Amol More

Mr. Amol More (b. 1984) is an Assistant Professor in Mechanical Engineering at AISSMS’s Institute of Information Technology, Pune, where he has served since 2010. With over sixteen years of teaching experience, alongside industrial, research, and administrative engagements, he has established himself as a dedicated educator and researcher in thermal sciences, mechanical systems, and engineering . More earned his B.E. in Mechanical Engineering from Shivaji University (2007), followed by an M.Tech in Thermal Engineering from the College of Engineering Pune (2009). He is currently pursuing a Ph.D. in Mechanical Engineering at Sunrise University, Alwar. His academic journey has been complemented by continuous professional development, including more than 40 Faculty Development Programs (FDPs), Short-Term Training Programs (STTPs), and NPTEL certifications in areas such as Industry 4.0, IoT, NBA accreditation, and engineering graphics.

EDUCATION

PhD in Mechanical Engineering 2021
M.-Tech in Heat Power Engineering from COEP, Autonomous Institute Pune 2009
BE Mechanical Engineering Shivaji University,May -2007

RESEARCH, TEACHING, or OTHER INTERESTS

Mechanical Engineering, Renewable Energy, Sustainability and the Environment, Education, Automotive Engineering

Scopus Publications

Evaluating Heat Transfer in Various Heat Sink Designs Under Controlled Experimental Conditions
Amol More, Sanjeev Kumar, Sandeep Kore
Lecture Notes in Networks and Systems, 2026
Advanced Optimization and Empirical Study of Heat Sink Efficiency for Superior Heat Transfer
Amol More, Sanjeev Kumar, Sandeep Kore
Ssrg International Journal of Mechanical Engineering, 2025
The present research explores the advanced methods to enhance the heat dissipation behaviour of a pin fin heat sink for electronic cooling. Commonly adopted designs do not provide sufficient cooling performance under high power load, and the interaction between fin structure/material/fans has not been well understood. In order to resolve this, five different heat sink models (Plate Fin Heat Sink – PFHS, Circular Pin Fin Heat Sink – CPFHS, Polar pin fin C condition gives the minimum value of thermal resistance and maximum values of Q for a change in heated mode) been performed with studies it is observed that PCMPFHS compared with remaining materials presents the lowest temperature rise. The results indicated that pin fin fins were more effective compared to plate heater sinks, with forced convection being the most favorable. Of the configurations tested, the perforated and PCM-augmented models featured promising scaling capacity for thermal performance. An optimization formulation was further created to trade thermal performance against cost and ease of manufacturing. These results can help guide the development of next-generation heat sinks for small, high-power electronics.
Enhanced Heat Transfer (HT) in Plate and Pin Fin Heat Sinks Using Phase Change Materials (PCM-PFHS) and Geometric Modifications
Amol More, Sanjeev Kumar, Sandeep Kore
Ssrg International Journal of Mechanical Engineering, 2025
This study investigates three new approaches to enhance heat dissipation in the plate (channel) and Round Pin Fin Heat Sinks (RPFHS) for cooling systems: rectangular heat absorbers filled with Paraffin Wax Phase Change Materials (PCM), a mix of alumina balls and PCM Paraffin Wax, and modifications in the shape using baffles. The main goal is to evaluate how effective these methods are in enhancing the thermal performance and heat dissipation abilities of PFHS in scenarios resembling practical applications, like cooling for electronics. To ensure the accuracy of comparison, the heat sinks were made of 1050 aluminum, and each configuration type had the same geometric dimensions; controlled heat flux stipulated working conditions. The core parameters such as thermal resistance, temperature distribution and overall heat dissipation efficiency were all assessed in the study. Measured thermal performance indicated improvement for all of the experimental techniques. For example now, the addition of flow baffles to the PFHS design improved heat transfer efficiency through flow turbulence, resulting in a 12% reduction in thermal resistance. The presence of alumina balls with PCM reduces thermal resistance by 18%, corroborating that the best thermal behavior occurs when paraffin wax combines with materials with the highest capacities for heat absorption. The closer to this that the contained PCM shows, the better heat transfer will be affected, as it is seen here with a 25% drop in resistance to heat transfer, all while maintaining a much more even temperature field. These results highlight the pivotal role PCM paraffin wax displays, particularly upon geometry reconfiguration, for an out-and-out positive thermal management outcome of heat sinks. Using embedded PCM paraffin wax with structural changes is a good prospect for the excellent thermal byte for working with thermal applications that require high efficiency and durable heat regulation. This study provides important insight into enhancing the designs of heat sinks where efficient heat removal is crucial, such as in electronics and thermal processing systems.
Investigation of Heat Sink Geometries and Fluid Flow Effects for Efficient Thermal Management in Electronics
Amol More, Sanjeev Kumar Kundu, Sandeep Kore
2025 IEEE International Conference on Electronics Computing and Communication Technologies Conecct 2025, 2025
Designing compact heat transfer systems for electronic thermal management is a challenge as it involves efficiently dissipating heat while maintaining manageable device size and weight. Heat sinks use high-conductivity metals to transfer heat to surrounding air or fluid and are an important passive cooling method. This study will give numerical and experimental techniques to maximize the efficiency of heat transmission in different heating systems. We analyze different types of heat sinks (HS), such as pin-fin heat sinks (PFHS), perforated copper beads, and phase change heat sinks. Analysis of the effects of various geometries and features on fluid flow and heat transfer (HT) is done through numerical simulations. The results demonstrate that heat sinks may effectively regulate heat flows with high densities. Our study shows that a well-designed heat sink can potentially improve performance by reducing thermal resistance by 25%. This research aids in progressing thermal management studies by offering insights on developing and optimizing heat sinks to increase heat transfer (HT) performance.

