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.
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:
Anthocyanin (Acn) is one of the secondary metabolites of Clitoria ternatea flower (Ctf) with many health maintenance and therapeutic benefits. Acn acts as anti-inflammation and anti-proliferative of breast cancer cells in vivo. Ct blooms daily for just one day. We carried out this study to analyze the feasibility of Ctf as the acn resource beside the famous blackberry. Its maceration in 70% ethanol divided into two groups according to the temperature of evaporation, which are 40oC and 60oC, respectively. We measured the total acn contents (TAC) with the spectrophotometer at 230-1000 nm wavelength. The average of TAC in each group was 73.15 + 8.66 mg and 46.07+1.54 mg/100 g, respectively. The data showed that anthocyanins better produced at a lower temperature, with less energy consumption. The main peaks in the 1stgroup profile were at 230, 268, 578, and 625 nm, while in the other, they were at 230, 267, 568, and 622 nm. The profiles show considerable absorbance values of their anthocyanins with health benefits such as blackberry. Ctf is a potential source of anthocyanins for our daily food
The velocity at the toe of a spillway is a major variable when designing a stilling basin. Reducing this velocity leads to reduce the size of the basin as well as the required appurtenances which needs for dissipating the surplus kinetic energy of the flow. If the spillway chute is able to dissipate more kinetic energy, then the resulting flow velocity at the toe of spillway will be reduced. Typically, stepped spillway is able to dissipate more kinetic energy than that of a smooth surface. In the present study, the typical uniform shape of the steps has been modified to a labyrinth shape. It is logical to expect that the labyrinth shape will lead to dissipate more kinetic energy. This impression comes through creating the more regions of circulation and turbulence along the lateral sides of each step in addition of those occurs towards the streamwise. This action is also can reduce the jet velocities near the surfaces, thus minimizing cavitation. At the same time the increasing in circulation regions will maximize the opportunity for air entrainment which also helps to dissipate more kinetic energy. The undertaken physical models were consisted of three labyrinth stepped spillways with magnification ratios (width of labyrinth to width of conventional step) WL/W are 1.1, 1.2, and 1.3 as well as testing a conventional stepped spillway (WL/W=1). Two empirical forms of coefficient are proposed, one for labyrinth shape stepped spillway denoted KL and another for conventional stepped spillway denoted KS. Once the value of the coefficient is known the actual flow velocity at the toe of a stepped spillway can easily computed without having to resort to measurements in site. It is concluded that the spillway chute coefficient is directly proportional to the labyrinth ratio and its value decreases as this ratio increases
In the next-generation computing, the role of cloud, internet, and smart devices will be capacious. Nowadays we all are familiar with the word smart. This word is used a number of times in our daily life. The Internet of Things (IoT) will produce remarkable different kinds of information from different resources. It can store and process big data in the cloud. The fogging acts as an interface between cloud and IoT. The IoT nodes are also known as fog nodes, these nodes are able to access anywhere within the range of the network. The blockchain is a novel approach to record the transactions in a sequence securely. Developing new blockchains based integrated framework in the architecture of the IoT is one of the emerging approaches to solving the issue of communication security among the IoT public nodes. This research explores a novel approach to integrate blockchain technology with the fog and IoT networks and provides communication security to the internet of smart devices. The framework is tested and implemented in the IoT network. The results are found positive
The first purpose of this study is to assess the influence of cutting mode parameters on surface roughness and tool wear. The second purpose of this study is to build a relationship between surface roughness and tool wear. The cutting parameters mentioned in this study include the cutting speed, the feed rate and the depth of cut. The experimental material used in this study is steel C45. The cutting tool used is the PVD-coated face milling cutter. Experiment with 15 experimental points according to the Box-Behnken type experiment plan when changing the value of the cutting parameters. Analysis of test results has determined the influence of cutting parameters and their interaction on surface roughness and tool wear. The relationship between surface roughness and cutting parameters, the relationship between tool wear and cutting parameters and the relationship between surface roughness and tool wear are also established in this study. These relationships are the basis for defining cutting parameters to ensure that the surface roughness meets the specific requirement, the tool wear is small, and are the basis for determining when to replace (re-sharpen) the tool according to the specific surface roughness requirements
This work presents a comprehensive study of the dynamic simulation and analysis of synchronous motor with field excitation. The dynamic model of the synchronous motor with damper windings was derived by the equations of the coupled stator and rotor circuits together with the mechanical equations of motion of the rotor. The Park’s Transformation approach was employed with the reference frame fixed in the rotor. The mathematical model of the motor was examined under two loading conditions: step and ramp loading. The excitation voltage was constant at 50V for both conditions. The simulation was run for 6 seconds; the motor parameters were plotted against time. At 4 seconds, a step load of 150Nm and ramp load starting from 100Nm was applied under both loading conditions. The performances of the synchronous motor were observed during the starting, steady state and ramp loading conditions of the motor. At no load motor attains steady state at 3 seconds with overshoots at startup, at loading conditions the motor showed quick response in damping out transients due to sudden load input. The motor pulled out of synchronism at maximum torque of 210Nm under ramp conditions. It was observed that field excitation varied proportionally to pullout torque and load current. Simulations were carried out using Embedded MATLAB/Simulink tool box in MATLAB software
