Auteurs, éditeurs et examinateurs de Begell House

Wilko Rohlfs

Department of Thermal Fluid Engineering, University of Twente, Drienerlolaan 5, 7522 NB Enschede, The Netherlands

Articles

HEATQUIZ: AN OPEN-ACCESS FRAMEWORK FOR HEAT TRANSFER EDUCATION WITH GAME-BASED LEARNING ELEMENTS Vol. 26 '2022 - 7th Thermal and Fluids Engineering Conference (TFEC)
A SPIN COATING DEVICE FOR THE INVESTIGATION OF SPRAY−FILM INTERACTIONS UNDER ENGINE RELEVANT CONDITIONS Vol. 26 '2016 - Atomization and Sprays
ASSESSMENT OF THE INTERFACE COMPRESSION SCHEME IN THE VOLUME-OF-FLUID MODELING OF CIRCULAR HYDRAULIC JUMPS Vol. 31 '2021 - Atomization and Sprays
FLOW STRUCTURES AND HEAT TRANSFER IN SUBMERGED LAMINAR JET IMPINGEMENT Vol. 7 '2015 - First Thermal and Fluids Engineering Summer Conference
Flow Structures and Heat Transfer in Submerged and Free Laminar Jets Vol. 1 '2014 - International Heat Transfer Conference 15
Influence of Local Flow Acceleration on the Heat Transfer of Submerged and Free-surface Jet Impingement Vol. 18 '2014 - International Heat Transfer Conference 15
Combined Three-Dimensional Flow- and Temperature-Field Measurement Using Digital Light Field Photography Vol. 28 '2014 - International Heat Transfer Conference 15
Thermal convection enhancement of laminar particle-laden flow in a square duct: fully resolved numerical investigation Vol. 21 '2023 - International Heat Transfer Conference 17
METHOD FEASIBILITY OF MICRO-CT INVESTIGATION INTO FROST FORMATION Vol. 29 '2023 - International Heat Transfer Conference 17
AN INTEGRATED PEDAGOGICAL FRAMEWORK FOR TEACHING THERMOFLUID SYSTEMS ANALYSIS Vol. 44 '2023 - International Heat Transfer Conference 17
HeatQuiz: Combining Flipped-Classroom, Game-Based Learning, and Systematic Problem Analysis in Heat Transfer Education Vol. 7 '2023 - International Heat Transfer Conference 17
Exploring Heat Transfer Mechanisms in Laminar Flows: From Jet Impingement to Micro-scale Phenomena Vol. 8 '2023 - International Heat Transfer Conference 17
SMOOTH INTERFACE COMPRESSION: AN IMPROVED ALGEBRAIC VOF METHOD TO MODEL FLOWS DOMINATED BY CAPILLARY FORCES Vol. 32 '2020 - Multiphase Science and Technology