Optimal thermochemical material selection for a hybrid thermal energy storage system for low temperature applications using multi criteria optimization technique

Kumar, Binod; Varghese, James; Jacob, Josephkutty

doi:10.1016/j.mset.2022.10.005

Cited by 5 publications

(4 citation statements)

References 48 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In chemical transformation, energy is stored in the chemical connections between the atoms, which produce molecules and contains the energy related with the orbital states of electrons. This type of energy storage is applied more in the literature as presented in [50,51], a techno-economic investigation has been realized using optimization algorithms to response to the objectives demanded for these studies including PV power plant, material system and thermochemical energy storage. Each technology has its own characteristics and should be compared according to the desired use.…”

Section: Thermochemical Energy Storagementioning

confidence: 99%

Bir İnceleme: Farklı Teknolojilerin Kullanımı ile Elektrik Enerjisi Depolama Sistemi Bağlantılı Hibrit Güç Sistemleri

SAİB,

BAYINDIR,

VADİ

2023

Journal of Polytechnic

View full text Add to dashboard Cite

Energy storage system is becoming crucial in the electric power system. It can response to economic, environmental, geopolitical and technological considerations. Energy storage system has a great role to covering energy for power electric system as renewable energy source, improves energy efficiency and promotes the integration of variable renewable energies, brings security and flexibility to networks, control and regulation. Several studies have been focused on different energy storage technologies connected to various hybrid energy systems to supply power to the grid /load. Almost of these recent papers have been mentioned the performance and the utility of storage system in term of management, control, cost, lifetime. For this reason, an overview is offered in this paper including hybrid energy system and using various energy storage technologies to generate electric power in the aim to clarify the use of diverse storage technologies from several sides as energy management strategy, control and optimization problems. A comparative study is made to demonstrate more the analysis of this paper.

show abstract

Section: Thermochemical Energy Storagementioning

confidence: 99%

Bir İnceleme: Farklı Teknolojilerin Kullanımı ile Elektrik Enerjisi Depolama Sistemi Bağlantılı Hibrit Güç Sistemleri

SAİB,

BAYINDIR,

VADİ

2023

Journal of Polytechnic

View full text Add to dashboard Cite

show abstract

“…An example was solved to illustrate the effectiveness and feasibility of the suggested model to the material selection for an impellor and AISI 4340 was found to be the best material alternative based on the given priorities of the criteria. Kumar et al (2022) used MCDM techniques to select the optimum thermochemical material from the alternatives to be used for low temperature energy storage. The best thermochemical material was selected using different MCDM techniques like simple additive method (SAM), weighted product model, TOPSIS, Evaluation based on Distance from Average Solution, Multi-Objective Optimization on The Basis of Ratio Analysis, PROMETHEE, and VIKOR.…”

Section: Introductionmentioning

confidence: 99%

Material selection for sintered pulley in automobile: An integrated CRITIC-MARCOS model

Ranjan,

Rajak,

Chatterjee

2023

Rep. Mech. Eng.

View full text Add to dashboard Cite

Material selection plays a pivotal role in engineering and design, profoundly influencing product performance, cost, and sustainability. Traditional approaches to material selection typically involve an intricate interplay of multiple criteria, encompassing mechanical properties, environmental impact, cost, and availability. To grapple with this complexity, multi-criteria decision-making (MCDM) methods have risen to prominence as systematic frameworks for facilitating well-informed material selection decisions. MCDM methods offer a structured approach to evaluating and ranking materials based on a set of criteria, thereby empowering engineers and designers to make informed choices. In this paper, Measurement of Alternatives and Ranking According to Compromise Solution (MARCOS) method has been employed to determine the most suitable material for sintered pulleys used in automobiles. CRiteria Importance Through Intercriteria Correlation (CRITIC) method is applied to assign criteria weights. The analysis reveals that sintered hardened steel emerges as the best choice for sintered pulleys in automotive applications. To validate the outcomes obtained from the proposed method, a performance analysis has been conducted, comparing the results with those generated by other well-established MCDM methods. Additionally, a sensitivity analysis has been carried out using Spearman rank correlation coefficient.

show abstract

“…To optimize the width of the bead, penetration depth, and microhardness of the laser welded joints of titanium Ti6AL4V sheets, Aravind et al employed the VIKOR method and veri ed it with experimental results [32]. Also, the VIKOR optimization is adopted for the comprehensive analysis and evaluation in di erent elds such as crashworthiness performance in trains [33], electrical discharge machining process parameter optimization [34], material selection for thermal energy storage systems [35], ecological security of water [36] and selection of vaccine for COVID-19 [37]. Di erent optimization techniques were performed in FSW in the past.…”

Section: Introductionmentioning

confidence: 99%

Multi response optimization of friction stir welding in air and water by analytic hierachy process and VIKOR method

Meikeerthy

Ethiraj

2023

Scientia Iranica

View full text Add to dashboard Cite

Friction Stir Welding (FSW) of titanium sheets was carried out under air and water environment, and the tensile properties of the joints made were measured. The tool rotational speed and tool traversing speed, which signi cantly in uence the tensile properties of the welded joints, were considered as input process parameters. This work deals with the application of the analytic hierarchy process to calculate the weights of the relative importance of the output responses using a pairwise comparison of responses and checks for the consistency and acceptability of the assumed comparison. Also, the Vlsekriterijumska Optimizacija I Kompromisno Resenje (VIKOR) optimization technique, a multi-response multi-criterion method, was used to determine the optimum process parameters. From the VIKOR optimization method, it is observed that the higher tool rotational speed and lower tool traversing speed are the optimum process parameters in both conventional and underwater FSW. The results from the experimental measurements and the study of microstructure support the results obtained from the VIKOR optimization method.

show abstract

Optimal thermochemical material selection for a hybrid thermal energy storage system for low temperature applications using multi criteria optimization technique

Cited by 5 publications

References 48 publications

Bir İnceleme: Farklı Teknolojilerin Kullanımı ile Elektrik Enerjisi Depolama Sistemi Bağlantılı Hibrit Güç Sistemleri

Bir İnceleme: Farklı Teknolojilerin Kullanımı ile Elektrik Enerjisi Depolama Sistemi Bağlantılı Hibrit Güç Sistemleri

Material selection for sintered pulley in automobile: An integrated CRITIC-MARCOS model

Multi response optimization of friction stir welding in air and water by analytic hierachy process and VIKOR method

Contact Info

Product

Resources

About