Combustion Science and Technology

Papers
(The H4-Index of Combustion Science and Technology is 14. 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 2022-06-01 to 2026-06-01.)
ArticleCitations
On Flame Extinction and Free-Floating Limits Using a Large Diameter Opposed Jet Burner29
Effect of Carbon-Containing Solid Waste from Calcium Carbide Production on Combustion and Slagging Characteristics of Zhundong Coal Blend28
Two-Stage Impinging-Jet Injector Flow Dynamics and Mixing: Kerosene and Hydrogen Peroxide Propellants25
Enhanced Biomass Combustion via Bluff Body- and Impingement-Stabilized Natural Gas-Air Premixed Flames24
PREFACE to 29 th ICDERS Special Issue24
The Asymptotic Structure of Strained Chain-Branching Premixed Flames Under Nonadiabatic Conditions22
CFD and RSM Assist in Reducing the LPG Consumption of Burners for Agarwood Oil Production in Thailand19
Fluorocarbon-Capped Aluminum Nanoparticles: Synthesis, Characterization, Combustion, and Comparison to Hydrocarbon-Capped Aluminum Nanoparticles17
Experimental Investigation of Microwave-Assisted Kerosene Supersonic Combustion17
Combustion Characteristics and Performance of Nanoflower Structure AlB 2 @AP Energetic Composites17
Inhibition of Laminar Premixed Flames of Dimethyl Ether by a Phosphorus-Containing Compound16
Effect of Immersion Temperature on Reburning Characteristics of Coal with Different Preoxidation Degrees15
Multi-Scale Characteristics of Coal Secondary Spontaneous Combustion Under Different Pre-Heating Oxygen Concentrations by TG and FTIR Analysis15
Spray Flamelet Modeling of Turbulent Two-Phase Reacting Flows with Multi-Component Fuel in a Lean Direct Injection Combustor15
Research on the Prediction Model of Coal Spontaneous Combustion Hazard Level Based on IGWO-GRNN14
Dangerous Area Evolution and Coal Spontaneous Combustion Prevention Method Induced by Air Leakage in Goaf of Ultra-Long Working Face14
Numerical Study on the Dynamics and Combustion Process of Two-Phase Kerosene in Rotating Detonation Flow Field14
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