Journals

Jangyadatta Pasa, Venugopal A. “Phase Difference Effects on Synthetic Jet Array Flow: A Proper Orthogonal Decomposition Study.“ Physics of Fluids 2025
PP, Pranav, Pranay Prabha Badvelu, Venugopal A. “Influence of amplitude and harmonic frequencies on the velocity of Faraday superwalkers..“ Physics of Fluids 2024, 36, 12
Nandan Rakesh, Venugopal A, Mihir Kumar Das. “Temperature control of electronic gadgets using novel heat sink.“ International Communications in Heat and Mass Transfer (IF=6.4) 159, 2024, 108101 - DOI
Vardhan Mittal, Venugopal A. “Control of the von Kármán vortex street with focusing and vectoring of jet using synthetic jet array.“ Physics of Fluids (IF=4.1) 2024, 36, 103630 - DOI
Kalipada Chatterjee, Carlos Marques, Venugopal A, Subrat Sahu, Jan Nedoma, Rajan Jha. “Integrated Interferometers' System for In-situ Real Time Optical Signal Modulation..“ Photonics Research (IF=6.6) 2024 - DOI
Sethi C, Pasa J, Panda S, Venugopal A. “Influence of mass flux ratio and phase difference on impingement heat transfer characteristics of coaxial synthetic jet..“ International Journal of Heat and Mass Transfer (IF=5) 234, 126075, 2024 - DOI
Nandan R, Venugopal A, Das M. “An experimental investigation into PCM-integrated heat sinks under varying duty cycles..“ Journal of Energy Storage (IF=8.9) 97, 2024, 112905 - DOI
Jangyadatta Pasa, Neeruganti Venkata Shathrughnu, Venugopal A. “Impingement Heat Transfer Enhancement by Focusing the Jet from Synthetic Jet Array.“ International Communications in Heat and Mass Transfer (IF=7) 152, 2024, 12 - DOI
Vardhan Mittal, Venugopal A. “Torque generation using synthetic jet actuators.“ Journal of Process Mechanical Engineering (IF=2.4) 2023, 8 - DOI
S Merrylin, P Samrendra, Venugopal A. “A Computational Study of Particle Dynamics in Synthetic Jet Flow Field.“ Physics of Fluids (IF=4.6) 2023, 35, 97128 - DOI
N Kumar, S Kumar, Venugopal A, YG Bhumkar. “Analysis of non-uniform laminar flow past a circular cylinder on the flow and sound field evolution using direct numerical simulation approach.“ Acta Mechanica (IF=2.7) 2023 - DOI
M Dnyanesh, Venugopal A, Y Harekrishna. “A numerical investigation into thermo-fluid characteristics of pulsating jet impingement on a dimpled surface.“ Physics of Fluids (IF=4.6) 2023 - DOI
Venugopal A, Kusuluri, Rajendra, Dnyanesh Mirikar. “Role of Face Masks and Ventilation Rates in Mitigating Respiratory Disease Transmission in ICU.“ Scientific Reports (Nature Publication) (IF=4.99) 2023
Pasa, Jangyadatta, Samarendra Panda, Venugopal A. “Focusing of jet from synthetic jet array using non-linear phase delay.“ Physics of Fluids (IF=4.6) 35, 5, 2023 - DOI
Arvind Maurya, Ritesh Kumar, Venugopal A, Rajan Jha. “An all-optical system for transit time estimation in fluids using single source and detector.“ IEEE Transactions on Instrumentation and Measurement (IF=5.332) 2023
Kusuluri, Rajendra, Dnyanesh Mirikar, Silambarasan Palanivel, Venugopal A. “Risk assessment of airborne virus transmission in an intensive care unit due to single and sequential coughing.“ Risk Analysis (IF=4.302) 2023 - DOI
Venugopal A, Kartik Rajput, Rakesh Nandan, Pransenjit Rath, Mihir Das. “A novel synthetic jet based heat sink with PCM filled cylindrical fins for efficient electronic cooling.“ Journal of Energy Storage (IF=9.4) 58, 2023, 106376 - DOI
