Article
Acoustics
Thomas F. Geyer
Summary: The effect of a porous coating on the vortex shedding noise of a circular cylinder under disturbed inflow conditions was experimentally examined. The results showed that the porous coating can reduce the width of the vortex shedding tonal noise peak and shift it towards lower Strouhal numbers. This shift was more pronounced in turbulent flow conditions, and the vortex shedding peak level also decreased for the cylinder with a porous coating.
Article
Engineering, Mechanical
Wenyong Yuan, Shujin Laima, Donglai Gao, Wen-Li Chen, Hui Li
Summary: The study found that porous media coatings can effectively reduce the fluctuation of drag and lift forces on cylinders, especially coatings with PPI = 15 and d/D = 0.5 performing better. Additionally, the characteristics of the wake vary for PMCs with different PPI values and depths.
JOURNAL OF FLUIDS AND STRUCTURES
(2021)
Article
Thermodynamics
Pongjet Promvonge, Pitak Promthaisong, Sompol Skullong
Summary: This study numerically investigates the flow topology and thermohydraulic performance of a novel design P-DW on the absorber of a solar air heater duct. The simulation results show that the P-DW design leads to an increase in Nusselt number and friction factor, offering better thermal performance compared to a plain flat plate.
CASE STUDIES IN THERMAL ENGINEERING
(2021)
Article
Engineering, Civil
Xiaoxin Mi, Bisheng Yang, Zhen Dong, Chi Chen, Jianxiang Gu
Summary: This paper proposes an accurate 3D road boundary extraction and vectorization method, which transforms unstructured mobile laser scanning point clouds into vector-based representation of road boundaries. The proposed method is robust to various road shapes and point densities, achieving a precision of 95.0% and a recall of 91.0% according to comprehensive experiments.
IEEE TRANSACTIONS ON INTELLIGENT TRANSPORTATION SYSTEMS
(2022)
Article
Engineering, Aerospace
Dongdong Zhang, Peng Cui, Jianguo Tan, Xiao Yao
Summary: Efficient mixing of fuel and oxidizer is crucial for improving the efficiency of the engine propulsion system. This study proposes the strategy of using a splitter plate cavity to promote mixing in a RBCC combustor. The results show that the splitter plate cavity leads to significant growth of the mixing layer and the newly discovered T-shaped structures play a crucial role in this process.
AEROSPACE SCIENCE AND TECHNOLOGY
(2022)
Article
Engineering, Marine
Narin Aslan, Gonca Ozmen Koca, Sengul Dogan
Summary: This study demonstrates improved accuracy in estimating wave power by utilizing various machine learning techniques and the Relief feature selection algorithm, with the RBM-ELM method showing particularly promising results.
Article
Energy & Fuels
Adedasola A. Ademola, Shutang You, Yilu Liu
Summary: This paper proposes an automated two-stage approach to convert AC power flow from DC optimal power flow dispatch cases, involving the use of conventional Newton Raphson method and a hot-starting incremental method. Critical tasks such as reactive power compensation and voltage setpoint tuning were automated. The proposed method achieved high success rates in converting dispatch cases to solved ACPF cases for the tested dataset.
CSEE JOURNAL OF POWER AND ENERGY SYSTEMS
(2023)
Article
Multidisciplinary Sciences
Yilin Liu, Xuqiang Shao, Zhaohui Wu
Summary: A new method of vortex feature extraction is proposed in this study, combining rotation invariance and predictor-corrector method, which not only expands the application scope but also ensures the accuracy of extraction.
Article
Transportation Science & Technology
Weijie Yu, Dong Ngoduy, Xuedong Hua, Wei Wang
Summary: This study focuses on the stability of connected and automated vehicles (CAVs) in heterogeneous traffic environments, investigating the coexistence of CAVs and human-driven vehicles (HDVs). By establishing a comprehensive modeling framework and using quantitative stability metrics, the study reveals that multi-anticipation topologies outperform single-anticipation topologies in terms of head-to-tail stability. It also refines the stricter condition of L infinity stability compared to L2 stability.
