Grid impedance estimation for islanding detection and adaptive control of converters

The grid impedance is time varying due to the changing structure of the power system configuration and it can have a considerable influence on the control and stability of grid connected converters. This paper presents an online grid impedance estimation method using the output switching current ripple of a SVPWM based grid connected converter. The proposed impedance estimation method is derived from the discretised system model using two consecutive samples within the switching period. The estimated impedance is used for islanding detection and online current controller parameter adaptation. Theoretical analysis and MATLAB simulation results are presented to verify the proposed method. The effectiveness of the grid impedance estimator is validated using experimental results

Grid impedance estimation for islanding detection and adaptive control of converters

The grid impedance is time varying due to the changing structure of the power system configuration and it can have a considerable influence on the control and stability of grid connected converters. This paper presents an online grid impedance estimation method using the output switching current ripple of a SVPWM based grid connected converter. The proposed impedance estimation method is derived from the discretised system model using two consecutive samples within the switching period. The estimated impedance is used for islanding detection and online current controller parameter adaptation. Theoretical analysis and MATLAB simulation results are presented to verify the proposed method. The effectiveness of the grid impedance estimator is validated using experimental results

Wide frequency range active damping of LCL-filtered grid connected converters

It can be challenging to guarantee the stability of grids with many converters with LCL filters connected due to the presence of multiple resonances within the system. This paper presents an active damping technique to mitigate multiple resonance effects and harmonics in power converters connected to weak grids. The proposed technique employs grid current and capacitor voltage feedback to achieve active damping for a wide range of multiple resonance frequencies. The effectiveness of the proposed wide frequency active damping and improved controller stability are demonstrated through frequency domain analysis and experimental results for single and parallel grid connected converters

Fullerene up-take alters bilayer structure and elasticity: A small angle X-ray study.

The coupling of fullerene (C60) to the structure and elasticity of 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine bilayers has been explored by synchrotron small angle X-ray scattering. Multilamellar vesicles were loaded with 0, 2 and 10mol.% of C60 and studied in a temperature range from 15 to 65°C. The addition of C60 caused an increase in the bilayer undulations (∼20%), in the bilayer separation (∼15%), in the linear expansion coefficient and caused a drop in the bending rigidity of the bilayers (20-40%). Possible damaging effects of fullerene on biomembranes are mainly discussed on the basis of altered bilayer fluidity and elasticity changes

Uptake and toxicity studies of poly-acrylic acid functionalized silicon nanoparticles in cultured mammalian cells

Poly-acrylic acid (PAAc) terminated silicon nanoparticles (SiNPs) have been synthesized and employed as a synchronous fluorescent signal indicator in a series of cultured mammalian cells: HHL5, HepG2 and 3T3-L1. Their biological effects on cell growth and proliferation in both human and mouse cell lines have been studied. There was no evidence of in vitro cytotoxity in the cells exposed to PAAc terminated SiNPS when assessed by cell morphology, cell proliferation and viability, and DNA damage assays. The uptake of the nanocrystals by both HepG2 and 3T3-L1 cells was investigated by confocal microscopy and flow cytometry, which showed a clear time-dependence at higher concentrations. Reconstructed 3-D confocal microscope images exhibited that the PAAc-SiNPs were evenly distributed throughout the cytosol rather than attached to outer membrane. This study provides fundamental evidence for the safe application and further modification of silicon nanoparticles, which could broaden their application as cell markers in living systems and in micelle encapsulated drug delivery systems

Uptake and release of double-walled carbon nanotubes by mammalian cells

Efforts to develop carbon nanotubes (CNTs) as nano-vehicles for precise and controlled drug and gene delivery, as well as markers for in vivo biomedical imaging, are currently hampered by uncertainties with regard to their cellular uptake, their fate in the body, and their safety. All of these processes are likely to be affected by the purity of CNT preparation, as well as the size and concentration of CNTs used, parameters that are often poorly controlled in biological experiments. It is demonstrated herein that under the experimental conditions of standard transfection methods, DWNTs are taken up by cultured cells but are then released after 24 h with no discernable stress response. The results support the potential therapeutic use of CNTs in many biomedical settings, such as cancer therapy

Probiotic Bacteria as an Healthy Alternative for Fish Aquaculture

One of the problems of the aquaculture industry is the presence of pathogenic microorganisms whose proliferation is enhanced when the healthy quality of the culture systems do not meet comply with physical-chemical-biological parameters. In order to improve these problems, less aggressive alternatives to the environment have been sought. This is why probiotic bacteria are proposed as an alternative to the same systems where they will be applied, since they generate greater interest in not presenting a threat to the ecosystem, favor survival, improve the immune system of organisms and have antibacterial properties against pathogenic bacteria. This chapter reviews current research related to the search for marine probiotics for application in the aquaculture industry. Additionally, we deliver results from our work related to the research and application of probiotics. The reported studies demonstrate the positive effects of marine bacteria for their aquaculture application. The evidences found in our work allow us to conclude that larval survival is favored by the application of probiotics in the use of vectors such as rotifers, artemia and biofilms. However, depending on the species of interest, it is necessary to study the market for the biotechnological application of probiotics, to evaluate the feasibility of its production on a larger scale and its commercial feasibility

Développement d'une réaction d'amidation utilisant le diphénylsilane en tant qu'agent de couplage et d'une réaction de borocyclopropanation photochimique

