Numerical treatment of heat recovery steam generator harps constructed from multiple tube bundle configurations

Abstract

The heat recovery steam generator (HRSG) can be regarded as a heat exchanger, which uses the heat rejected from the gas cycle to supply steam for the vapor cycle. HRSGs are consisted of many tube bundles (or harps). Supplying a duct burner in the upstream of an HRSG necessitates constructing the first bundle using different finned-tube materials with dissimilar fin configurations including unequal fin-pitch sizes. The computational fluid dynamics (CFD) has been widely used to study the flow through tube bundles; however, considering a fixed fin-pitch size for all rows of the finned-tubes. There is no trace of numerical analyses to treat tube bundles with unequal fin pitch sizes, apparently, because there are major challenges for the classical strategies, say unified-domain approach, to simulate tube bundles constructed from tubes with different fin configurations. This work introduces the splitted-domain approach as an innovative strategy to pass over the challenges with using the unified-domain approach. Then, these two approaches are used to model the superheater module of a real HRSG with available online measured data. The calculated Nusselt numbers and pressure drops indicate that the splitted-domain approach provides more accurate results than the unified one in simulating tube bundles constructed from tubes with dissimilar fin configurations.

Keywords:

• Boiler
• CFD
• fin pitch
• fin tube
• HRSG
• numerical simulation
• periodic boundary condition
• tube bundle

Acknowledgments

The authors would like to acknowledge the financial support (Award Number: SUT-1399-0070) received from the Deputy of Research and Technology in Sharif University of Technology.

Disclosure statement

No potential conflict of interest was reported by the author(s).