Heat Transfer Research

Papers
(The H4-Index of Heat Transfer Research is 13. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-11-01 to 2024-11-01.)
ArticleCitations
OPTIMIZATION OF DARCY-FORCHHEIMER SQUEEZING FLOW IN NONLINEAR STRATIFIED FLUID UNDER CONVECTIVE CONDITIONS WITH ARTIFICIAL NEURAL NETWORK50
A COMPREHENSIVE AND COMPARATIVE EXPERIMENTAL ANALYSIS ON THERMAL CONDUCTIVITY OF TiO2-CaCO3/WATER HYBRID NANOFLUID: PROPOSING NEW CORRELATION AND ARTIFICIAL NEURAL NETWORK OPTIMIZATION44
EXPERIMENTAL ANALYSIS WITH SPECIFIC HEAT OF WATER-BASED ZIRCONIUM OXIDE NANOFLUID ON THE EFFECT OF TRAINING ALGORITHM ON PREDICTIVE PERFORMANCE OF ARTIFICIAL NEURAL NETWORK33
NUMERICAL AND EXPERIMENTAL ANALYSIS OF LONGITUDINAL TUBULAR SOLAR AIR HEATERS MADE FROM PLASTIC AND METAL WASTE MATERIALS30
PHAN-THIEN-TANNER NANOFLUID FLOW WITH GOLD NANOPARTICLES THROUGH A STENOTIC ELECTROKINETIC AORTA: A STUDY ON THE CANCER TREATMENT24
ANALYZING ACTIVATION ENERGY AND BINARY CHEMICAL REACTION EFFECTS WITH ARTIFICIAL INTELLIGENCE APPROACH IN AXISYMMETRIC FLOW OF THIRD GRADE NANOFLUID SUBJECT TO SORET AND DUFOUR EFFECTS23
PASSIVE THERMAL MANAGEMENT OF PHOTOVOLTAIC PANEL BY USING PHASE CHANGE MATERIAL-FILLED ALUMINUM CANS: AN EXPERIMENTAL STUDY21
HEAT TRANSFER ENHANCEMENT-A BRIEF REVIEW OF LITERATURE IN 2020 AND PROSPECTS21
A NUMERICAL STUDY AIMED AT FINDING OPTIMAL ARTIFICIAL NEURAL NETWORK MODEL COVERING EXPERIMENTALLY OBTAINED HEAT TRANSFER CHARACTERISTICS OF HYDRONIC UNDERFLOOR RADIANT HEATING SYSTEMS RUNNING VARIOUS20
SIMULATION OF NUCLEATE POOL BOILING HEAT TRANSFER CHARACTERISTICS OF THE AQUEOUS KAOLIN AND BAUXITE NANOFLUIDS19
ENHANCEMENT OF THERMAL PERFORMANCE OF THE AIR-TO-AIR HEAT PIPE HEAT EXCHANGER (AAHX) WITH ALUMINATE SPINEL-BASED BINARY HYBRID NANOFLUIDS15
NUMERICAL AND EXPERIMENTAL INVESTIGATION OF A DOUBLE-PIPE HEAT EXCHANGER WITH SiO2 NANO-ADDITIVES14
EXPERIMENTAL INVESTIGATION ON HEAT TRANSFER PERFORMANCE OF Fe2O3/WATER AND Fe3O4/WATER NANOFLUIDS IN A PLATE HEAT EXCHANGER14
SURFACE MODIFICATION OF Fe3O4 NANOPARTICLES FOR PREPARING STABLE WATER-BASED NANOFLUIDS13
EFFICACY OF MAGNETIC FIELD ON NANOPARTICLE-ENHANCED PHASE CHANGE MATERIAL MELTING IN A TRIPLE TUBE WITH POROUS FIN13
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