Linda Joel
@srmist.edu.in
Assistant Professor , Department of Mathematics
SRM Institute of Science and Technology, Ramapuram, Chennai, India
RESEARCH INTERESTS
Reliability
6
Scopus Publications
Scopus Publications
- Investigation of hydrogen peroxide and ethanol blends as sustainable energy for gasoline engine applications
S. Padmanabhan, Linda Joel, J. Mariyappan, and S. Premnath
Springer Science and Business Media LLC - IPH<sup>2</sup>O: Island Parallel-Harris Hawks Optimizer-Based CLSTM for Stock Price Movement Prediction
Linda Joel, S. Parthasarathy, P. Venkatesan, and S. Nandhini
Springer Science and Business Media LLC - Investigation and Optimization of Process Parameters of Abrasive Water Jet Cutting on C360 Brass Alloy through Design of Experiments
C. Joel, Linda Joel, and P. Athi Sankar
MAFTREE
Many scientists concentrate on features of water jet cutting by researching various input parameters, abrasive mesh sizes to improve improved processing conditions without the expense. In this work, the treatment of abrasive water jet should be planned to ensure minimal surface roughness and maximum substrate removal. C360 brass alloy is considered to optimize the parameters for cutting including the abrasive feed, stand-off distance and nozzle speeds via the design of experiments supported with response surface methodology. - Numerical Investigation on Temperature Distribution of Triangular and Rectangular Shaped Aluminum and Copper Fins
S. Padmanabhan, C. Joel, Linda Joel, Obulareddy Yuvatejeswar Reddy, K. G. D. Sri Harsha, and S. Ganesan
Springer Nature Singapore - Evaluation of Waste Plastic Pyrolysis Oil Performance with Diethyl Ether Additive on Insulated Piston Diesel Engine
S. Padmanabhan, C. Joel, Linda Joel, Obulareddy Yuvatejeswar Reddy, K.G.D. Sri Harsha, and S. Ganesan
Technoscience Publications
Considering the amount of waste plastics has risen significantly, energy may be extracted from it. Not only is it possible to dispose of waste plastics by converting them to fuel, but it is also possible to extract energy from them. Our research is motivated by the prospect of using waste plastics as a source of energy through waste plastic pyrolysis oil (WPPO). The innovation of this research is that it will assess the efficiency of plastic pyrolysis oil derived from Low-Density Polyethylene (LDPE) on a Thermal Barrier Coated (TBC) piston engine. The incremental ratio of WPPO to pure diesel with the addition of diethyl ether (DEE) was determined and its output and exhaust emission standards were evaluated using a direct injection single cylinder low heat rejection diesel engine. The results for the WPPO blends were promising as with TBCW20DEE10 demonstrating a 5 to 15% increase in carbon monoxide under different load conditions. TBCW20DEE10 confirmed a greater reduction of hydrocarbons varying from 5 to 12 %. At half load condition, TBCW20DEE10 emits approximately 3.5 % less unit of smoke. - Parametric optimization of abrasive water jet machining of C360 brass using MOTLBO
C. Joel, Linda Joel, S. Muthukumaran, and P. Matilda Shanthini
Elsevier BV
Abstract Any engineering materials, machining plays a vital role in producing required shapes and sizes. For a better machinability characteristic, materials property is modified and used accordingly. For achieving effective machining or cutting of any materials, a non-conventional process Abrasive Water Jet (AWJ) technique is used most widely in the current scenario because of its superior machinability. To achieve improved product consistency, increased profitability and increased economic performance, it is important to define the optimal abrasive water jet machining parameters. In the optimization of processes, it makes sense to use economic performance and productivity rate as objectives. Single-objective optimization is a successful approach to accomplish the output goal, but multi-objective optimization is the best method. In this paper, multi-objective optimization of abrasive water jet cutting c360 brass is carried out with to optimize three conflicting objectives of minimizing surface roughness and maximizing material removal rate and hardness. In this study, optimization of C360 brass is solved using Multi-Objective Teaching Learning Based Optimization (MOTLBO).