Ce manuscrit décrit les travaux de doctorat réalisés au sein du laboratoire du Pr. Charette entre 2015 et 2019. Ceux-ci s’inscrivent dans deux thématiques de recherche différentes : le développement de nouvelles stratégies d’amidation et le développement de nouvelles méthodologies de cyclopropanation. La synthèse de liaisons amides est, encore aujourd’hui, un défi pour la communauté chimique. En effet, le développement de méthodologies simples, robustes, économes en atomes, et plus respectueuses de l’environnement reste l’une des priorités de recherche en chimie organique. Afin d’apporter une contribution à ce domaine, une méthodologie de synthèse d’amides a été développée en utilisant le diphénylsilane en tant qu’agent de couplage. Celui-ci est disponible commercialement, stable et peu onéreux. De plus, il ne génère qu’un siloxane et du dihydrogène gazeux en fin de réaction. La méthodologie mise au point a également pu être appliquée à la synthèse d’une série de di- et tripeptides. L’utilisation du motif cyclopropanique n’a cessé de prendre de l’ampleur dans le secteur pharmaceutique. En effet, celui-ci peut influer sur différents paramètres cruciaux dans le développement de molécules biologiquement actives. Le développement de nouvelles méthodologies de cyclopropanation est donc un domaine pertinent. La synthèse de borocyclopropanes est particulièrement intéressante : en effet, ces composés peuvent permettre de créer de la diversité structurale via une fonctionnalisation du boronate. Afin d’obtenir un procédé de synthèse de ces composés simple, robuste et plus « vert », une approche photochimique utilisant la technologie en débit continu a été favorisée. Une réaction de borocyclopropanation photorédox de styrènes a pu être mise au point ; celle-ci est réalisée sous irradiation UV-A en présence de xanthone en tant que photocatalyseur. Les études menées afin d’élucider le mécanisme ont permis de conclure que cette transformation se déroulait selon deux cycles catalytiques photorédox concomitants. Finalement, un nouveau réactif diiodé comportant une fonction ester boronique de pinacol et un groupement triméthylsilyle a été développé afin d’accéder à des cyclopropanes gem-disubstitués. Les bases d’un procédé photochimique UV-visible utilisant ce nouveau réactif ont ensuite pu être établies. Ainsi, le premier exemple d’un gem-borocyclopropyl silane dérivé du styrène a pu être synthétisé.This manuscript describes the work carried out in Pr. Charette’s laboratory between 2015 and 2019. It can be divided into two different topics: the development of new amidation strategies and the development of new cyclopropanation methodologies. Amide synthesis is still a challenge for the scientific community nowadays. Indeed, the development of simple, robust, atom economical and environmental friendly procedures remain one of the research priority in organic chemistry. To contribute to this field, an amide synthesis methodology has been developed by using diphenylsilane as a coupling reagent. The latter is commercially available, stable and cheap. Moreover, only a siloxane and dihydrogen are generated during the reaction. The developed methodology has also been applied to the synthesis of a series of di- and tripeptides. The cyclopropane moiety has been increasingly used in pharmaceuticals. Indeed, this moiety can influence different crucial parameters in the development of bioactive molecules. The development of new cyclopropanation methodologies is therefore a relevant field. Borocyclopropane synthesis is of particular interest: as a matter of fact, these compounds can create structural diversity via boronate functionalization. In order to obtain a user-friendly, robust and greener chemical process, a photochemical approach using continuous flow technology has been favored. A photoredox borocyclopropanation of styrenes has been developed; the latter is carried out under UV-A irradiation with xanthone as a photosensitizer. Mechanistic studies have supported that this transformation proceeds according to two concurrent photoredox catalytic cycles. Finally, a new diiodo reagent bearing a pinacol boronate group and a trimethylsilyl group has been developed to access gem-disubstituted cyclopropanes. The bases of a UV-visible photochemical process using this new reagent have then been established. Thereby, the first example of a gem-borocyclopropyl silane derived from styrene has been synthesized

A Study of the Framework and Attributes of Ethical Standards in Journalism

It has always been difficult to create fair evaluation criteria for journalists, especially when it comes to judging morality and ethical conduct in news reporting. These guidelines function as yardsticks for gauging the ethics of news topics and the objectivity of journalistic techniques. These criteria are becoming more and more difficult as journalism changes, especially in the digital age. Fostering ethical journalism requires an understanding of its categorization and internal structure. This analysis employs a conceptual framework to explore the evaluation standards of news ethics. The method involves: Literature Review: Examining existing academic literature, ethical codes, and industry guidelines to outline the prevailing evaluation standards in journalism. Thematic Analysis: Identifying and categorizing the components of evaluation standards into normative and quality standards, assessing their relevance to different aspects of journalistic practice. Case Studies: Analyzing specific instances where journalistic ethics were put to the test, allowing for a practical understanding of how these standards function in real-world scenarios. The primary objective of this study is to clarify the internal structure of journalistic ethics evaluation standards and highlight the distinctions between normative and quality standards. By doing so, the analysis aims to provide insights into how these standards can be effectively applied to evaluate news behaviors and moral character in journalism. What is deemed ethical in one context may not hold the same weight in another. This relativity underscores the importance of understanding the specific circumstances surrounding journalistic practices. Historical Context: The evolution of journalistic ethics is tied to historical events and societal changes. Standards that once sufficed may need reevaluation to address contemporary challenges, particularly with the rise of digital media and misinformation. Complex Internal Structure: The internal structure of evaluation standards can be multi-layered, with different levels of criteria applied depending on the context and specific ethical dilemmas faced by journalists. This complexity requires continuous dialogue and adjustment as new ethical challenges arise. Practical Implications: Journalists and media organizations must engage with these standards actively, incorporating them into training and policy development. By fostering an understanding of both normative and quality standards, the industry can promote a more ethical and accountable journalism practice