RECENT SCHOLAR PUBLICATIONS

Smart Dust Control: Vacuum and Blower Solutions for Safer Construction
SG Amol More
Journal of Recent Trends in Mechanics 11 (1), 19-30 , 2026
2026
Design and Fabrication of a Smart Automotive Air Conditioning System for Passenger Cars with Adaptive Thermal Control
A More
Engineering and Scientific International Journal (ESIJ) 13 (2), 35-40 , 2026
2026
Comparative Evaluation of Traditional and AI-Integrated Laptops Across Key Performance Dimensions
MRN Dr. Amol More
International Journal of Research Publication and Reviews Journal homepage … , 2026
2026
Evolution of Latch Systems: From Mechanical Devices to AI-Integrated Smart Security Solutions
SK Amol More
Journal of Advancement in Machines 11 (1), 24-32 , 2026
2026
Integrated Parcel Management System with ML-based Resource Analysis for Goods Transport
AJ More
Journal of Industrial Mechanics e-ISSN: 2582-1067 11 (1), 37-45 , 2026
2026
Design and Experimental Evaluation of a Smart Automotive Air Conditioning System with Adaptive Thermal Control for Passenger Vehicles
A More
Journal of Modern Thermodynamics in Mechanical System 8 (1), 1-10 , 2026
2026
Green Manufacturing: A Pathway to Sustainable Industrial Development and Environmental Efficiency
A More
Journal of Research in Mechanical Engineering and Applied Mechanics ISSN … , 2026
2026
Evaluating Heat Transfer in Various Heat Sink Designs Under Controlled Experimental Conditions
A More
ICT Systems and Sustainability. ICT4SD 2025. 1649, 287–298 , 2025
2025
Design and Development of a Mechanized Waste Cleaning System Using Sprocket-Chain Mechanism
A More
International Journal of Materials and Mechanical Structures Engineering 1 … , 2025
2025
An Idea of Smart Digital Voting Framework Integrating Encryption, Biometrics, and Real-time Result Computation
A More
International Journal of Machine Design and Technology Volume 1, Issue 2 … , 2025
2025
Evaluating Heat Transfer in Various Heat Sink Designs Under Controlled Experimental Conditions
A More
Lecture Notes in Networks and Systems, ICT Systems and Sustainability … , 2025
2025
Modified Sewing Machine for Disabled People - An IOT and Arduino-Based Approach: Review
SA Amol More,Pramod Musrif
International Journal of Scientific Research in Engineering and Management … , 2025
2025
Investigation of Heat Transfer Enhancement Techniques in Microchannel Heat Sinks
N Gedam, A More, M Hameeduddin, DNP Haqqani, M Mishra, S Babu, ...
Nanotechnology Perceptions 20 (6), 2663–2671 , 2025
2025
Citations: 1
“Smart Rainwater Collection Systems: A Path Toward Sustainable Water Resource Management”
A More
International Research Journal of Modernization in Engineering Technology … , 2025
2025
Advanced Optimization and Empirical Study of Heat Sink Efficiency for Superior Heat Transfer
A More
SSRG International Journal of Mechanical Engineering 12 (9), 78-90 , 2025
2025
"The Role of Artificial Intelligence and Internet of Things in Modern Water Purification Systems: Review"
KK Amol More
Journal of Information Technology and Sciences 11 (2), 41-49 , 2025
2025
Investigation of Heat Sink Geometries and Fluid Flow Effects for Efficient Thermal Management in Electronics
A More
2025 IEEE International Conference on Electronics, Computing and … , 2025
2025
Beyond Inventory: A Java-Based Barcode Scanning System for Real-Time Product Authentication and Fraud Detection
AB Amol More, Anushka Gaikwad, Sahil Ghate , Suraj Gharde, Om Chavan ...
Journal of Android and IOS Applications and Testing 10 (2), 10-19 , 2025
2025
Investigating the Impact of Heating Parameters on Base Temperature Profiles and Thermal Resistance in Macro Scale Plate-Fin Heat Sinks
SK Amol More,Sanjeev Kumar
International Journal of Recent Advances in Engineering and Technology 14 … , 2025
2025
Smart Home Water System: AI‑Enhanced ESP8266 IoT Platform for Faucet Automation, Leak Detection, and Purification
A More, S Mahale
Journal of Computer Based Parallel Programming 10 (2), 34-42 , 2025
2025

