Technology Reports of Kansai University

Technology Reports of Kansai University (ISSN: 04532198) is a monthly peer-reviewed and open-access international Journal. It was first built in 1959 and officially in 1975 till now by kansai university, japan. The journal covers all sort of engineering topic, mathematics and physics. Technology Reports of Kansai University (TRKU) was closed access journal until 2017. After that TRKU became open access journal. TRKU is a scopus indexed journal and directly run by faculty of engineering, kansai university.

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Submission Deadline

Volume - 63 , Issue 07
10 Jul 2021

Upcoming Publication

Volume - 63 , Issue 06
30 Jun 2021

Aim and Scope

Technology Reports of Kansai University (ISSN: 04532198) is a peer-reviewed journal. The journal covers all sort of engineering topic as well as mathematics and physics. the journal's scopes are in the following fields but not limited to:

Electrical Engineering and Telecommunication Section:

Electrical Engineering, Telecommunication Engineering, Electro-mechanical System Engineering, Biological Biosystem Engineering, Integrated Engineering, Electronic Engineering, Hardware-software co-design and interfacing, Semiconductor chip, Peripheral equipments, Nanotechnology, Advanced control theories and applications, Machine design and optimization , Turbines micro-turbines, FACTS devices , Insulation systems , Power quality , High voltage engineering, Electrical actuators , Energy optimization , Electric drives , Electrical machines, HVDC transmission, Power electronics.

Computer Science Section :

Software Engineering, Data Security , Computer Vision , Image Processing, Cryptography, Computer Networking, Database system and Management, Data mining, Big Data, Robotics , Parallel and distributed processing , Artificial Intelligence , Natural language processing , Neural Networking, Distributed Systems , Fuzzy logic, Advance programming, Machine learning, Internet & the Web, Information Technology , Computer architecture, Virtual vision and virtual simulations, Operating systems, Cryptosystems and data compression, Security and privacy, Algorithms, Sensors and ad-hoc networks, Graph theory, Pattern/image recognition, Neural networks.

Civil and architectural engineering :

Architectural Drawing, Architectural Style, Architectural Theory, Biomechanics, Building Materials, Coastal Engineering, Construction Engineering, Control Engineering, Earthquake Engineering, Environmental Engineering, Geotechnical Engineering, Materials Engineering, Municipal Or Urban Engineering, Organic Architecture, Sociology of Architecture, Structural Engineering, Surveying, Transportation Engineering.

Mechanical and Materials Engineering :

kinematics and dynamics of rigid bodies, theory of machines and mechanisms, vibration and balancing of machine parts, stability of mechanical systems, mechanics of continuum, strength of materials, fatigue of materials, hydromechanics, aerodynamics, thermodynamics, heat transfer, thermo fluids, nanofluids, energy systems, renewable and alternative energy, engine, fuels, nanomaterial, material synthesis and characterization, principles of the micro-macro transition, elastic behavior, plastic behavior, high-temperature creep, fatigue, fracture, metals, polymers, ceramics, intermetallics.

Chemical Engineering :

Chemical engineering fundamentals, Physical, Theoretical and Computational Chemistry, Chemical engineering educational challenges and development, Chemical reaction engineering, Chemical engineering equipment design and process design, Thermodynamics, Catalysis & reaction engineering, Particulate systems, Rheology, Multifase flows, Interfacial & colloidal phenomena, Transport phenomena in porous/granular media, Membranes and membrane science, Crystallization, distillation, absorption and extraction, Ionic liquids/electrolyte solutions.

Food Engineering :

Food science, Food engineering, Food microbiology, Food packaging, Food preservation, Food technology, Aseptic processing, Food fortification, Food rheology, Dietary supplement, Food safety, Food chemistry. Bulletin of National Institute of Health Sciences

Physics Section:

Astrophysics, Atomic and molecular physics, Biophysics, Chemical physics, Civil engineering, Cluster physics, Computational physics, Condensed matter, Cosmology, Device physics, Fluid dynamics, Geophysics, High energy particle physics, Laser, Mechanical engineering, Medical physics, Nanotechnology, Nonlinear science, Nuclear physics, Optics, Photonics, Plasma and fluid physics, Quantum physics, Robotics, Soft matter and polymers.

Mathematics Section:

Actuarial science, Algebra, Algebraic geometry, Analysis and advanced calculus, Approximation theory, Boundry layer theory, Calculus of variations, Combinatorics, Complex analysis, Continuum mechanics, Cryptography, Demography, Differential equations, Differential geometry, Dynamical systems, Econometrics, Fluid mechanics, Functional analysis, Game theory, General topology, Geometry, Graph theory, Group theory, Industrial mathematics, Information theory, Integral transforms and integral equations, Lie algebras, Logic, Magnetohydrodynamics, Mathematical analysis.

Latest Articles of

Technology Reports of Kansai University

Journal ID : TRKU-23-08-2020-11037
Total View : 321

Title : Machining Time Optimization in Surface Grinding

Abstract :

This work presents the results for determining the optimum exchanged wheel diameter when surface grinding stainless steel. To do that, an optimization problem with the target is the grinding time was conducted. Also, the impact of many input factors including the initial wheel diameter, the wheel life, the radial grinding wheel wear per dress and the total depth of dressing cut on the optimum replaced wheel diameter was evaluated. In addition, a regression model to predict the optimum replaced diameter was proposed

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Journal ID : TRKU-22-08-2020-11036
Total View : 356

Title : Application of TiO2-S Modified Clay Composite for Adsorption-Degradation of Methylene Blue

Abstract :

The preparation of clay-TiO2-S composite as adsorption-degradation material has been carried out. Clay-TiO2-S composite is obtained by mixing clay with TiO2 powder doped S for the pillarization method. Clay characterization was performed using SEM and FTIR. The characterization results showed that there were differences in the pore of the clay before activation and after activation. Activated clay designated that clay was a type of montmorillonite. The TiO2-S composite was analyzed using UV-Vis DRS which indicated a change in anatase TiO2 bandgap of 3.2 eV to 3.0 eV. The results of FTIR analysis on clay-TiO2-S composite specified a new peak that was different from the results of FTIR analysis of activated clay and indicated the presence of Ti-O adsorption bands and the strain of S-H, S-N, and S-O. Methylene blue adsorption was optimally achieved by clay adsorbents at 30 minutes contact time on 1.553 mg.g-1 with an adsorption efficiency of 86.41%. Optimum degradation of TiO2 was occured at 90 minutes contact time on 1.590 mg.g-1 with a degradation efficiency of 88.46%. The optimum adsorption-degradation of clay-TiO2-S composite (material mass 0.5 g) showed an adsorption power of 0.337 mg.g-1 with an adsorption efficiency of 93.87%, while the optimum degradation power is 0.341 mg.g-1 with a degradation efficiency of 94.94%. Clay-TiO2-S composite showed a great potential with a adsorption-degradation working system in the treatment of environmentally friendly textile waste in the future

Full article