Analysis of MMIC arrays for use in the ACTS Aero Experiment

The Aero Experiment is designed to demonstrate communication from an aircraft to an Earth terminal via the ACTS. This paper describes the link budget and antenna requirements for a 4.8 kbps full-duplex voice link at Ka-Band frequencies. Three arrays, one transmit array developed by TI and two receive arrays developed by GE and Boeing, were analyzed. The predicted performance characteristics of these arrays are presented and discussed in the paper

Studi Penurunan Cod Dan Warna Dengan Teknologi Plasma Pada Limbah Cair Industri Tekstil Dengan Variasi Tegangan Dan Banyaknya Sirkulasi

The observation that has been done was about wastewater treatment from the textile industry using plasma technology. This study was aimed to determine the effect of the decreasing inthe concentration of COD and color in textile industry wastewater. Plasma reactor that used was non-contact electrode system. Activeelectrodespiral that made of copperwire,while the semicircleofaluminumsheet electrodeasthe passiveelectrode. The dielectric material thatused was a pyrex. The power generationusing AC voltage of 9-11kV and a frequency of 50Hz. Circulation that was done1-7timesof circulation. The initialwaste has been given pre-treatment aeration and thenthe results of pre-treatment aeration were used as the influent wastewater to be treated by plasma technology.The results showed that maximum COD removal efficiencywas about65%, while the color was about 67%. The concentration of COD and the colorconcentrationdecreasedwith the increasing voltage applied and the largecirculation that has been done. This is suggeststhat themagnitude of the voltageandthe amount ofcirculation affectedon the decreasing of the concentrationof COD and the color

Electrochemical study of different membrane materials for the fabrication of stable, reproducible and reusable reference electrode

© 2020 Fabrication of stable, reproducible and reusable reference electrodes for low energy and high-temperature steam splitting is of great interest for hydrogen fuel production without anthropogenic carbon dioxide (CO2) emission. This study has been conducted for the detection of suitable material for the fabrication of novel reference electrode. In the present scenario, this research is designed to fabricate a novel nickel reference electrode by using operating conditions of eutectic molten hydroxide (NaOH-KOH, 49–51 mol%) at temperature 300 °C in an ion-conducting membrane of alumina and mullite tube. Afterwards, the designed nickel reference electrode has been examined for its reusability and stability by using electrochemical technique and cyclic voltammetry. Five scans of cyclic voltammetry are performed for both membrane fabricated reference electrode. A slight positive shift in oxidation peaks is observed for mullite membrane electrode (64 mV from scan 1 to 5). The stability measurements are noted by changing the scan rate between 50 and 150 mV s−1. Furthermore, the results show that the Ni/Ni(OH)2 reference electrode covered with a mullite membrane is stable and reusable at 300 °C temperature without any deterioration. The stability and reusability of prepared nickel reference electrode covered by mullite tube in the eutectic molten hydroxide were up to 9 days to carry out an electrochemical investigation, while for alumina tube reference electrode the stability and reliability were up to 3 days. The internal electrolytic material and ionic conductance can play an important role for future studies with this reference electrode along with optimisation of temperature and scan rate parameters

Sharing your assets? A holistic review of the sharing economy

Even though academics and practitioners extensively apply the notion of the sharing economy (SE), the conceptualization and the literature construction remained disjointed and dispersed due to the lack of a rigorous attempt to understand the core concept of the SE. This concept is multidimensional, which makes its investigation essential for practitioners and academics. Based on a 15-year data set collected from the Web of Science database, our paper seeks to provide a pervasive science plot of the intellectual structure of the SE field. A bibliometric review method was used by studying documents published from 2005 to 2020, using the VOSviewer, Bibexcel, SPSS, and GunnMap2 software. Providing an overview of articles, authors, the most influential journals, and themes of research, we contribute to the literature on the SE by identifying and proposing six research groups in MDS analysis, six research clusters in HCA analysis, and future study directions. Eventually, the research acknowledges the theoretical contribution, the limits of the present study, and recommends further study directions

Oscillatory Stability Prediction Using PSO Based Synchronizing and Damping Torque Coefficients

This paper presents the assessment of stability domains for the angle stability condition of the power system using Particle Swarm Optimization (PSO) technique. An efficient optimization method using PSO for synchronizing torque coefficients Ks and damping torque coefficients Kd to identify the angle stability condition on multi-machine system. In order to accelerate the determination of angle stability, PSO is proposed to be implemented in this study. The application of the proposed algorithm has been justified as the most accurate with lower computation time as compared to other optimization techniques such as Evolutionary Programming (EP) and Artificial Immune System (AIS). Validation with respect to eigenvalues determination, Least Square (LS) method and minimum damping ratio ξmin confirmed that the proposed technique is feasible to solve the angle stability problems