2026 David Greenblatt: Mechanical and Aerospace Engineering Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Mechanical and Aerospace Engineering	36	2504	2343	18	15	177	5812

Overview

David Greenblatt is affiliated with the Technion - Israel Institute of Technology in Israel. Their research primarily falls within the field of Engineering, with a significant focus on Aerospace Engineering and Computational Mechanics. Their work also touches on Water Science and Technology, Control and Systems Engineering, and Electrical and Electronic Engineering.

Their recent publications demonstrate a focus on fluid dynamics, aerodynamics, and flow control. Notable papers include:

Flow Control for Unmanned Air Vehicles (2021), published in Annual Review of Fluid Mechanics
Application of Actuator Line Model for Large Eddy Simulation of Rotor Noise Control (2020), published in Aerospace Science and Technology
Wells Turbine Stall Control Using Plasma Actuators (2021), published in AIAA Journal
Plasma-Based Dynamic Stall Control and Modeling on an Aspect-Ratio-One Wing (2021), published in AIAA Journal
Direct wind-powered vertical axis brackish water desalination system (2023), published in Desalination

The most frequent publication venues for Greenblatt's work include:

AIAA Journal
SSRN Electronic Journal
Applied Energy
Journal of Thermophysics and Heat Transfer
AIAA Scitech 2020 Forum

Their research covers multiple topics, such as:

Fluid Dynamics and Turbulent Flows
Wind Energy Research and Development
Plasma and Flow Control in Aerodynamics
Fluid Dynamics and Vibration Analysis
Biomimetic flight and propulsion mechanisms
Computational Fluid Dynamics and Aerodynamics
Aerodynamics and Acoustics in Jet Flows

Greenblatt collaborates frequently with several coauthors, including:

David Keisar
Hanns Müller-Vahl
Christoph Strangfeld
Anan Garzozi
Steven H. Frankel

Best Publications

The control of flow separation by periodic excitation

David Greenblatt;Israel J. Wygnanski

1199
Citations
Use of Piezoelectric Actuators for Airfoil Separation Control

A. Seifert;A. Seifert;A. Seifert;S. Eliahu;D. Greenblatt;I. Wygnanski;I. Wygnanski

261
Citations
Experimental Investigation of Separation Control Part 1: Baseline and Steady Suction

David Greenblatt;Keith B. Paschal;Chung Sheng Yao;Jerome Harris

238
Citations
Dynamic stall control by periodic excitation, Part 1: NACA 0015 parametric study

D. Greenblatt;I. Wygnanski

187
Citations
Vertical axis wind turbine performance enhancement using plasma actuators

David Greenblatt;Magen Schulman;Amos Ben-Harav

166
Citations
Active separation control: an overview of Reynolds and Mach numbers effects

Avi Seifert;David Greenblatt;Israel J. Wygnanski

154
Citations
Dielectric Barrier Discharge Flow Control at Very Low Flight Reynolds Numbers

David Greenblatt;Berkant Goksel;Ingo Rechenberg;Chan Yong Schule

137
Citations
Control of Thick Airfoil, Deep Dynamic Stall Using Steady Blowing

Hanns F. Müller-Vahl;Christoph Strangfeld;Christian N. Nayeri;Christian O. Paschereit

126
Citations
A Separation Control CFD Validation Test Case. Part 1; Baseline and Steady Suction

David Greenblatt;Keith B. Paschal;Chung-Sheng Yao;jerome Harris

118
Citations
Steady and Unsteady Plasma Wall Jets for Separation and Circulation Control

Berkant Goeksel;David Greenblatt;Ingo Rechenberg;Christian Nayeri

114
Citations
Dynamic Stall Control on a Vertical Axis Wind Turbine Using Plasma Actuators

David Greenblatt;Amos Ben-Harav;Hanns Mueller-Vahl

110
Citations
Unsteady Low-Speed Wind Tunnels

David Greenblatt

109
Citations
Skin-friction measurements on the NASA hump model

Jonathan W. Naughton;S. A. Viken;David Greenblatt

108
Citations
Rapid temporal acceleration of a turbulent pipe flow

David Greenblatt;Edward A. Moss

101
Citations
Mechanism of flow separation control using plasma actuation

David Greenblatt;Torsten Schneider;Chan Yong Schüle

99
Citations
Effect of Leading-Edge Curvature on Airfoil Separation Control

D. Greenblatt;I. Wygnanski

98
Citations
Experimental Investigation of Separation Control Part 2: Zero Mass-Flux Oscillatory Blowing

David Greenblatt;Keith B. Paschal;Chung-Sheng Yao;Jerome Harris

98
Citations
Spatiotemporal Characterization of a Conical Swirler Flow Field Under Strong Forcing

A. Lacarelle;T. Faustmann;D. Greenblatt;C. O. Paschereit

97
Citations
Delta wing stall and roll control using segmented piezoelectric fluidic actuators

Shaul Margalit;David Greenblatt;David Greenblatt;Avi Seifert;Israel Wygnanski

95
Citations
Dynamic stall control via adaptive blowing

Hanns Friedrich Müller-Vahl;Hanns Friedrich Müller-Vahl;Christian Navid Nayeri;Christian Oliver Paschereit;David Greenblatt

80
Citations
Influence of Finite Span and Sweep on Active Flow Control Efficacy

David Greenblatt;Anthony E. Washburn

70
Citations

Frequent Co-Authors

Christian Oliver Paschereit Technical University of Berlin

Israel J Wygnanski University of Arizona

Avi Seifert Tel Aviv University

Hassan M. Nagib Illinois Institute of Technology

Christopher L. Rumsey Langley Research Center

Bernd R. Noack Harbin Institute of Technology

External Links

Personal website of David Greenblatt Google Scholar page

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