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22-01-2014 |
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ME |
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186980 |
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HINDUISM |
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1-2192002995 |
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22-01-2014 |
| Teaching | Research | Industry |
|---|---|---|
| 240 | 4 | 0 |
| Date | Title | Journal | DOI | Link |
|---|---|---|---|---|
| 15-11-2023 | Techno‑economic assessment of low‑grade geothermal heat‑driven ejector refrigeration cycle with a fash chamber and a booster compressor | Clean Technologies and Environmental Policy | DOI | View |
| 17-06-2023 | Optimum operation of an ejector-assisted combined flsh-binary geothermal cycle using R245fa-isopentane mixture-based secondary working flids | Applied thermal Engineering | DOI | View |
| 22-02-2022 | Optimum operation of a novel ejector assisted flsh steam cycle for better utilization of geothermal heat | Energy Conversion and Management | DOI | View |
| 23-11-2021 | Strategic integration of single flash geothermal steam cycle (SFGSC) and ejector assisted dualevaporator organic flash refrigeration cycle (EADEOFRC) for power and multi-temperature cooling: 2nd law performance study | International Journal of Green Energy | DOI | View |
| 23-02-2021 | Integration of CO2 power and refrigeration cycles with a desalination unit to recover geothermal heat in an oilfild | Applied Thermal Engineering | DOI | View |
| 05-07-2010 | A Study on Saline Water Intrusion and Fresh Water Recharge relevant to Coastal Environment | WSEAS TRANSACTIONS on FLUID MECHANICS | DOI | View |
| Date | Title | Conference | DOI | Link |
|---|---|---|---|---|
| 10-01-2026 | PREDICTION AND REDUCTION OF A BUILDING'S CARBON FOOTPRINT | International Conference on Mechanical Engineering | DOI | View |
| 06-01-2024 | INTEGRATION OF TRILATERAL FLASH CYCLE AND EJECTOR EXPANSION REFRIGERATION CYCLE FOR COOLING: A SCHEME TO READILY AVAILABLE RECOVER LOW-GRADE GEOTHERMAL HEAT | International Conference on Mechanical Engineering | DOI | View |
| 15-02-2020 | Analysis of low grade heat driven trilateral cycle with single stage impulse turbine | International Conference on Energy and Sustainable Development | DOI | View |
| Committee Name | Start Date | End Date |
|---|---|---|
| POSTER PRESENTATION-2026(ME) | 18-03-2026 | 14-05-2026 |
| DAC(ME) | 11-03-2026 | 03-06-2026 |
| SDG-7 BASED CLEANENERGY_COMPETITION-2026 | 24-02-2026 | 25-03-2026 |
| ACADEMIC AUDIT-2025 (ME) | 04-08-2025 | 11-09-2025 |
| Title | Patent Number | Patent Office | Date | Status | Country | Application No. | Abstract | Expiration Date |
|---|---|---|---|---|---|---|---|---|
| AI-Powered parameter optimizing hybrid laser and arc welding apparatus | 453307-001 | INDIA patent office Kolkata | 28-03-2025 | Published | India | 453307-001 | The AI-powered parameter optimizing Hybrid laser and arc welding apparatus integrates laser and arc welding technologies to enhance precision, efficiency, and adaptability across industrial applications. The apparatus is a compact, intelligent control unit equipped with an advanced machine learning framework that dynamically adjusts critical welding parameters, including power, speed, and material response. By leveraging real-time data acquisition, predictive modeling, and adaptive learning algorithms, the system ensures consistent weld quality, defect minimization, and process stability. The AI-powered optimization enables automatic compensation for variations in material thickness and environmental conditions, significantly improving joint strength, operational efficiency, and overall productivity. With applications spanning automotive manufacturing, aerospace engineering, and heavy industries, this technology represents a significant advancement in welding automation, reducing reliance on manual intervention while enhancing reliability, adaptability, and manufacturing throughput. | 28-06-2025 |
| ADVANCED GAS SHIELDING SYSTEM FOR IMPROVED WELD QUALITY AND REDUCED SPATTER | 202531014459 A | INDIA patent office Kolkata | 14-03-2025 | Published | India | 202531014459 A | The present invention introduces an advanced gas shielding system that addresses existing limitations in welding technology. By dynamically optimizing gas flow, improving shielding efficiency, and reducing spatter, this system enhances overall weld quality and process efficiency. The invention is expected to significantly impact industrial welding applications, providing superior performance and cost-effectiveness | 14-03-2045 |