Impacts of renewable energy resources on effectiveness of grid‐integrated systems: succinct review of current challenges and potential solution strategies

This study is aimed at a succinct review of practical impacts of grid integration of renewable energy systems on effectiveness of power networks, as well as often employed state‐of-the‐art solution strategies. The renewable energy resources focused on include solar energy, wind energy, biomass energy and geothermal energy, as well as renewable hydrogen/fuel cells, which, although not classified purely as renewable resources, are a famous energy carrier vital for future energy sustainability. Although several world energy outlooks have suggested that the renewable resources available worldwide are sufficient to satisfy global energy needs in multiples of thousands, the different challenges often associated with practical exploitation have made this assertion an illusion to date. Thus, more research efforts are required to synthesize the nature of these challenges as well as viable solution strategies, hence, the need for this review study. First, brief overviews are provided for each of the studied renewable energy sources. Next, challenges and solution strategies associated with each of them at generation phase are discussed, with reference to power grid integration. Thereafter, challenges and common solution strategies at the grid/electrical interface are discussed for each of the renewable resources. Finally, expert opinions are provided, comprising a number of aphorisms deducible from the review study, which reveal knowledge gaps in the field and potential roadmap for future research. In particular, these opinions include the essential roles that renewable hydrogen will play in future energy systems; the need for multi‐sectoral coupling, specifically by promoting electric vehicle usage and integration with renewable‐based power grids; the need for cheaper energy storage devices, attainable possibly by using abandoned electric vehicle batteries for electrical storage, and by further development of advanced thermal energy storage systems (overviews of state‐of‐the‐art thermal and electrochemical energy storage are also provided); amongst others

‘These People Have No Clue about Us, the Land, or How We Live!’: Second Generation Human Rights Along the Texas–Mexico Border

In this study, we wish to turn attention to how the international human rights framework, developed under the auspices of the United Nations in 1948, is being used by different communities, in particular, the Texas-Mexico border. We emphasize that while the articles contained in the Universal Declaration of Human Rights have, at times, served as a protective platform upon which activists have been able to build, these articles cannot responsibly be imposed without attending to and incorporating the voices of those on the ground. Using both qualitative and ethnographic methods, our objective is to amplify specific voices by analyzing how residents of the Texas Rio Grande Valley have produced a counter-narrative that conflicts with the narrative of security (e.g., “the border is out of control”) that the state is attempting to impose upon them. This community’s experience with the state has the potential to stimulate its members to shape the content of the Human Rights framework to better suit their specific needs. Drawing from a social constructionist approach, we privilege lived experience and people’s agency in the construction of second-generation human rights

‘These People Have No Clue about Us, the Land, or How We Live!’: Second Generation Human Rights Along the Texas–Mexico Border

In this study, we wish to turn attention to how the international human rights framework, developed under the auspices of the United Nations in 1948, is being used by different communities, in particular, the Texas-Mexico border. We emphasize that while the articles contained in the Universal Declaration of Human Rights have, at times, served as a protective platform upon which activists have been able to build, these articles cannot responsibly be imposed without attending to and incorporating the voices of those on the ground. Using both qualitative and ethnographic methods, our objective is to amplify specific voices by analyzing how residents of the Texas Rio Grande Valley have produced a counter-narrative that conflicts with the narrative of security (e.g., “the border is out of control”) that the state is attempting to impose upon them. This community’s experience with the state has the potential to stimulate its members to shape the content of the Human Rights framework to better suit their specific needs. Drawing from a social constructionist approach, we privilege lived experience and people’s agency in the construction of second-generation human rights

‘These People Have No Clue about Us, the Land, or How We Live!’: Second Generation Human Rights Along the Texas–Mexico Border

In this study, we wish to turn attention to how the international human rights framework, developed under the auspices of the United Nations in 1948, is being used by different communities, in particular, the Texas-Mexico border. We emphasize that while the articles contained in the Universal Declaration of Human Rights have, at times, served as a protective platform upon which activists have been able to build, these articles cannot responsibly be imposed without attending to and incorporating the voices of those on the ground. Using both qualitative and ethnographic methods, our objective is to amplify specific voices by analyzing how residents of the Texas Rio Grande Valley have produced a counter-narrative that conflicts with the narrative of security (e.g., “the border is out of control”) that the state is attempting to impose upon them. This community’s experience with the state has the potential to stimulate its members to shape the content of the Human Rights framework to better suit their specific needs. Drawing from a social constructionist approach, we privilege lived experience and people’s agency in the construction of second-generation human rights

Performance Assessment of Low-Temperature A-CAES (Adiabatic Compressed Air Energy Storage) Plants