TRANSPORTATION RESEARCH PART C-EMERGING TECHNOLOGIES
(2023)
Article
Mechanics
J. S. David, A. Vernet, F. X. Grau, J. Pallares
Summary: This study investigates the flow characteristics in a cylindrical cavity with an aspect ratio of 2, where the top lid rotates with a sinusoidal time-varying speed. It is found that at low Reynolds numbers, the flow frequencies match the frequency imposed on the rotating lid, while at high Reynolds numbers, the flow frequencies significantly decrease compared to the lid frequency.
Article
Engineering, Multidisciplinary
Menke Li, Jinping Liu, Subo Gong, Hadi Jahanshahi
Summary: This article introduces an automated left ventricle segmentation model, CFISFPNet, which utilizes convolutional GRU and optical flow technique to achieve accurate segmentation of the LV region in a cardiac cycle. Experimental results on benchmark datasets demonstrate that CFISFPNet outperforms state-of-the-art approaches and has the potential to enhance clinical diagnosis and treatment of cardiovascular diseases.
Article
Radiology, Nuclear Medicine & Medical Imaging
Corina Kraeuter, Ursula Reiter, Gabor Kovacs, Clemens Reiter, Marc Masana, Horst Olschewski, Michael Fuchsjaeger, Rudolf Stollberger, Gert Reiter
Summary: We present and validate an automated method for detecting and tracking PH-related vortex from magnetic resonance 4D flow data, which shows good agreement with visual analysis and accurate estimation of elevated mPAP.
MAGNETIC RESONANCE IMAGING
(2022)
Article
Computer Science, Artificial Intelligence
Xinjiani Long, Haitao Li, Yuefeng Du, Enrong Mao, Jianjian Tai
Summary: Difficulties exist in building a general model for mechanical product design due to the diversity of product types and complexity of domain knowledge required. Furthermore, challenges arise in automating, intelligentializing, and accelerating the design process based on experiential knowledge and expert decision-making. A knowledge-based automated design system was developed to address these challenges, improving the efficiency and intelligence of mechanical product design.
EXPERT SYSTEMS WITH APPLICATIONS
(2021)
Article
Automation & Control Systems
Xiaohua Ge, Shunyuan Xiao, Qing-Long Han, Xian-Ming Zhang, Derui Ding
Summary: This paper focuses on the co-design problem of event-triggered communication scheduling and platooning control over vehicular ad-hoc networks (VANETs) subject to finite communication resources. A unified model is presented to describe the coordinated platoon behavior of leader-follower vehicles, and a novel bandwidth-aware dynamic event-triggered scheduling mechanism is developed. Sufficient conditions for stability and performance analysis are derived.
IEEE-CAA JOURNAL OF AUTOMATICA SINICA
(2022)
Article
Engineering, Civil
Yuying Hu, Cailian Chen, Jianping He, Bo Yang
Summary: The paper investigates an eco-platooning problem for CAVs in mixed traffic flow, proposing an ecological and string stable platooning scheme called E-CACC. Novel spacing policies and control laws are presented to ensure energy-efficient driving profiles for all platoon members, with theoretical proof provided for platoon string stability of the proposed strategy. Performance evaluation has shown the energy efficiency of the E-CACC scheme.
IEEE TRANSACTIONS ON INTELLIGENT TRANSPORTATION SYSTEMS
(2021)
Article
Electrochemistry
Dongjae Kim, Jaewook Nam
Summary: Transparent conductive films made of metallic nanowires have complex microstructures composed of nanoscale conducting rods, which determine the electrical performance of the film. A network model was created using a multi-nodal representation and converted into an equivalent circuit using Laplacian eigenmap. Centrality concepts such as betweenness centrality, closeness centrality, and degree centrality were used to extract structural information and correlate with the conductivity of the network.
ELECTROCHIMICA ACTA
(2021)
Article
Energy & Fuels
P. K. P. Reis, M. S. Carvalho
Summary: This study introduces a pore-network model to simulate liquid deposition and its impact in gas-condensate reservoirs. The model considers flow under different gas and liquid saturations, and updates phase properties through PT-flash. Analysis based on coreflooding experiments demonstrated good predictive capability of the model for relative permeability curves.
JOURNAL OF PETROLEUM SCIENCE AND ENGINEERING
(2021)
Article
Mechanics
Hyungyeol Kwak, Jaewook Nam
Summary: This study presents two methods for obtaining the critical conditions for flow reversal onset in Couette-Poiseuille flows, one through solving algebraic equations and the other through local approximation. The methods showed reasonably low relative errors in most system parameter ranges, except in highly nonlinear flow curve cases.