Panda, Samarendra, Jangyadatta Pasa, Venugopal A. “Characterisation of an Independently Controlled Coaxial Synthetic Jet.“ Sensors and Actuators A: Physical (IF=4.291) 2023 - DOI
Mudavath, Vishnu, Venugopal A. “Impingement heat transfer characteristics of nozzles with inclined exits.“ Experimental Heat Transfer (IF=3.272) 2023 - DOI
Panda, Samarendra, Trushar B. Gohil, Venugopal A. “Evolution of Flow Structure from a Coaxial Synthetic Jet.“ International Journal of Mechanical Sciences (IF=6.772) 2022 - DOI
Panda, Samarendra, Trushar B. Gohil, Venugopal A. “Influence of Mass Flux Ratio on the Evolution of Coaxial Synthetic Jet.“ Physics of Fluids (IF=4.6) 34, 9, 2022, 093601 - DOI
Pasa, Jangyadatta, Samarendra Panda, Venugopal A. “Influence of Strouhal number and phase difference on the flow behaviour of a synthetic jet array.“ Physics of Fluids (IF=4.6) 34, 6, 2022, 065118 - DOI
Madapati, Nikhilesh, Venugopal A. “T‐joint Micromixer Coupled with Deforming Diaphragm.“ Chemical Engineering & Technology (IF=2.215) 2022 - DOI
Chatterjee, Kalipada, Venugopal A, Dhananjay Patil, Rajan Jha. “Multipoint monitoring of amplitude, frequency, and phase of vibrations using concatenated modal interferometers.“ Scientific Reports (IF=4.996) 12, 1, 2022, 1-10 - DOI
Ambolkar, Manthan, Venugopal A. “Propulsive performance of a pitching foil in a side-by-side arrangement with auxiliary pitching foil.“ Journal of Fluids and Structures (IF=3.482) 110, 2022, 103537 - DOI
Nandan, Rakesh, Venugopal A, Prasenjit Rath, Mihir Kumar Das. “Experimental study of PCM based hybrid heat sink for electronic cooling.“ Journal of Enhanced Heat Transfer (IF=2.449) 29, 3, 2022 - DOI
Venugopal A, J Pasa, SS Samantaray, VS Varma. “Breathing, virus transmission, and social distancing—an experimental visualization study.“ AIP Advances (IF=1.697) 11, 4, 2021, 045205 - DOI
Venugopal A, J Pasa, SS Samantaray. “Double masking protection vs. comfort—A quantitative assessment.“ Physics of Fluids (IF=4.6) 33, 7, 2021, 077120 - DOI
D Mirikar, S Palanivel, Venugopal A. “Droplet fate, efficacy of face mask, and transmission of virus-laden droplets inside a conference room.“ Physics of Fluids (IF=4.6) 33, 6, 2021, 065108 - DOI
Thummar, Dhruv, Jaganmohan Reddy, Venugopal A. “Machine Learning for Vortex Flowmeter Design.“ IEEE Transactions on Instrumentation and Measurement (IF=5.332) 2021 - DOI
H Gupta, Venugopal A, R Jha. “Industrial Fluid Flow Measurement using Optical Fiber Sensors: A review.“ IEEE Sensors (IF=4.325) 2021 - DOI
Venugopal A, J Pasa, SS Samantaray. “Experimental visualization of sneezing and efficacy of face masks and shields.“ Physics of Fluids (IF=4.6) 32, 11, 2020, 115129 - DOI
Venugopal A, Amit Agrawal, S. V. Prabhu. “Experimental investigations on flow over a circular cylinder placed in a circular pipe.“ Physics of Fluids (IF=4.6) 32, 9, 2020, 095122 - DOI
Mukesh K, Venugopal A. “Jet deflection by two side-by-side arranged hydrofoils pitching in a quiescent fluid.“ AIP Advances (IF=1.697) 10, 10, 2020, 105128 - DOI
Venugopal A, A Kodam, R Jha. “Bi-Directional Interferometric Flowmeter with Linear Sensitivity and Large Dynamic Range.“ IEEE Transactions on Instrumentation and Measurement (IF=5.332) 2020 - DOI
H Yadav, Venugopal A, SV PRABHU, A Agrawal. “Study on connecting tube dynamics for transient pressure measurement.“ Sadhana (IF=1.214) 45, 1, 2020 - DOI
