Preprint Article Version 1 This version is not peer-reviewed

Development of a Pattern Recognition Methodology with Thermography and Implementation in an Experimental Study of a Boiler for a WHRS-ORC

Version 1 : Received: 5 March 2019 / Approved: 7 March 2019 / Online: 7 March 2019 (06:43:58 CET)

A peer-reviewed article of this Preprint also exists.

Paz, C.; Suárez, E.; Concheiro, M.; Diaz, A. Development of a Pattern Recognition Methodology with Thermography and Implementation in an Experimental Study of a Boiler for a WHRS-ORC. Sensors 2019, 19, 1680. Paz, C.; Suárez, E.; Concheiro, M.; Diaz, A. Development of a Pattern Recognition Methodology with Thermography and Implementation in an Experimental Study of a Boiler for a WHRS-ORC. Sensors 2019, 19, 1680.

Journal reference: Sensors 2019, 19, 1680
DOI: 10.3390/s19071680

Abstract

Waste heat dissipated in the exhaust system in a combustion engine represents a major source of energy to be recovered and converted into useful work. A waste heat recovery system (WHRS) based on an Organic Rankine Cycle (ORC) is a promising approach, and has gained interest in the last few years in an automotive industry interested in reducing fuel consumption and exhaust emissions. Understanding the thermodynamic response of the boiler employed in an ORC plays an important role in steam cycle performance prediction and control system design. The aim of this study is therefore to present a methodology to study these devices by means of pattern recognition with infrared thermography. In addition, the experimental test bench and its operating conditions are described. The methodology proposed identifies the wall coordinates, traces paths, and tracks wall temperature along them in a way that can be exported for subsequent post-processing and analysis. As for the results, through the wall temperature paths on both sides (exhaust gas and working fluid) it was possible to quantitatively estimate the temperature evolution along the boiler and, in particular, the beginning and end of evaporation.

Subject Areas

WHRS; ORC; boiler; infrared thermography

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