JOURNAL OF RHEOLOGY
(2021)
Article
Engineering, Chemical
Paulo Roberto C. Mendes Junior, Ivan R. Siqueira, Roney L. Thompson, Marcio S. Carvalho
Summary: This study investigates planar extrudate swell flows of Newtonian liquids with a viscous liquid-gas interface. Results demonstrate that the extrudate swells dramatically as the interfacial viscosity grows, indicating a clear relationship between parameters.
Article
Chemistry, Physical
Tatiana Porto Santos, Mariano Michelon, Marcio Silveira Carvalho, Rosiane Lopes Cunha
Summary: Undesirable oil-in-water emulsions formed during biotechnological processes hinder the recovery of oil-based bioproducts. A thorough understanding of the formation and stability of emulsions, as well as careful selection of antifoaming agents, is crucial to address this issue. While antifoams can promote the formation of oil-phase emulsions, different antifoaming agents may have varying effects on emulsion stability.
COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS
(2021)
Article
Chemistry, Applied
Yun-Han Huang, Xiran Li, Mariano Michelon, Bruna C. Leopercio, Marcio S. Carvalho, John M. Frostad
Summary: This study investigated the aging of edible gellan gum microcapsules, revealing changes in structure, color, stability, and density, as well as precise rheological property measurements. As microcapsules aged, they transitioned from relatively soft and purely elastic to increasingly stiff and viscoelastic, ultimately losing integrity by shedding outer shell and aggregating.
FOOD HYDROCOLLOIDS
(2021)
Article
Engineering, Chemical
Aureliano Agostinho Dias Meirelles, Ana Leticia Rodrigues Costa, Mariano Michelon, Juliane Vigano, Marcio S. Carvalho, Rosiane Lopes Cunha
Summary: The study evaluated the use of glass microfluidic devices to produce emulsion-filled alginate microgels and investigated the effect of process variables on microgels size and polydispersity. Monodisperse particle size distribution of the microgels was observed, with size influenced by the viscosity of the O/W emulsion and the phases flow rates. These results demonstrate the potential of microfluidic processes for encapsulating lipophilic compounds in microgels.
JOURNAL OF FOOD ENGINEERING
(2022)
Article
Chemistry, Physical
Sun Kyung Kim, Si Yoon Kim, Ju Young Lee, Jaewook Nam, Won Bo Lee, Seok Kim, Kyu Hyun
Summary: Research shows that ionic liquids (ILs) can enhance the ionic conductivity of solid polymer electrolytes (SPEs) but may have a detrimental effect on mechanical properties. Additionally, silica nanoparticles (SiNPs) do not significantly impact ionic conductivity in SPEs. The suspensions used for making SPEs exhibit shear thinning and yield stress behavior, depending on the concentrations of ILs and SiNPs.
JOURNAL OF POWER SOURCES
(2022)
Article
Nanoscience & Nanotechnology
Bruna C. Leopercio, Sergio Ribeiro, Frederico Gomes, Mariano Michelon, Marcio S. Carvalho
Summary: Magnetized microcapsules produced by microfluidics are studied for their response to external magnetic fields, with the response found to be dependent on the concentration of the ferrofluid, capsule diameter, and shell thickness.
MICROFLUIDICS AND NANOFLUIDICS
(2021)
Article
Chemistry, Physical
Talita Coffler Botti, Anthony Hutin, Erick Quintella, Marcio S. Carvalho
Summary: Several studies have investigated the relationship between the rheological properties of oil-water interfaces and the drainage time of a thin oil film between two aqueous drops. The results show that the properties of the structure formed at the oil-water interface are related to the absence of droplet coalescence. At low surfactant concentrations, the interface is weakly elastic and coalescence always occurs. At higher surfactant concentrations, a solid-like film forms at the interface, preventing further coalescence.
Article
Engineering, Chemical
Hyungyeol Kwak, Jaewook Nam
Summary: This study investigates the influence of the coating gap on the maximum and minimum wet thicknesses in slot-die coating process, and establishes a simple flow model with analytical expressions. The results show that the minimum wet thickness increases linearly with the coating gap, while the maximum wet thickness exhibits a counterintuitive trend of decreasing with the increasing coating gap under a specific slot-die configuration.