Venugopal A, Jitendra Narayan Dash, Dhrubaraj Dora, Rajan Jha. “Vortex shedding optical Flowmeter based on Photonic Crystal Fiber.“ Scientific Reports (IF=4.996) 9, 1, 2019, 8313 - DOI
Liladhar J, Venugopal A. “Numerical Investigation on Heat Transfer and Flow Characteristics of a Confined Circular Cylinder with Slit.“ Journal of Thermal Science and Engineering Applications: ASME (IF=1.879) 2019 - DOI
Choudhary, Kushal Prasad, Venugopal A, Yogesh G. Bhumkar. “Numerical simulation of beam drift effect in ultrasonic flow-meter.“ Measurement (IF=5.6) 146, , 2019, 705-717 - DOI
Venugopal A, Amit Agrawal, S. V. Prabhu. “On the Linearity, Turndown Ratio and Shape of the Bluff Body for Vortex Flowmeter.“ Measurement (IF=5.6) 137, , 2019, 477-483 - DOI
Venugopal A, Amit Agrawal, S. V. Prabhu. “Vortex Dynamics of Trapezoidal bluff body placed inside a pipe.“ Journal of Turbulence (IF=2.31) 19, , 2018, 1-24 - DOI
Kapil M, Venugopal A, Amit Agrawal, S. V. Prabhu. “Improvement in the performance of the vortex flowmeter using contraction cone.“ Measurement (IF=5.6) 111, , 2017, 316-332 - DOI
Venugopal A, Amit Agrawal, S. V. Prabhu. “Investigations on turbulent flow around bluff bodies placed in a circular pipe.“ Journal of Fluids Engineering, ASME -2017 (IF=1.998) 139, 4, 2017, 041204 - DOI
Lavish O., Venugopal A, Amit Agrawal, S. V. Prabhu. “Vortex shedding characteristics of a cylinder with a parallel slit placed in a circular pipe.“ Journal of Visualization (IF=1.974) 2017, , , 1-13 - DOI
Venugopal A, Amit Agrawal, S. V. Prabhu. “Spanwise correlations in the wake of a circular cylinder and a normal plate Placed inside a pipe.“ Journal of Fluids and Structures (IF=3.482) 54, , 2015, 536-547 - DOI
Venugopal A, Amit Agrawal, S. V. Prabhu. “Note: A Vortex cross-correlation flowmeter with improved turndown ratio.“ Review of Scientific Instruments (IF=1.843) 85, 6, 2014, 066109 - DOI
Venugopal A, Amit Agrawal, S. V. Prabhu. “Performance evaluation of piezoelectric and differential pressure sensor for vortex flowmeters.“ Measurement (IF=5.6) 50, , 2014, 10-18 - DOI
Borkar, Kishor, Venugopal A, S. V. Prabhu. “Study on the design and performance of a Bi-directional cone flowmeter.“ Flow Measurement and Instrumentation (IF=2.42) 34, , 2013, 151-159 - DOI
Borkar, Kishor, Venugopal A, S. V. Prabhu. “Pressure measurement technique and installation effects on the performance of wafer cone design.“ Flow Measurement and Instrumentation (IF=2.42) 30, , 2013, 52-59 - DOI
Venugopal A, Amit Agrawal, S. V. Prabhu. “Frequency detection in vortex flowmeter for low Reynolds number using piezoelectric sensor and installation effects.“ Sensors and Actuators A: Physical (IF=4.291) 184, , 2012, 78-85 - DOI
Venugopal A, Amit Agrawal, S. V. Prabhu. “Review on vortex flowmeter-Designer perspective.“ Sensors and Actuators A: Physical (IF=4.291) 170, 1, 2011, 8-23 - DOI
Venugopal A, Amit Agrawal, S. V. Prabhu. “Influence of blockage and shape of a bluff body on the performance of vortex flowmeter with wall pressure measurement.“ Measurement (IF=5.6) 44, 5, 2011, 954-964 - DOI
Venugopal A, Amit Agrawal, S. V. Prabhu. “Influence of blockage and upstream disturbances on the performance of a vortex flowmeter with a trapezoidal bluff body.“ Measurement (IF=5.6) 43, 4, 2010, 603-616 - DOI

