Page 10 - ASME SHTC 2017 Program
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Special Sessions
WORKSHOP System Level Perspective on Heat Transfer Device Optimization
HT2017-5208
Workshop on Process Intensification and Reactor Design: Mr. Michael Stoia
Towards Integrated Heat Exchanger Reactors Principal Engineer, Boeing Research & Technology
Tuesday, July 11, 2017
2:00 PM - 3:40 PM This presentation provides an end-to-end overview of the optimization
Regency Ballroom E, Second Floor process used by Boeing Research & Technology to develop heat transfer
device designs that maximize system-level benefits. The talk is intended
Moderator: Addison Stark, ARPA-E, Washington, DC to increase awareness about appropriate requirements definition that
enables thermal design engineers to optimize their thermal management
Introduction: Addison Stark, Fellow and Acting Program Director, ARPA-E devices and subsystems for maximum system-level benefit. The talk also
describes how additive manufacturing (i.e., 3D printing) is being leveraged
Self-Cleaning Microchannel Reactors to affordably produce prototype devices for experimental characterization
Stefan Bangerth, PhD Candidate, University of Maryland and rapid transition into practice.
Topology Optimization Design Methodologies Surface Enhanced Plate Heat Exchangers
Ram Ranjan, Staff Research Engineer, UTRC HT2017-5209
Mr. Mats Nilsson
Membrane Separations Integration Technology Development Manager, Alfa Laval
Patrick Kirchen, Assistant Professor, University of British Columbia
Brazed plate heat exchangers are often used as evaporators in air
Process Intensification & Reactive Distillations conditioning applications. Compactness and light weight is important for
CB Panchal, Chemical Engineer, E3Tec Service air conditioning systems like heat pumps with freon. By applying surface
enhancement in the evaporator channel then the flow boiling performance
Manufacturability can be improved and the size of the brazed plate heat exchanger is then
Mike Stoia, Principal Engineer, Boeing reduced. The challenge is to optimize the surface structure for long term
performance and to find a cost efficient application method.
PANELS
TUESDAY, JULY 11, 2017 • 4:00 PM – 5:40 PM Advanced Optimization Techniques for Enhanced Heat
EVERGREEN BALLROOM EF, LOBBY LEVEL Transfer Surfaces
HT2017-5210
10-5-1 - PANEL ON ADVANCED OPTIMIZATION TECHNIQUES FOR Dr. Raj Manglik
ENHANCED HEAT TRANSFER EQUIPMENT Professor, University of Cincinnati
Optimization of Aerospace Heat Exchangers Analytical techniques for advanced optimization of enhanced heat transfer
HT2017-5207 surfaces will be presented, to cover a variety of high performance heat
Mr. Hal Strumpf transfer surfaces. The fundamental perspective will invariably be from
Senior Technology Fellow, Honeywell Aerospace academia; however, the applications will focus on state-of-the-art
techniques in the industry.
At Honeywell Aerospace, the key to optimizing heat exchangers is
defining the optimization requirements for each application. Working with TUESDAY, JULY 11, 2017 • 4:00 PM - 5:40 PM
the customer, a quantitative value function is determined for the various REGENCY BALLROOM E, SECOND FLOOR
attributes of interest. Optimization proceeds from this value function. If a
quantitative equation cannot be generated, then a qualitative ranking of 16-4-1 - PANEL ON FEDERAL FUNDING OPPORTUNITIES
attributes can be used for a lower level optimization.
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