MOST CITED SCHOLAR PUBLICATIONS

Design of green IoT for sustainable smart cities and ecofriendly environment
GM Pramod, J Singh, A More, R Ashish Shankar
European Chemical Bulletin Journal 12 (6) , 2023
2023
Citations: 42
EXPERIMENTAL STUDY OF HIGH HEAT REMOVAL BY ALUMINUM PIN FIN HEAT SINK USING MULTI-JET AIR IMPINGEMENT
A. J. MORE
International Journal of Mechanical and Production Engineering Research and … , 2014
2014
Citations: 7
Experimental Investigation of Multi Jet Air Impingement on Circular Pin Fin Heat Sink for Electronic Cooling
M A.J, K S.S, NP Bhone, SS Gadadhe, PS Rathod
International Journal for Research in Applied Science & Engineering … , 2018
2018
Citations: 6
Study of Pulsating (Synthetic) Air Jet Heat Sink Cooling
DSSK Amol More
International Journal of Research and Analytical Reviews (IJRAR) www.ijrar … , 2019
2019
Citations: 4
Advancements in Heat Transfer Enhancement Techniques for Heat Sink and Related Design Methods: A Comprehensive Review
SK Amol More,Sanjeev Kumar
Tuijin Jishu/Journal of Propulsion Technology https://propulsiontechjournal … , 2024
2024
Citations: 3
Experimental Investigation On Pin fin Heat sink Using Multi jet Impingment
AJ More
Recent Advances and Challenges in Energy, 51-56 , 2012
2012
Citations: 3
Empowering Rural Women: Unleashing Potential for Prosperity in India
ALAN Amol More, Shraddha Joshi, Janhavi Parihar, Dipika Medankar, Niranjana ...
International Journal of Research in Academic World" 3 (4), 105-107 , 2024
2024
Citations: 2
"Affordable Home Automation System with Bluetooth Connectivity: Design, Implementation, and Android Integration"
TR Amol More,Tejas Patil
Journal of Emerging Technologies and Innovative Research https://www.jetir … , 2024
2024
Citations: 2
“HEAT TRANSFER ENHANCEMENT TECHNIQUES FOR HEAT SINK: A COMPREHENSIVE REVIEW”
SK Amol More,Sanjeev Kumar Kundu
International Journal of Advanced Technology in Engineering and Science 12 … , 2024
2024
Citations: 2
"Smart Parking Management System: A Web-Based Prototype
SD Amol More, Seema More, Sneha Gonjari, Zoha Attar, Ishwari Abuj, Simran ...
Journal of Web Development and Web Designing 9 (01), pp: (30-37) , 2024
2024
Citations: 2
“Study of Design and Fabrication of Automatic Light Mechanism of Switch for Domestic and Commercial Use”
A More
Mukt Shabd Journal 12 (05), 1709-1712 , 2023
2023
Citations: 2
“Utilization Of Waste Plastic for Usable goods”
A More
Mukt Shabd Journal 7 (05), 1648-1652 , 2023
2023
Citations: 2
The Study and Design of the Mechanisms Used to Deploy Solar Arrays Aboard a Small Satellite
A More
Journal of Xidian University 17 (6), 145-152 , 2023
2023
Citations: 2
DETAILED STUDY OF THE INTERNET OF THINGS IN EDUCATION
M Amol
Journal of Biomechanical Science and Engineering 1 (II), 433-439 , 2023
2023
Citations: 2
A Review: Advances in Heat sink Cooling Systems
AMOL MORE,Dr.S.S.Kore,S.S.Gadadhe
International Journal of Innovative Studies in Sciences and Engineering … , 2020
2020
Citations: 2
Experimental Analysis of Passive/Active Suspension System
S Gadadhe
2018
Citations: 2
Investigation of Heat Transfer Enhancement Techniques in Microchannel Heat Sinks
N Gedam, A More, M Hameeduddin, DNP Haqqani, M Mishra, S Babu, ...
Nanotechnology Perceptions 20 (6), 2663–2671 , 2025
2025
Citations: 1
Enhanced Heat Transfer (HT) in Plate and Pin Fin Heat Sinks Using Phase Change Materials (PCM-PFHS) and Geometric Modifications
SK Amol More, Sanjeev Kumar
SSRG International Journal of Mechanical Engineering 12 (1), 127-142 , 2025
2025
Citations: 1
Smart Dust Control: Vacuum and Blower Solutions for Safer Construction
SG Amol More
Journal of Recent Trends in Mechanics 11 (1), 19-30 , 2026
2026
Design and Fabrication of a Smart Automotive Air Conditioning System for Passenger Cars with Adaptive Thermal Control
A More
Engineering and Scientific International Journal (ESIJ) 13 (2), 35-40 , 2026
2026