Journals

Jangyadatta Pasa, Venugopal A. “Phase Difference Effects on Synthetic Jet Array Flow: A Proper Orthogonal Decomposition Study.“ Physics of Fluids 2025

PP, Pranav, Pranay Prabha Badvelu, Venugopal A. “Influence of amplitude and harmonic frequencies on the velocity of Faraday superwalkers..“ Physics of Fluids 2024, 36, 12

Nandan Rakesh, Venugopal A, Mihir Kumar Das. “Temperature control of electronic gadgets using novel heat sink.“ International Communications in Heat and Mass Transfer (IF=6.4) 159, 2024, 108101 - DOI

Vardhan Mittal, Venugopal A. “Control of the von Kármán vortex street with focusing and vectoring of jet using synthetic jet array.“ Physics of Fluids (IF=4.1) 2024, 36, 103630 - DOI

Kalipada Chatterjee, Carlos Marques, Venugopal A, Subrat Sahu, Jan Nedoma, Rajan Jha. “Integrated Interferometers' System for In-situ Real Time Optical Signal Modulation..“ Photonics Research (IF=6.6) 2024 - DOI

Sethi C, Pasa J, Panda S, Venugopal A. “Influence of mass flux ratio and phase difference on impingement heat transfer characteristics of coaxial synthetic jet..“ International Journal of Heat and Mass Transfer (IF=5) 234, 126075, 2024 - DOI

Nandan R, Venugopal A, Das M. “An experimental investigation into PCM-integrated heat sinks under varying duty cycles..“ Journal of Energy Storage (IF=8.9) 97, 2024, 112905 - DOI

Jangyadatta Pasa, Neeruganti Venkata Shathrughnu, Venugopal A. “Impingement Heat Transfer Enhancement by Focusing the Jet from Synthetic Jet Array.“ International Communications in Heat and Mass Transfer (IF=7) 152, 2024, 12 - DOI

Vardhan Mittal, Venugopal A. “Torque generation using synthetic jet actuators.“ Journal of Process Mechanical Engineering (IF=2.4) 2023, 8 - DOI

S Merrylin, P Samrendra, Venugopal A. “A Computational Study of Particle Dynamics in Synthetic Jet Flow Field.“ Physics of Fluids (IF=4.6) 2023, 35, 97128 - DOI

N Kumar, S Kumar, Venugopal A, YG Bhumkar. “Analysis of non-uniform laminar flow past a circular cylinder on the flow and sound field evolution using direct numerical simulation approach.“ Acta Mechanica (IF=2.7) 2023 - DOI

M Dnyanesh, Venugopal A, Y Harekrishna. “A numerical investigation into thermo-fluid characteristics of pulsating jet impingement on a dimpled surface.“ Physics of Fluids (IF=4.6) 2023 - DOI

Venugopal A, Kusuluri, Rajendra, Dnyanesh Mirikar. “Role of Face Masks and Ventilation Rates in Mitigating Respiratory Disease Transmission in ICU.“ Scientific Reports (Nature Publication) (IF=4.99) 2023

Pasa, Jangyadatta, Samarendra Panda, Venugopal A. “Focusing of jet from synthetic jet array using non-linear phase delay.“ Physics of Fluids (IF=4.6) 35, 5, 2023 - DOI

Arvind Maurya, Ritesh Kumar, Venugopal A, Rajan Jha. “An all-optical system for transit time estimation in fluids using single source and detector.“ IEEE Transactions on Instrumentation and Measurement (IF=5.332) 2023

Kusuluri, Rajendra, Dnyanesh Mirikar, Silambarasan Palanivel, Venugopal A. “Risk assessment of airborne virus transmission in an intensive care unit due to single and sequential coughing.“ Risk Analysis (IF=4.302) 2023 - DOI

Venugopal A, Kartik Rajput, Rakesh Nandan, Pransenjit Rath, Mihir Das. “A novel synthetic jet based heat sink with PCM filled cylindrical fins for efficient electronic cooling.“ Journal of Energy Storage (IF=9.4) 58, 2023, 106376 - DOI

Panda, Samarendra, Jangyadatta Pasa, Venugopal A. “Characterisation of an Independently Controlled Coaxial Synthetic Jet.“ Sensors and Actuators A: Physical (IF=4.291) 2023 - DOI