Article
Energy & Fuels
Willer P. Goncalves, Danmer M. Quinones, Abelardo B. Barreto Jr, Marcio S. Carvalho
Summary: Traditionally, oil well tests rely on pressure transient analysis (PTA) based on isothermal flow models. With the availability of accurate temperature records, non-isothermal models are now used for temperature transient analysis (TTA) to better characterize reservoir parameters. This study develops a numerical simulator that incorporates a non-isothermal model for well test analysis and solves the inverse problem of reservoir parameter characterization using multivariable optimization methods.
JOURNAL OF PETROLEUM SCIENCE AND ENGINEERING
(2022)
Article
Materials Science, Multidisciplinary
Myungjae Lee, Hyunjoon Jung, Minho Lee, Hyungyeol Kwak, Jaewook Nam
Summary: Slot coating is commonly used in lithium-ion battery electrode manufacturing. However, using a battery slurry for coating experiments poses some challenges. In this study, a carboxymethyl cellulose (CMC) solution was proposed as a candidate for battery anode slurry for coating flows. The rheological properties of the slurry and model fluid were measured, and a computational analysis of the coating flow was conducted. The CMC solution was found to be a valuable candidate for experimental research on the coating flow of battery anode slurries.
JOURNAL OF MATERIALS SCIENCE
(2022)
Article
Physics, Fluids & Plasmas
Nayeon Park, Jaewook Nam
Summary: This paper presents an in-depth analysis of pulsatile shear-thinning flows in two-dimensional channels by introducing the non-Newtonian Womersley number. It is found that the shape of the master curve is determined by the shear thinning degree, and the competition between viscous and pulsatile time scales can be appropriately described by this number.
PHYSICAL REVIEW FLUIDS
(2022)
Article
Physics, Fluids & Plasmas
Junmo Lee, Jaewook Nam
Summary: This study investigates the percolation threshold of curved linear objects, represented as quadratic Bezier curves. By utilizing Monte Carlo simulations, critical number densities of the curves with varying curviness were calculated, along with the excluded area. Apparent conductivity exponents were computed, showing similarities with sticks in percolative systems, providing insights for analyzing the optoelectrical performance of metal nanowire films.
Article
Computer Science, Interdisciplinary Applications
Tian Liang, Lin Fu
Summary: In this work, a new shock-capturing framework is proposed based on a new candidate stencil arrangement and the combination of infinitely differentiable non-polynomial RBF-based reconstruction in smooth regions with jump-like non-polynomial interpolation for genuine discontinuities. The resulting scheme achieves high order accuracy and resolves genuine discontinuities with sub-cell resolution.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Lukas Lundgren, Murtazo Nazarov
Summary: In this paper, a high-order accurate finite element method for incompressible variable density flow is introduced. The method addresses the issues of saddle point system and stability problem through Schur complement preconditioning and artificial compressibility approaches, and it is validated to have high-order accuracy for smooth problems and accurately resolve discontinuities.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Gabriele Ciaramella, Laurence Halpern, Luca Mechelli
Summary: This paper presents a novel convergence analysis of the optimized Schwarz waveform relaxation method for solving optimal control problems governed by periodic parabolic PDEs. The analysis is based on a Fourier-type technique applied to a semidiscrete-in-time form of the optimality condition, which enables a precise characterization of the convergence factor at the semidiscrete level. The behavior of the optimal transmission condition parameter is also analyzed in detail as the time discretization approaches zero.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Jonas A. Actor, Xiaozhe Hu, Andy Huang, Scott A. Roberts, Nathaniel Trask
Summary: This article introduces a scientific machine learning framework that uses a partition of unity architecture to model physics through control volume analysis. The framework can extract reduced models from full field data while preserving the physics. It is applicable to manifolds in arbitrary dimension and has been demonstrated effective in specific problems.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Nozomi Magome, Naoki Morita, Shigeki Kaneko, Naoto Mitsume
Summary: This paper proposes a novel strategy called B-spline based SFEM to fundamentally solve the problems of the conventional SFEM. It uses different basis functions and cubic B-spline basis functions with C-2-continuity to improve the accuracy of numerical integration and avoid matrix singularity. Numerical results show that the proposed method is superior to conventional methods in terms of accuracy and convergence.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Timothy R. Law, Philip T. Barton