The widespread diffusion of renewable energy sources calls for the development of high-capacity energy storage systems as the A-CAES (Adiabatic Compressed Air Energy Storage) systems. In this framework, low temperature (100°C–200°C) A-CAES (LT-ACAES) systems can assume a key role, avoiding some critical issues connected to the operation of high temperature ones. In this paper, two different LT-ACAES configurations are proposed. The two configurations are characterized by the same turbomachines and compressed air storage section, while differ in the TES section and its integration with the turbomachinery. In particular, the first configuration includes two separated cycles: the working fluid (air) cycle and the heat transfer fluid (HTF) cycle. Several heat exchangers connect the two cycles allowing to recover thermal energy from the compressors and to heat the compressed air at the turbine inlet. Two different HTFs were considered: air (case A) and thermal oil (case B). The second configuration is composed of only one cycle, where the operating fluid and the HTF are the same (air) and the TES section is composed of three different packed-bed thermal storage tanks (case C). The tanks directly recover the heat from the compressors and heat the air at each turbine inlet, avoiding the use of heat exchangers. The LT-ACAES systems were modelled and simulated using the ASPEN-Plus and the MATLAB-Simulink environments. The main aim of this study was the detailed analysis of the reciprocal influence between the turbomachinery and the TES system; furthermore, the performance evaluation of each plant was carried out assuming both on-design and off-design operating conditions. Finally, the different configurations were compared through the main performance parameters, such as the round-trip efficiency. A total power output of around 10 MW was set, leading to a TES tank volume ranging between 500 and 700 m3. The second configuration with three TES systems appears to be the most promising in terms of round-trip efficiency since the energy produced during the discharging phase is greater. In particular, the round-trip efficiency of the LT-ACAES ranges between 0.566 (case A) to 0.674 (case C). Although the second configuration assures the highest performance, the effect of operating at very high pressures inside the tanks should be carefully evaluated in terms of overall costs

Advantage of Double Cage Rotor over Single Cage Rotor Induction Motor

The simulation of double cage induction motor provides the base for the design of the squirrel cage induction motor to prevent desing error and mistakes in its construction and testing so as to obtain maximum efficiency. This paper presents the advantage of double cage rotor over the single cage rotor induction motor. This is achieved through the investigations on the Torque-speed and Stator current-speed characteristics generated through simulation by MATLAB for the purpose of illustration Keywords: Current versus speed characteristics, Double cage rotor, Induction motor, Single cage rotor, Stator current versus speed characteristics, Torque-speed characteristic

16.精子形成のホルモン支配(第669回千葉医学会例会・第38回千葉泌尿器科集談会)

Understanding the temporal and spatial variability in a crop yield is viewed as one of the key steps in the implementation of precision agriculture practices. Therefore, a study on a center pivot irrigated 23.5 ha field in Saudi Arabia was conducted to assess the variability in alfalfa yield using Landsat-8 imagery and a hay yield monitor data. In addition, the study was designed to also explore the potential of predicting the alfalfa yield using vegetation indices. A calibrated yield monitor mounted on a large rectangular hay baler was used to measure the actual alfalfa yield for four alfalfa harvests performed in the period from October 2013 to May 2014. A total of 18 Landsat-8 images, representing different crop growth stages, were used to derive different vegetation indices (VIs). Data from the yield monitor was used to generate yield maps, which illustrated a definite spatial variation in alfalfa yield across the experimental field for the four studied harvests as indicated by the high spatial correlation values (0.75 to 0.97) and the low P-values (4.7E-103 to 8.9E-27). The yield monitor-measured alfalfa actual yield was compared to the predicted yield form the Vis. Results of the study showed that there was a correlation between actual and predicted yield. The highest correlations were observed between actual yield and the predicted using NIR reflectance, SAVI and NDVI with maximum correlation coefficients of 0.69, 0.68 and 0.63, respectively

Exploring the Viability of Utilizing Treated Wastewater as a Sustainable Water Resource for Green Hydrogen Generation Using Solid Oxide Electrolysis Cells (SOECs)

In response to the European Union's initiative toward achieving carbon neutrality, the utilization of water electrolysis for hydrogen production has emerged as a promising avenue for decarbonizing current energy systems. Among the various approaches, Solid Oxide Electrolysis Cell (SOEC) presents an attractive solution, especially due to its potential to utilize impure water sources. This study focuses on modeling a SOEC supplied with four distinct streams of treated municipal wastewaters, using the Aspen Plus software. Through the simulation analysis, it was determined that two of the wastewater streams could be effectively evaporated and treated within the cell, without generating waste liquids containing excessive pollutant concentrations. Specifically, by evaporating 27% of the first current and 10% of the second, it was estimated that 26.2 kg/m(3) and 9.7 kg/m(3) of green hydrogen could be produced, respectively. Considering the EU's target for Italy is to have 5 GW of installed power capacity by 2030 and the mass flowrate of the analyzed wastewater streams, this hydrogen production could meet anywhere from 0.4% to 20% of Italy's projected electricity demand

Defining Configurable Virtual Reality Templates for End Users

This paper proposes a solution for supporting end users in configuring Virtual Reality environments by exploiting reusable templates created by experts. We identify the roles participating in the environment development and the means for delegating part of the behaviour definition to the end users. We focus in particular on enabling end users to define the environment behaviour. The solution exploits a taxonomy defining common virtual objects having high-level actions for specifying event-condition-Action rules readable as natural language sentences. End users exploit such actions to define the environment behaviour. We report on a proof-of-concept implementation of the proposed approach, on its validation through two different case studies (virtual shop and museum), and on evaluating the approach with expert users