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High-Fidelity Conjugate Heat Transfer Simulation of Micro-Channel Heat Exchanger
Article describes how high-fidelity conjugate heat transfer simulations are used to model a micro-channel heat exchanger (MCHE) in a crossflow to study its thermal-hydraulic performance. Three different microchannel geometries, namely circular, triangular, and square with louver-shaped fins, are considered.
Date:
July 1, 2023
Creator:
Ahmed, Hossain; Sadat, Hamid & Nasrazadani, Seifollah
Object Type:
Article
System:
The UNT Digital Library
Collaborative Research: Supercritical Fluids and Heat Transfer - Delineation of Anomalous Region, Ultra-long Distance Gas Transport without Recompression, and Thermal Management
Data management plan for the grant, "Collaborative Research: Supercritical Fluids and Heat Transfer - Delineation of Anomalous Region, Ultra-long Distance Gas Transport without Recompression, and Thermal Management."
Date:
2023-09-01/2026-08-31
Creator:
Prasad, Vishwanath
Object Type:
Text
System:
The UNT Digital Library
High-throughput Screening and Quality Assessment Testing and an AI-based In-Situ Process Monitoring and Quality Control Framework for Additive Manufacturing New Builds and Repaired Parts
Data management plan for the grant "High-throughput Screening and Quality Assessment Testing and an AI-based In-Situ Process Monitoring and Quality Control Framework for Additive Manufacturing New Builds and Repaired Parts."
Date:
2023-05-01/2027-04-30
Creator:
Shen, M.-H. Herman
Object Type:
Text
System:
The UNT Digital Library
High-Contrast Elasto-Metamaterial Photonics for Adaptable and Stable Lasing
Data management plan for the grant, "High-Contrast Elasto-Metamaterial Photonics for Adaptable and Stable Lasing."
Date:
2023-09-01/2026-08-31
Creator:
Zhang, Richard Z.
Object Type:
Text
System:
The UNT Digital Library
Tunable Plasmonic Multispectral Meta surfaces
Data management plan for the grant, "Tunable Plasmonic Multispectral Meta surfaces." This project investigates the fundamental light-matter interactions and light emission tunability of 2D materials augmented by plasmonic gratings. A key application of our fundamental research is the development of the next generation of optical transistor that use photons to transmit signals containing digital information.
Date:
2023-06-01/2027-05-31
Creator:
Zhang, Richard Z.
Object Type:
Text
System:
The UNT Digital Library