Summary: This paper presents a practical cell-centred volume-of-fluid method for simulating compressible solid-fluid problems within a pure Eulerian setting. The method incorporates a mixed-cell update to maintain sharp interfaces, and can be easily extended to include other coupled physics. Various challenging test problems are used to validate the method, and its robustness and application in a multi-physics context are demonstrated.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Xing Ji, Fengxiang Zhao, Wei Shyy, Kun Xu
Summary: This paper presents the development of a third-order compact gas-kinetic scheme for compressible Euler and Navier-Stokes solutions, constructed particularly for an unstructured tetrahedral mesh. The scheme demonstrates robustness in high-speed flow computation and exhibits excellent adaptability to meshes with complex geometrical configurations.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Alsadig Ali, Abdullah Al-Mamun, Felipe Pereira, Arunasalam Rahunanthan
Summary: This paper presents a novel Bayesian statistical framework for the characterization of natural subsurface formations, and introduces the concept of multiscale sampling to localize the search in the stochastic space. The results show that the proposed framework performs well in solving inverse problems related to porous media flows.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Jacob Rains, Yi Wang, Alec House, Andrew L. Kaminsky, Nathan A. Tison, Vamshi M. Korivi
Summary: This paper presents a novel method called constrained optimized DMD with Control (cOptDMDc), which extends the optimized DMD method to systems with exogenous inputs and can enforce the stability of the resulting reduced order model (ROM). The proposed method optimally places eigenvalues within the stable region, thus mitigating spurious eigenvalue issues. Comparative studies show that cOptDMDc achieves high accuracy and robustness.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Andrea La Spina, Jacob Fish
Summary: This work introduces a hybridizable discontinuous Galerkin formulation for simulating ideal plasmas. The proposed method couples the fluid and electromagnetic subproblems monolithically based on source and employs a fully implicit time integration scheme. The approach also utilizes a projection-based divergence correction method to enforce the Gauss laws in challenging scenarios. Numerical examples demonstrate the high-order accuracy, efficiency, and robustness of the proposed formulation.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Junhong Yue, Peijun Li
Summary: This paper proposes two numerical methods (IP-FEM and BP-FEM) to study the flexural wave scattering problem of an arbitrary-shaped cavity on an infinite thin plate. These methods successfully decompose the fourth-order plate wave equation into the Helmholtz and modified Helmholtz equations with coupled conditions on the cavity boundary, providing an effective solution to this challenging problem.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
William Anderson, Mohammad Farazmand
Summary: We develop fast and scalable methods, called RONS, for computing reduced-order nonlinear solutions. These methods have been proven to be highly effective in tackling challenging problems, but become computationally prohibitive as the number of parameters grows. To address this issue, three separate methods are proposed and their efficacy is demonstrated through examples. The application of RONS to neural networks is also discussed.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Marco Caliari, Fabio Cassini
Summary: In this paper, a second order exponential scheme for stiff evolutionary advection-diffusion-reaction equations is proposed. The scheme is based on a directional splitting approach and uses computation of small sized exponential-like functions and tensor-matrix products for efficient implementation. Numerical examples demonstrate the advantage of the proposed approach over state-of-the-art techniques.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Sebastiano Boscarino, Seung Yeon Cho, Giovanni Russo
Summary: This work proposes a high order conservative semi-Lagrangian method for the inhomogeneous Boltzmann equation of rarefied gas dynamics. The method combines a semi-Lagrangian scheme for the convection term, a fast spectral method for computation of the collision operator, and a high order conservative reconstruction and a weighted optimization technique to preserve conservative quantities. Numerical tests demonstrate the accuracy and efficiency of the proposed method.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
Article
Computer Science, Interdisciplinary Applications
Jialei Li, Xiaodong Liu, Qingxiang Shi
Summary: This study shows that the number, centers, scattering strengths, inner and outer diameters of spherical shell-structured sources can be uniquely determined from the far field patterns. A numerical scheme is proposed for reconstructing the spherical shell-structured sources, which includes a migration series method for locating the centers and an iterative method for computing the inner and outer diameters without computing derivatives.
JOURNAL OF COMPUTATIONAL PHYSICS
(2024)
