). The exergy content of the stream is a fraction...