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Where The HRSG Is Used: Efficiency Reducing Fuel Expenses

The Heat Recovery Steam Generator (HRSG) is a key component in combined cycle and cogeneration power plants that enhances overall plant efficiency. The HRSG recovers heat from exhaust gases to produce steam for driving a steam turbine or for industrial processes. It functions by using exhaust gases to heat water and produce steam in three sections - the economizer, evaporator, and superheater. HRSGs improve the efficiency of combined cycle plants to as high as 60% and cogeneration plants to around 90%, while providing environmental and economic benefits.

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87 views6 pages

Where The HRSG Is Used: Efficiency Reducing Fuel Expenses

The Heat Recovery Steam Generator (HRSG) is a key component in combined cycle and cogeneration power plants that enhances overall plant efficiency. The HRSG recovers heat from exhaust gases to produce steam for driving a steam turbine or for industrial processes. It functions by using exhaust gases to heat water and produce steam in three sections - the economizer, evaporator, and superheater. HRSGs improve the efficiency of combined cycle plants to as high as 60% and cogeneration plants to around 90%, while providing environmental and economic benefits.

Uploaded by

Widya Klara
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
Available Formats
Download as DOCX, PDF, TXT or read online on Scribd
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The power generation industry is leaning towards combined cycles, which are in high

demand for their minimal delivery time and higher efficiency. Enhanced efficiency is beneficial
for both countering the greenhouse effect and reducing fuel expenses. One of the most important
components in combined cycle and cogeneration power plants is the Heat Recovery Steam
Generator (HRSG), which is sandwiched between the gas turbine and the steam turbine.

In this article, we highlight the basics of the HRSG and its importance in the industry.
Consultants, plant engineers and generally anyone involved in projects will find this information
relevant when making key decisions regarding the system.

WHERE THE HRSG IS USED


The HRSG can be used to drive a steam turbine for power generation, or to generate steam
for factory processes or district heating. When used for cogeneration purposes, the HRSG-
produced steam is for process applications. In the combined cycle mode, the steam produced
goes to a steam turbine generator for power generation. The two modes are demonstrated in the
figure below.

Fig 1: Cogeneration Mode and Combined Cycle Mode


When used in cogeneration, these devices offer environmental and economic benefits. They also
enhance overall plant efficiency to as much as 90%. In combined cycles, the HRSG has been
seen to enhance efficiency of the combined system to as much as 60%.

DESIGN AND OPERATION


Even with the numerous brands of HRSG in the market, the basic design has remained largely
the same. The generator is simply a group of tubes placed within an exhaust gas path. The
exhaust gases that heat the water-containing tubes are at a temperature of up to 650ºC. Heat
absorption from the flue gases is often through convection method, but some designs use
convection or radiation. To produce steam, the water is held at a temperature of 200ºC and
extremely high pressures.

Essentially, the HRSG is composed of several heat exchangers making it a large heat exchanger.
The heat exchanger tubes are set in different modules or sections, popularly known as:

 Economizer
 Evaporator
 Super-heater

ECONOMIZER
The function of the economizer is to preheat the feed-water and replace the steam removed.
Once the water approaches the boiling point (saturation temperature), it supplied to the steam
drum.
EVAPORATOR
The evaporator refers to the section where the water in the tubes turns into steam from the
heat of the gas turbine exhaust.
As shown in the figure above, water/steam moves from the lower drum to the upper drum (steam
drum). Steam leaves the upper drum via the steam separating equipment.

SUPERHEATERS/REHEATERS
When saturated steam leaves the evaporator, it goes to the superheaters/reheaters where it is
turned into dry steam. This is important because steam turbines run on dry steam. The
movement of the steam through this section is as showed in the diagram below.
CLASSIFICATION OF HRSGS
Classification is based on operation, application, or design. This gives several types of these
generators as described below.

⦁ VERTICAL AND HORIZONTAL


Depending on design or construction, HRSGs can be either vertical or horizontal. Vertical
generators have vertically flowing gas and horizontally placed coils. For horizontal types, gas
flows horizontally across vertical coils. While the overall cost of these designs is almost the
same, client’s preference may be advised by footprint area, maintenance, structural requirements
and other factors that may vary.

⦁ FIRED AND UNFIRED


The second way of classifying HRSGs is to consider the heat input. Conventionally, HRSGs
rely on exhaust heat alone. However, this becomes a challenge at part loads. Ambient conditions
also affect turbine performance. That is why supplemental firing is often part of the system.

⦁ SINGLE AND MULTI PRESSURE


Basing the classification on pressure level gives these two types of generators. With one steam
drum, single-pressure HRSGs generate steam at a single pressure level. This is unlike the multi
pressure type that features multi pressure circuits.

CONCLUSION
There is a reason why a lot of focus is on combined cycle and cogeneration power plants– the
overall efficiency of the plant is increased in both cases. Whether used for district applications,
process heating or electricity production, HRSG offers value for money for the owner.
Furthermore, you can always enhance the efficiency of your HRSG in ways that we will explain
in an upcoming post. Keep reading our posts.

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