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6
Research Project

Parabolic Trough solar collector

Abstract This project aims to revolutionize the design and optimization of multi-stage parabolic trough solar collectors (PTCs) to address the limitations of conventional PTC systems, such as inefficiency and high costs for home applications. The research focuses on developing a novel design that integrates multiple stages of heat absorption and transfer mechanisms, leveraging cutting-edge
5
Research Project

Solar energy systems for heat and power generation

Abstract The project focuses on a multidisciplinary approach aimed at evaluating the feasibility, cost-effectiveness, and sustainability of integrating solar thermal technologies into industrial and power applications. This research topic seeks to address the growing demand for sustainable energy solutions in industrial sectors while mitigating the environmental impact associated with conventional
4
Research Project

Flapping Micro Air Vehicle: Numerical Analysis

Abstract Due to the intricate aerodynamics of flapping micro air vehicles (FMAVs), numerical analysis plays a crucial role. These simulations predict the aerodynamics performance before building prototypes, saving valuable time and resources. By analysing the flapping wing's interaction with air, numerical analysis helps engineers optimize FMAV designs for specific tasks like search and rescue or
3
Research Project

Pharmaceuticals Wastewater Treatment

Abstract This wastewater treatment project focuses on removing pharmaceutical compounds, such as anti-inflammatory drugs and antibiotics, from water bodies using agricultural waste materials and membrane technology. Bagasse and coffee waste are evaluated as sustainable adsorbents due to their high adsorption capacities. Membrane filtration processes, including ultrafiltration and nanofiltration
2
Research Project

Multi-Stage Low-Cost Treatment of Dyes and Paints Wastewater for Reuse: A Comprehensive Approach

Abstract This project proposes a multi-stage treatment approach to effectively treat dyes and paints wastewater from industries, involving coagulation, adsorption, and filtration. The goal is to mitigate environmental pollution, conserve water resources, and promote sustainable industrial practices. The comprehensive treatment method offers a cost-effective solution that can be implemented across
1
Research Project

Study of Deformations and failure of materials using digital image processing ANd correlation

Abstract Digital image correlation (DIC) is a non-contact optical technique used to measure displacement and strain of materials under loading. It utilizes a speckle pattern on the specimen to track deformation and calculate strain, offering a cost-effective alternative to strain gauges. Both 2D and 3D DIC setups are employed for deformation measurement, crack detection, and crack density
5555
Research Project

Develop and study the properties of a concrete mixture to accommodate tire recycling

Abstract The objective of this project is to study the effect of using waste in concrete mixes. The main type of waste used in this project is recycled fine rubber as a replacement of fine aggregate. Concrete molds are prepared and used to make concrete elements including beams, cubes, and cylinders. Various waste percentages are examined; and the effect of the concrete mix proportions is analysed
1000
Research Project

Developing high strength Al-Zn-Mg alloys by thermomechanical treatments

Abstract For the first time, the formation and impact of (Al, Zn)3Zr precipitates in Al-Zn-Mg-Cu alloys post-heat treatment was detailed, offering new insights into mechanical property enhancement through these discoveries. In addition, research introduces grain boundary deposition engineering as a novel method to develop aluminium alloys with specific precipitate types and mechanical properties
888
Research Project

High-Entropy Alloy Development

Abstract We reported the creation of novel high-entropy alloys, characterized by its lightweight nature and good mechanical properties, this is through compositional design and thermomechanical treatment marking a significant advancement for the automotive and aerospace industries. Partners University of Science and Technology Beijing, Oak Rideg National Laboratories
969
Research Project

Harnessing Coffee Waste for Green Corrosion Prevention and Circular Economy

Abstract The project focuses on reusing coffee waste to create a sustainable solution for corrosion prevention. Through advanced extraction methods, we harness the natural properties of coffee waste to develop a green corrosion inhibitor, offering a renewable and eco-friendly alternative for industries worldwide. By transforming coffee waste into a valuable resource, we aim to reduce environmental