697 research outputs found
Development of a stand alone inverter efficiency test setup
Murdoch University's School of Engineering and Information Technology has a plan to develop the stand-alone inverter efficiency test setup for the laboratory exercise of the unit ENG421 Renewable Energy Systems Engineering. The laboratory exercise, which identified Inverters for Stand-Alone PV Systems, aims at helping students gain an understanding of the principles of operation, efficiencies and output current and voltage wave shapes at various loadings of two inverter types used in stand-alone PV systems.
This report focuses on the development of the previous setup of ENG421 laboratory at Building 190 on the Murdoch University Campus. The aim of the development is to work out some issues with the existing system including an ageing battery bank which is expensive to replace and the replacement of the inverters that they are expected to meet Australian Standards: AS5603 Stand-alone Inverters - Performance requirements and AS4763:2011 Safety of Portable Inverters. Moreover, the aim is to determine the uncertainty in measurement by undertaking the uncertainty analysis of the efficiency test results.
The stand-alone inverter efficiency test setup consists of power source, digital power analyzer, hall effect sensor circuit to supply isolated signals for viewing AC voltage and current, differential probe, oscilloscope, various load banks and two types of stand-alone inverters (sine wave inverter and modified square wave inverter) for comparing efficiency test results and output waveforms.
The design work and implementation of the development is complete now. The Agilent DC power supply (0-60V, 0-11A, 6.6kW) is used to replace the battery bank due to its good ability to simulate the batteries and high-quality performance during long period. Moreover, the Protek multimeters of previous setup are replaced by YOKOGAWA WT2030 digital power meter to achieve more accurate measurements. Two stand-alone inverters are selected and used in the new setup so far, they are Selectronic Sine Wave Inverter 350VA and Suntron Power Inverter 350VA (modified square wave inverter). However, all of these inverters were manufactured before 2011. To meet the requirement of AS4763:2011 Safety of Portable Inverters, a new stand-alone inverter manufactured after 2011 should be purchased for the setup in the future work.
In this project, several specific tasks were also carried out including the review of the previous work, redesign and implementation of the test setup, documentation and analysis of the stand-alone inverter efficiency test, and the determination of the uncertainty in measurement. Also, the background information relating to the stand-alone inverter is provided and discussed. The maximum efficiency of Selectronic 350VA sine wave inverter is 88.8% when there is 104 watts loading. The maximum conversion efficiency of Suntron 350VA modified square wave inverter is higher which is 92.9% when there is approximately 150 watts loading. The final expanded uncertainty for measurement of the peak efficiency point of Suntron 350VA modified square wave inverter is 0.072%.
The work is completed now and ready to be used in the laboratory exercise of unit ENG421 Renewable Energy Systems Engineering. But the test setup requires new stand-alone inverters and improvement of measuring equipment for future work. The ultimate purpose of the test setup is to provide future students a safe, informative and reasonable experiment exercise
Two Solar Tornadoes Observed with the Interface Region Imaging Spectrograph
The barbs or legs of some prominences show an apparent motion of rotation,
which are often termed solar tornadoes. It is under debate whether the apparent
motion is a real rotating motion, or caused by oscillations or
counter-streaming flows. We present analysis results from spectroscopic
observations of two tornadoes by the Interface Region Imaging Spectrograph.
Each tornado was observed for more than 2.5 hours. Doppler velocities are
derived through a single Gaussian fit to the Mg~{\sc{ii}}~k~2796\AA{}~and
Si~{\sc{iv}}~1393\AA{}~line profiles. We find coherent and stable red and blue
shifts adjacent to each other across the tornado axes, which appears to favor
the interpretation of these tornadoes as rotating cool plasmas with
temperatures of K- K. This interpretation is further supported by
simultaneous observations of the Atmospheric Imaging Assembly on board the
Solar Dynamics Observatory, which reveal periodic motions of dark structures in
the tornadoes. Our results demonstrate that spectroscopic observations can
provide key information to disentangle different physical processes in solar
prominences.Comment: 14 figures, accepted by Ap
Exploration of eco-environment and urbanization changes in coastal zones: A case study in China over the past 20 years
Abstract With the rapid development of urbanization and population migration, since the 20th century, the natural and eco-environment of coastal areas have been under tremendous pressure due to the strong interference of human response. To objectively evaluate the coastal eco-environment condition and explore the impact from the urbanization process, this paper, by integrating daytime remote sensing and nighttime remote sensing, carried out a quantitative assessment of the coastal zone of China in 2000–2019 based on Remote Sensing Ecological Index (RSEI) and Comprehensive Nighttime Light Index (CNLI) respectively. The results showed that: 1) the overall eco-environmental conditions in China's coastal zone have shown a trend of improvement, but regional differences still exist; 2) during the study period, the urbanization process of cities continued to advance, especially in seaside cities and prefecture-level cities in Jiangsu and Shandong, which were much higher than the average growth rate; 3) the Coupling Coordination Degree (CCD) between the urbanization and eco-environment in coastal cities is constantly increasing, but the main contribution of environmental improvement comes from non-urbanized areas, and the eco-environment pressure in urbanized areas is still not optimistic. As a large-scale, long-term series of eco-environment and urbanization process change analysis, this study can provide theoretical support for mesoscale development planning, eco-environment condition monitoring and environmental protection policies from decision-makers
Boosting the Adversarial Transferability of Surrogate Models with Dark Knowledge
Deep neural networks (DNNs) are vulnerable to adversarial examples. And, the
adversarial examples have transferability, which means that an adversarial
example for a DNN model can fool another model with a non-trivial probability.
