8.34Q:Can we determine gas or steam

8.34
Q:
Can we determine gas or steam temperature profiles in a heat recovery steam
generator (HRSG) without actually designing it?
A:
Yes. One can simulate the design as well as the off-design performance of an
HRSG without designing it in terms of tube size, surface area, etc. The
methodology has several applications. Consultants and plant engineers can
determine for a given set of gas inlet conditions for an HRSG how much
steam can be generated and what the gas=steam temperature profile will look like,
and hence write better specifications for the HRSG or select auxiliaries based on
this simulation without going to a boiler firm for this information. Thus several
options can be ruled out or ruled in depending on the HRSG performance. The
methodology has applications in complex, multipressure cogeneration or
combined cycle plant evaluation with gas turbines. More information on
HRSG simulation can be found in Chapters 1 and 3 and Refs. 11, 12.
Example
140,000 lb=h of turbine exhaust gases at 980F enter an HRSG generating
saturated steam at 200 psig. Determine the steam generation and temperature
profiles if feedwater temperature is 230F and blowdown ¼ 5%. Assume that
average gas specific heat is 0.27 at the evaporator and 0.253 at the economizer.
Two important terms that determine the design should be defined here (see
Fig. 8.13). Pinch point is the difference between the gas temperature leaving the
evaporator and saturation temperature. Approach point is the difference between
the saturation temperature and the water temperature entering the evaporator.
More information on how to select these important values and how they are
influenced by gas inlet conditions is discussed in examples below.
For unfired gas turbine HRSGs, pinch and approach points lie in the range
of 15–30F. The higher these values, the smaller will be the boiler size and cost,
and vice versa.