Mudavath, Vishnu, Venugopal A. “Impingement heat transfer characteristics of nozzles with inclined exits.“ Experimental Heat Transfer (IF=3.272) 2023 - DOI

Panda, Samarendra, Trushar B. Gohil, Venugopal A. “Evolution of Flow Structure from a Coaxial Synthetic Jet.“ International Journal of Mechanical Sciences (IF=6.772) 2022 - DOI

Panda, Samarendra, Trushar B. Gohil, Venugopal A. “Influence of Mass Flux Ratio on the Evolution of Coaxial Synthetic Jet.“ Physics of Fluids (IF=4.6) 34, 9, 2022, 093601 - DOI

Pasa, Jangyadatta, Samarendra Panda, Venugopal A. “Influence of Strouhal number and phase difference on the flow behaviour of a synthetic jet array.“ Physics of Fluids (IF=4.6) 34, 6, 2022, 065118 - DOI

Madapati, Nikhilesh, Venugopal A. “T‐joint Micromixer Coupled with Deforming Diaphragm.“ Chemical Engineering & Technology (IF=2.215) 2022 - DOI

Chatterjee, Kalipada, Venugopal A, Dhananjay Patil, Rajan Jha. “Multipoint monitoring of amplitude, frequency, and phase of vibrations using concatenated modal interferometers.“ Scientific Reports (IF=4.996) 12, 1, 2022, 1-10 - DOI

Ambolkar, Manthan, Venugopal A. “Propulsive performance of a pitching foil in a side-by-side arrangement with auxiliary pitching foil.“ Journal of Fluids and Structures (IF=3.482) 110, 2022, 103537 - DOI

Nandan, Rakesh, Venugopal A, Prasenjit Rath, Mihir Kumar Das. “Experimental study of PCM based hybrid heat sink for electronic cooling.“ Journal of Enhanced Heat Transfer (IF=2.449) 29, 3, 2022 - DOI

Venugopal A, J Pasa, SS Samantaray, VS Varma. “Breathing, virus transmission, and social distancing—an experimental visualization study.“ AIP Advances (IF=1.697) 11, 4, 2021, 045205 - DOI

Venugopal A, J Pasa, SS Samantaray. “Double masking protection vs. comfort—A quantitative assessment.“ Physics of Fluids (IF=4.6) 33, 7, 2021, 077120 - DOI

D Mirikar, S Palanivel, Venugopal A. “Droplet fate, efficacy of face mask, and transmission of virus-laden droplets inside a conference room.“ Physics of Fluids (IF=4.6) 33, 6, 2021, 065108 - DOI

Thummar, Dhruv, Jaganmohan Reddy, Venugopal A. “Machine Learning for Vortex Flowmeter Design.“ IEEE Transactions on Instrumentation and Measurement (IF=5.332) 2021 - DOI

H Gupta, Venugopal A, R Jha. “Industrial Fluid Flow Measurement using Optical Fiber Sensors: A review.“ IEEE Sensors (IF=4.325) 2021 - DOI

Venugopal A, J Pasa, SS Samantaray. “Experimental visualization of sneezing and efficacy of face masks and shields.“ Physics of Fluids (IF=4.6) 32, 11, 2020, 115129 - DOI

Venugopal A, Amit Agrawal, S. V. Prabhu. “Experimental investigations on flow over a circular cylinder placed in a circular pipe.“ Physics of Fluids (IF=4.6) 32, 9, 2020, 095122 - DOI

Mukesh K, Venugopal A. “Jet deflection by two side-by-side arranged hydrofoils pitching in a quiescent fluid.“ AIP Advances (IF=1.697) 10, 10, 2020, 105128 - DOI

Venugopal A, A Kodam, R Jha. “Bi-Directional Interferometric Flowmeter with Linear Sensitivity and Large Dynamic Range.“ IEEE Transactions on Instrumentation and Measurement (IF=5.332) 2020 - DOI

H Yadav, Venugopal A, SV PRABHU, A Agrawal. “Study on connecting tube dynamics for transient pressure measurement.“ Sadhana (IF=1.214) 45, 1, 2020 - DOI

