2026 Pablo M. Carrica: Mechanical and Aerospace Engineering Researcher – H-Index, Publications & Awards

D-Index & Metrics

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Mechanical and Aerospace Engineering	44	1634	1514	633	553	155	7109

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Mechanical and Aerospace Engineering

1634

1514

633

553

155

7109

Mechanical and Aerospace Engineering

D-Index

Citations

7109

World Ranking

1634

National Ranking

633

Overview

Pablo M. Carrica is affiliated with the University of Iowa in the United States. Their research primarily focuses on engineering, with a particular emphasis on computational mechanics and ocean engineering. Their work intersects several specialized subfields, including aerospace engineering, biomedical engineering, and mechanics of materials.

The scientist's research topics span areas such as ship hydrodynamics and maneuverability, fluid dynamics simulations and interactions, fluid dynamics and mixing, cyclone separators and fluid dynamics, cavitation phenomena in pumps, particle dynamics in fluid flows, and aerospace and aviation technology.

Publications by Pablo M. Carrica have appeared frequently in the following venues:

Ocean Engineering
Physics of Fluids
International Journal of Multiphase Flow
AIAA Journal
Computers & Fluids

Recent papers authored or co-authored by Pablo M. Carrica include:

Vertical zigzag maneuver of a generic submarine, 2020, Ocean Engineering
CFD Simulations and Experiments of a Submarine in Turn, Zigzag, and Surfacing Maneuvers, 2020, Journal of Ship Research
Experiments and CFD for the propeller wake of a generic submarine operating near the surface, 2020, Ocean Engineering
Experimental and computational study of operation of an amphibious craft in calm water, 2020, Ocean Engineering
Ship Airwakes in Waves and Motions and Effects on Helicopter Operation, 2020, Computers & Fluids

Frequent co-authors collaborating with Pablo M. Carrica include:

J. Ezequiel Martín
Venanzio Cichella
Casey Harwood
James Buchholz
Jiajia Li

Best Publications

Ship motions using single-phase level set with dynamic overset grids

Pablo M. Carrica;Robert V. Wilson;Ralph W. Noack;Fred Stern

435
Citations
Dynamic overset grids in OpenFOAM with application to KCS self-propulsion and maneuvering

Zhirong Shen;Decheng Wan;Pablo M. Carrica

327
Citations
Dynamic overset CFD simulations of wind turbine aerodynamics

Yuwei Li;Kwang-Jun Paik;Tao Xing;Pablo M. Carrica

288
Citations
A polydisperse model for bubbly two-phase flow around a surface ship

P.M. Carrica;D. Drew;F. Bonetto;R.T. Lahey

282
Citations
CFD verification and validation of added resistance and motions of KVLCC2 with fixed and free surge in short and long head waves

Hamid Sadat-Hosseini;Ping Chen Wu;Pablo M. Carrica;Ho Kim

278
Citations
An unsteady single-phase level set method for viscous free surface flows

P. M. Carrica;R. V. Wilson;F. Stern

255
Citations
Turn and zigzag maneuvers of a surface combatant using a URANS approach with dynamic overset grids

Pablo M. Carrica;Farzad Ismail;Mark Hyman;Shanti Bhushan

217
Citations
Unsteady RANS method for ship motions with application to roll for a surface combatant

Robert V. Wilson;Pablo M. Carrica;Fred Stern

215
Citations
Full scale self-propulsion computations using discretized propeller for the KRISO container ship KCS

Alejandro M. Castro;Pablo M. Carrica;Frederick Stern

209
Citations
A model for turbulent polydisperse two-phase flow in vertical channels

M.S. Politano;M.S. Politano;P.M. Carrica;J. Converti

206
Citations
Submarine propeller computations and application to self-propulsion of DARPA Suboff

Nathan Chase;Pablo M. Carrica

187
Citations
Suggar++: An improved general overset grid assembly capability

Ralph W. Noack;David A. Boger;Robert F. Kunz;Pablo M. Carrica

159
Citations
Coupled multi-body dynamics and CFD for wind turbine simulation including explicit wind turbulence

Y. Li;A.M. Castro;T. Sinokrot;W. Prescott

145
Citations
Simulations of zigzag maneuvers for a container ship with direct moving rudder and propeller

Alireza Mofidi;Pablo M. Carrica

135
Citations
Semi‐coupled air/water immersed boundary approach for curvilinear dynamic overset grids with application to ship hydrodynamics

Juntao Huang;Pablo M. Carrica;Frederick Stern

124
Citations
Model-and Full-Scale URANS Simulations of Athena Resistance, Powering, Seakeeping, and 5415 Maneuvering

Shanti Bhushan;Tao Xing;Pablo Carrica;Frederick Stern

122
Citations
Unsteady RANS simulation of the ship forward speed diffraction problem

Pablo M. Carrica;Robert V. Wilson;Fred Stern

109
Citations
A sub-grid air entrainment model for breaking bow waves and naval surface ships

F.J. Moraga;P.M. Carrica;D.A. Drew;R.T. Lahey

104
Citations
Strongly coupled fluid―structure interaction method for structural loads on surface ships

Kwang Jun Paik;Pablo M. Carrica;Donghee Lee;Kevin Maki

103
Citations
Computational Towing Tank Procedures for Single Run Curves of Resistance and Propulsion

Tao Xing;Pablo Carrica;Frederick Stern

100
Citations
Large-scale DES computations of the forward speed diffraction and pitch and heave problems for a surface combatant

P.M. Carrica;J. Huang;R. Noack;D. Kaushik

96
Citations

Frequent Co-Authors

Frederick Stern University of Iowa

Richard T. Lahey Rensselaer Polytechnic Institute

Michael G. Hughes University of Wollongong

Barry Smith Argonne National Laboratory

External Links

Personal website of Pablo M. Carrica Google Scholar page

If you think any of the details on this page are incorrect, let us know.

Related Online Degrees & Career Pathways

Exploring Mechanical and Aerospace Engineering opens pathways to various specialized fields. For those interested in broadening their expertise, online degrees offer flexible options that complement engineering knowledge. For example, understanding human behavior and decision-making can be valuable, which is why some professionals pursue degrees like the criminal profiler program to develop analytical thinking skills relevant to security and intelligence sectors.

Additionally, engineering students intrigued by human-centered design might consider pairing their technical skills with degrees in counseling. Researching types of counseling degrees helps identify which paths align with personal and career goals.

Those seeking smoother transitions into such fields may find value in exploring the easiest degree in counseling. These programs are designed to provide foundational knowledge quickly and effectively, making cross-disciplinary skills more accessible.

For advanced professionals, pursuing the fastest online masters in applied behavior analysis can enhance expertise in behavioral strategies that complement technical roles, especially in product design and human factors engineering.