This gave birth to the transfer-based attack where the adversarial examples
generated by a surrogate model are used to conduct black-box attacks. There are
some work on generating the adversarial examples from a given surrogate model
with better transferability. However, training a special surrogate model to
generate adversarial examples with better transferability is relatively
under-explored. This paper proposes a method for training a surrogate model
with dark knowledge to boost the transferability of the adversarial examples
generated by the surrogate model. This trained surrogate model is named dark
surrogate model (DSM). The proposed method for training a DSM consists of two
key components: a teacher model extracting dark knowledge, and the mixing
augmentation skill enhancing dark knowledge of training data. We conducted
extensive experiments to show that the proposed method can substantially
improve the adversarial transferability of surrogate models across different
architectures of surrogate models and optimizers for generating adversarial
examples, and it can be applied to other scenarios of transfer-based attack
that contain dark knowledge, like face verification. Our code is publicly
available at \url{https://github.com/ydc123/Dark_Surrogate_Model}.Comment: Accepted at 2023 International Conference on Tools with Artificial
Intelligence (ICTAI
Spatial Variation of NO2 and Its Impact Factors in China: An Application of Sentinel-5P Products
As an important tropospheric trace gas and precursor of photochemical smog, the accumulation of NO2 will cause serious air pollution. China, as the largest developing country in the world, has experienced a large amount of NO2 emissions in recent decades due to the rapid economic growth. Compared with the traditional air pollution monitoring technology, the rapid development of the remote sensing monitoring method of atmospheric satellite has gradually become the critical technical means of global atmospheric environmental monitoring. To reveal the NO2 pollution situation in China, based on the latest NO2 products from Sentinel-5P TROPOMI, the spatial\u2013temporal characteristics and impact factors of troposphere NO2 column concentration of mainland China in the past year (February 2018 to January 2019) were analyzed on two administrative levels for the first time. Results show that the monthly fluctuation of tropospheric NO2 column concentration has obvious characteristics of \u201chigh in winter and low in summer\u201d, while the spatial distribution forms a \u201chigh in East and low in west\u201d pattern, bounded by Hu Line. The comparison of Coefficient of Variation (CV) and spatial autocorrelation models at two kinds of administrative scales indicates that although the spatial heterogeneity of NO2 column concentration is less affected by the observed scale, there is a \u201cdelayed effect\u201d of about one month in the process of NO2 column concentration fluctuation. Besides, the impact factors analysis based on Spatial Lag Model (SLM) and Geographic Weighted Regression (GWR) reveals that there is a positive correlation between nighttime light intensity, the secondary and tertiary industries proportion and NO2 column concentration. Furthermore, for regions with serious NO2 pollution in North China Plain, the whole society electricity consumption and vehicle ownership also play a positive role in increasing the NO2 column concentration. This study will enlighten the government and policy makers to formulate policies tailored to local conditions, to more effectively implement NO2 emission reduction and air pollution prevention
Formal deformations, cohomology theory and -structures for differential Lie algebras of arbitrary weight
Generalising a previous work of Jiang and Sheng, a cohomology theory for
differential Lie algebras of arbitrary weight is introduced. The underlying
-structure on the cochain complex is also determined via a
generalised version of higher derived brackets. The equivalence between
-structures for absolute and relative differential Lie algebras
are established. Formal deformations and abelian extensions are interpreted by
using lower degree cohomology groups. Also we introduce the homotopy
differential Lie algebras. In a forthcoming paper, we will show that the operad
of homotopy (relative) differential Lie algebras is the minimal model of the
operad of (relative) differential Lie algebras
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