Venugopal A, Jitendra Narayan Dash, Dhrubaraj Dora, Rajan Jha. “Vortex shedding optical Flowmeter based on Photonic Crystal Fiber.“ Scientific Reports (IF=4.996) 9, 1, 2019, 8313 - DOI

Liladhar J, Venugopal A. “Numerical Investigation on Heat Transfer and Flow Characteristics of a Confined Circular Cylinder with Slit.“ Journal of Thermal Science and Engineering Applications: ASME (IF=1.879) 2019 - DOI

Choudhary, Kushal Prasad, Venugopal A, Yogesh G. Bhumkar. “Numerical simulation of beam drift effect in ultrasonic flow-meter.“ Measurement (IF=5.6) 146, , 2019, 705-717 - DOI

Venugopal A, Amit Agrawal, S. V. Prabhu. “On the Linearity, Turndown Ratio and Shape of the Bluff Body for Vortex Flowmeter.“ Measurement (IF=5.6) 137, , 2019, 477-483 - DOI

Venugopal A, Amit Agrawal, S. V. Prabhu. “Vortex Dynamics of Trapezoidal bluff body placed inside a pipe.“ Journal of Turbulence (IF=2.31) 19, , 2018, 1-24 - DOI

Kapil M, Venugopal A, Amit Agrawal, S. V. Prabhu. “Improvement in the performance of the vortex flowmeter using contraction cone.“ Measurement (IF=5.6) 111, , 2017, 316-332 - DOI

Venugopal A, Amit Agrawal, S. V. Prabhu. “Investigations on turbulent flow around bluff bodies placed in a circular pipe.“ Journal of Fluids Engineering, ASME -2017 (IF=1.998) 139, 4, 2017, 041204 - DOI

Lavish O., Venugopal A, Amit Agrawal, S. V. Prabhu. “Vortex shedding characteristics of a cylinder with a parallel slit placed in a circular pipe.“ Journal of Visualization (IF=1.974) 2017, , , 1-13 - DOI

Venugopal A, Amit Agrawal, S. V. Prabhu. “Spanwise correlations in the wake of a circular cylinder and a normal plate Placed inside a pipe.“ Journal of Fluids and Structures (IF=3.482) 54, , 2015, 536-547 - DOI

Venugopal A, Amit Agrawal, S. V. Prabhu. “Note: A Vortex cross-correlation flowmeter with improved turndown ratio.“ Review of Scientific Instruments (IF=1.843) 85, 6, 2014, 066109 - DOI

Venugopal A, Amit Agrawal, S. V. Prabhu. “Performance evaluation of piezoelectric and differential pressure sensor for vortex flowmeters.“ Measurement (IF=5.6) 50, , 2014, 10-18 - DOI

Borkar, Kishor, Venugopal A, S. V. Prabhu. “Study on the design and performance of a Bi-directional cone flowmeter.“ Flow Measurement and Instrumentation (IF=2.42) 34, , 2013, 151-159 - DOI

Borkar, Kishor, Venugopal A, S. V. Prabhu. “Pressure measurement technique and installation effects on the performance of wafer cone design.“ Flow Measurement and Instrumentation (IF=2.42) 30, , 2013, 52-59 - DOI

Venugopal A, Amit Agrawal, S. V. Prabhu. “Frequency detection in vortex flowmeter for low Reynolds number using piezoelectric sensor and installation effects.“ Sensors and Actuators A: Physical (IF=4.291) 184, , 2012, 78-85 - DOI

Venugopal A, Amit Agrawal, S. V. Prabhu. “Review on vortex flowmeter-Designer perspective.“ Sensors and Actuators A: Physical (IF=4.291) 170, 1, 2011, 8-23 - DOI

Venugopal A, Amit Agrawal, S. V. Prabhu. “Influence of blockage and shape of a bluff body on the performance of vortex flowmeter with wall pressure measurement.“ Measurement (IF=5.6) 44, 5, 2011, 954-964 - DOI

Venugopal A, Amit Agrawal, S. V. Prabhu. “Influence of blockage and upstream disturbances on the performance of a vortex flowmeter with a trapezoidal bluff body.“ Measurement (IF=5.6) 43, 4, 2010, 603-616 - DOI