Author Page for Mehdi Asheghi

Porous Mesh Manifold for Enhanced Pool Boiling Performance

Downloads 116 (613,149)

Citation 1

2

Porous Mesh Manifold for Enhanced Pool Boiling Performance

Number of pages: 27 Posted: 14 Jun 2024

Roman Giglio, Md Rubaiet Shattique, Ercan Dede, Sreekant Narumanchi, Mehdi Asheghi, Kenneth Goodson and James Palko

University of California, Merced - Department of Mechanical Engineering, University of California, Merced, Toyota Research Institue of North America, National Renewable Energy Laboratory, Stanford University, Stanford University and University of California, Merced - Department of Mechanical Engineering

Downloads 76 (840,816)

Citation 1

Abstract:

Porous Mesh Manifold for Enhanced Pool Boiling Performance

Number of pages: 27 Posted: 09 Jul 2024

Roman Giglio, Md Rubaiet Shattique, Ercan Dede, Sreekant Narumanchi, Mehdi Asheghi, Kenneth Goodson and James Palko

University of California, Merced - Department of Mechanical Engineering, University of California, Merced, Toyota Research Institue of North America, National Renewable Energy Laboratory, Stanford University, Stanford University and University of California, Merced - Department of Mechanical Engineering

Downloads 40 (1,210,354)

Abstract:

2.

Triply Periodic Minimal Surfaces for Thermo-Mechanical Protection

Number of pages: 24 Posted: 13 Jul 2024

Jiyun Kang, Xun Wendy Gu, Mehdi Asheghi, Samantha Cheung, Yujui Lin and Kenneth Goodson

Stanford University, Stanford University - Department of Mechanical Engineering, Stanford University, Stanford University, Stanford University and Stanford University

Downloads 93 (725,554)

Abstract:

3.

Design Optimization and Performance Pareto Front Development of a Multi-Level 3d Manifolded Extreme Heat Flux Cooler Via Reduced Order Numerical Modeling

Number of pages: 33 Posted: 27 May 2022

Sougata Hazra, Tiwei Wei, Yujui Lin, Mehdi Asheghi, Kenneth Goodson, Man Prakash Gupta and Michael Degner

Stanford University, University of California, Los Angeles (UCLA), Stanford University, Stanford University, Stanford University, Ford Motor Company and Ford Motor Company

Downloads 92 (747,755)

Citation 2

Abstract:

4.

Development of Capillary-based Two-phase Microcooler Using Laser-fabricated Hierarchical Silicon Pin-Fin/Microchannel Wick

Number of pages: 15 Posted: 24 Oct 2025

Yujui Lin, Heungdong Kwon, Kewei Xiao, Man Prakash Gupta, Michael Degner, H. Alan Mantooth, Mehdi Asheghi and Kenneth Goodson

Stanford University, Stanford University, affiliation not provided to SSRN, Ford Motor Company, Ford Motor Company, University of Arkansas, Stanford University and Stanford University

Downloads 86 (803,225)

Abstract:

5.

Capillary-Driven Two-Phase Cooler for High-Heat-Flux Electronics Using Copper Wire Mesh Manifold and Enhanced Copper Inverse Opal Wick Heat Sink

Number of pages: 27 Posted: 28 May 2025

Heungdong Kwon, Roman Giglio, Daeyoung Kong, Md Rubaiet Shattique, Hyoungsoon Lee, James Palko, Ercan Dede, Mehdi Asheghi and Kenneth Goodson

Stanford University, University of California, Merced - Department of Mechanical Engineering, Stanford University, University of California, Merced, Chung-Ang University, University of California, Merced - Department of Mechanical Engineering, Toyota Research Institue of North America, Stanford University and Stanford University

Downloads 83 (907,769)

Abstract:

6.

Capillary Transport Enhancement in Passive Cooler Wicks Using Uv-Laser Fabricated Hybrid Microstructure

Number of pages: 25 Posted: 24 Jun 2023

Sougata Hazra, Jillian Anderson, Mehdi Asheghi and Kenneth Goodson

Stanford University, Stanford University, Stanford University and Stanford University

Downloads 72 (860,052)

Abstract:

7.

Fabrication Feasibility Study and Techno–Economic Analysis of Scaling Up All Silicon 2–Level Manifolded Micro-Coolers to Extreme Footprint Area (> 600 Mm2)

Number of pages: 50 Posted: 04 Jul 2023

Sougata Hazra, Yujui Lin, Mehdi Asheghi, Kenneth Goodson, Man Prakash Gupta and Michael Degner

Stanford University, Stanford University, Stanford University, Stanford University, Ford Motor Company and Ford Motor Company

Downloads 71 (875,328)

Abstract:

8.

Exploring Capillary limits of Copper Wire Mesh Manifold for Area Scaling of Capillary-Driven Two-Phase Coolers

Number of pages: 30 Posted: 20 Apr 2026

Heungdong Kwon, Roman Giglio, Daeyoung Kong, Md Rubaiet Shattique, Hyoungsoon Lee, James Palko, Ercan Dede, Mehdi Asheghi and Kenneth Goodson

Stanford University, University of California, Merced - Department of Mechanical Engineering, Stanford University, University of California, Merced, Chung-Ang University, University of California, Merced - Department of Mechanical Engineering, Toyota Research Institue of North America, Stanford University and Stanford University

Downloads 21 (1,500,778)

Mehdi Asheghi

Stanford University

8

634

3

Scholarly Papers (8)

Porous Mesh Manifold for Enhanced Pool Boiling Performance

Porous Mesh Manifold for Enhanced Pool Boiling Performance

Abstract:

Porous Mesh Manifold for Enhanced Pool Boiling Performance

Abstract:

Triply Periodic Minimal Surfaces for Thermo-Mechanical Protection

Abstract:

Design Optimization and Performance Pareto Front Development of a Multi-Level 3d Manifolded Extreme Heat Flux Cooler Via Reduced Order Numerical Modeling

Abstract:

Development of Capillary-based Two-phase Microcooler Using Laser-fabricated Hierarchical Silicon Pin-Fin/Microchannel Wick

Abstract:

Capillary-Driven Two-Phase Cooler for High-Heat-Flux Electronics Using Copper Wire Mesh Manifold and Enhanced Copper Inverse Opal Wick Heat Sink

Abstract:

Capillary Transport Enhancement in Passive Cooler Wicks Using Uv-Laser Fabricated Hybrid Microstructure

Abstract:

Fabrication Feasibility Study and Techno–Economic Analysis of Scaling Up All Silicon 2–Level Manifolded Micro-Coolers to Extreme Footprint Area (> 600 Mm2)

Abstract:

Exploring Capillary limits of Copper Wire Mesh Manifold for Area Scaling of Capillary-Driven Two-Phase Coolers

Abstract: