Improvement of methods of evaluation of investment projects in the context of import substitution

Due to the imposition of sanctions, based more on geopolitical interests, there were additional essential restrictions on sources of external credits, use of import raw materials and technologies, possibilities of attraction to work of the qualified employees which do not have the Russian nationality, participation in the international technology and scientific projects. At similar restrictions of different resources investment decisions are made extremely carefully, and especially careful and reasonable efficiency evaluation of the investments is required. Traditionally used techniques of efficiency evaluation of investment projects not fully consider strategic interests of owners of industrial enterprises and investors. Decrease in risks requires higher quality of project evaluation. In this work the method of multi-level consistently complex integral assessment of investment projects on an indicator of the integral indicator of their efficiency implementing consecutive selection of investment projects from a portfolio on essential indicators of commercial effectiveness, efficiency of production business activities, a financial state and productivity of activity is provided. The developed method of a complex assessment of investment projects is implemented for practical application by the software product allowing to create on the basis of economic-mathematical modeling specific recommendations in economic practice of industrial enterprises during the developing and implementation of investment strategies. The conclusion that for the Russian economy in the conditions of import substitution accounting of all set of interests of investors and owners of the enterprises provides development and implementation of reasonable investment strategies is drawn

An application of eye movement parameters collected from mass market devices for the estimation of a text comprehension

The growing interest in evaluating the reader's comprehension leads to the search for new methods that allow such estimation in real-time (or pseudo-real-time). This can be used for more effective educational processes and to adopt textual content for various purposes. The present study used the Oken Reader eye-tracking application (60 Hz) for mass-market devices to assess reading comprehension processes. Twenty-three (23) respondents aged between 19 and 31 (mean = 24. 5, SE = 1. 4, 65% female) participated in the study. The mean, mu, and sigma parameters differed significantly depending on the level of text comprehension. This result indicates the possibility of using mass-market devices with eye-tracking technology to assess comprehension in reading. Furthermore, the study's results confirm the possibility of searching the correlations between physiological indicators such as eye movements and comprehension

High catalytic activity and pollutants resistivity using Fe-AAPyr cathode catalyst for microbial fuel cell application

© 2015, Macmillan Publishers Limited. All rights reserved. For the first time, a new generation of innovative non-platinum group metal catalysts based on iron and aminoantipyrine as precursor (Fe-AAPyr) has been utilized in a membraneless single-chamber microbial fuel cell (SCMFC) running on wastewater. Fe-AAPyr was used as an oxygen reduction catalyst in a passive gas-diffusion cathode and implemented in SCMFC design. This catalyst demonstrated better performance than platinum (Pt) during screening in "clean" conditions (PBS), and no degradation in performance during the operation in wastewater. The maximum power density generated by the SCMFC with Fe-AAPyr was 167±6μWcm-2 and remained stable over 16 days, while SCMFC with Pt decreased to 113±4μWcm-2 by day 13, achieving similar values of an activated carbon based cathode. The presence of S2- and SO42- showed insignificant decrease of ORR activity for the Fe-AAPyr. The reported results clearly demonstrate that Fe-AAPyr can be utilized in MFCs under the harsh conditions of wastewater

NMR Studies of Lithium Diffusion in Li3(NH2)2I over Wide Range of Li+ Jump Rates

We have studied the Li diffusion in the complex hydride Li3(NH2)2I which appears to exhibit fast Li ion conduction. To get a detailed insight into the Li motion, we have applied 7Li nuclear magnetic resonance spectroscopy methods, such as spin-lattice relaxation in the laboratory and rotating frames of reference, as well as spin-alignment echo. This combined approach allows us to probe Li jump rates over the wide dynamic range (~102–109 s−1). The spin-lattice relaxation data in the range 210–410 K can be interpreted in terms of a thermally-activated Li jump process with a certain distribution of activation energies. However, the low-temperature spin-alignment echo decays at T≤200 K suggest the presence of another Li jump process with the very low effective activation energy. © 2017 Walter de Gruyter GmbH, Berlin/Boston 2017

Dynamics of Economic Efficiency of Water Resources Use in the Industry of the Sverdlovsk Region

В статье исследуется состояние производства и промышленное водопотребление Свердловской области на настоящий момент. По статистическим данным производится расчёт экономической эффективности использования водных ресурсов в промышленности Свердловской области. Дана оценка динамической составляющей эффективности.The article investigates the state of production and industrial water consumption in the Sverdlovsk Oblast at the moment. Using statistical data, the economic efficiency of water resources in industry in the Sverdlovsk region is calculated. The dynamic component of efficiency is estimated

Promoting Persistent Superionic Conductivity in Sodium Monocarba-closo-dodecaborate NaCB11H12 via Confinement within Nanoporous Silica

Superionic phases of bulk anhydrous salts based on large cluster-like polyhedral (carba)borate anions are generally stable only well above room temperature, rendering them unsuitable as solid-state electrolytes in energy-storage devices that typically operate at close to room temperature. To unlock their technological potential, strategies are needed to stabilize these superionic properties down to subambient temperatures. One such strategy involves altering the bulk properties by confinement within nanoporous insulators. In the current study, the unique structural and ion dynamical properties of an exemplary salt, NaCB11H12, nanodispersed within porous, high-surface-area silica via salt-solution infiltration were studied by differential scanning calorimetry, X-ray powder diffraction, neutron vibrational spectroscopy, nuclear magnetic resonance, quasielastic neutron scattering, and impedance spectroscopy. Combined results hint at the formation of a nanoconfined phase that is reminiscent of the high-temperature superionic phase of bulk NaCB11H12, with dynamically disordered CB11H12-anions exhibiting liquid-like reorientational mobilities. However, in contrast to this high-temperature bulk phase, the nanoconfined NaCB11H12 phase with rotationally fluid anions persists down to cryogenic temperatures. Moreover, the high anion mobilities promoted fast-cation diffusion, yielding Na+ superionic conductivities of similar to 0.3 mS/cm at room temperature, with higher values likely attainable via future optimization. It is expected that this successful strategy for conductivity enhancement could be applied as well to other related polyhedral (carba)borate-based salts. Thus, these results present a new route to effectively utilize these types of superionic salts as solid-state electrolytes in future battery applications