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DESIGN AND RATING OF AN EVAPORATOR FOR WASTE HEAT RECOVERY ORGANIC RANKINE CYCLE USING SES36


Go-down asme-orc2015 Tracking Number 192

Presentation:
Session: Session 9: Heat exchangers
Room: 1B Europe
Session start: 08:40 Tue 13 Oct 2015

Alihan Kaya   alihan.kaya@ugent.be
Affifliation: Ghent University, Department of Flow, Heat and Combustion Mechanics

Marija Lazova   marija.lazova@ugent.be
Affifliation: Ghent University, Department of Flow, Heat and Combustion Mechanics

Michel De Paepe   michel.depaepe@ugent.be
Affifliation: Ghent University, Department of Flow, Heat and Combustion Mechanics


Topics: - Operational Experience (Topics), - Working Fluids (Topics), - I prefer Oral Presentation (Presentation Preference)

Abstract:

The paper presents a design and rating study of a 4MW evaporator having plain horizontal carbon steel tubes having diameters of 25,4 mm, 31,8 mm and 38 mm, to be used in waste heat recovery via Organic Rankine cycle (ORC). SES36 is chosen as working fluid due to its low boiling point, which makes it suitable for low-grade waste heat recovery with subcritical ORCs. Waste heat carrier industrial air arrives at the evaporator bundle at 280°C. Inlet temperature of the working fluid is 40°C and the evaporation occurs at 125°C and 1,09 MPa. Furthermore, a design sensitivity analysis is made by means of using 13 different in-tube flow boiling correlations. The resulting design and rating parameters yielded by each correlation are compared to each other. By those means, a design error margin of various thermo-hydraulic heat exchanger parameters is revealed, when different in-tube flow boiling heat transfer calculation methods are used. The change in the error margins are investigated with respect to changing tube outer diameter, tube wall thickness, fin density and tube layout (staggered and inline).