http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
케나프 속대의 산 가수분해 처리를 통한 고순도 셀룰로오스 생산
Virginia Ghita Firsty,임서경,구양모,이진형,신수정 한국펄프·종이공학회 2023 펄프.종이기술 Vol.55 No.1
For sustainable industries based renewable biomass, secure of raw material is important. Kenaf is a good candidate with fast-growing and high biomass productvity. Acid hydrolysis treatment of kenaf woody core is capable produced high purity cellulose for fine chemical production, which was hydrolyzed hemicelluloses (mainly xylan) to monosaccharides. The effects of various reaction temperatures (110-130℃), and reaction times (60-120 min) were investigated to get the optimum condition. 1 H NMR spectroscopy was used to quantitative analysis of polysaccharide composition based on hydrolzed monosaccharides analysis. The results showed that optimum conditions for acid hydrolysis treatment was 1.00N sulfuric acid, 130℃, and 60 min for higher purity cellulose production with cellulose as 50.0%, hemicellulsoe as 1.2%) and lignin as 0.3% based on raw kenaf core biomass. .
Mourry, Ghita E.,Alami, Rachid,Elyadini, Adil,Hajjaji, Souad El,kabba, Saad El,Zouhdi, Mimoun Occupational Safety and Health Research Institute 2020 Safety and health at work Vol.11 No.2
Background: Medical laboratory workers are frequently exposed to a wide range of chemicals. This exposure can have adverse effects on their health. Furthermore, a knowledge lack of the chemical risk increases the likelihood of exposure. The chemical risk assessment reduces the risk of exposure to hazardous chemicals and therefore, guarantees health and safety of the workers. Method: The chemical risk assessment was conducted using a modified INRS method, according to the new CLP Regulation, of 11 unit laboratories in a Moroccan medical laboratory. Observation of each workstation and analysis of safety data sheets are key tools in this study. Results: A total of 144 substances and reagents that could affect the health of the analytical technicians were identified. Among these products, 17% are concerned by the low priority risk score, with 55% concerned by the average priority risk score and 28% concerned by the high priority risk score. This study also enabled to better identify the chemical agents that have restrictive occupational exposure limit value and controls were conducted to this effect. On the basis of the results obtained, several corrective and preventive measures have been proposed and implemented. Conclusion: Risk assessment is essential to ensure the health and safety of workers and to meet regulatory requirements. It enables to identify all the risky manipulations and to adopt appropriate preventive measures. However, it is not a one-time activity but it must be continuous in order to master the changes and thus ensure the best safety of all.
Salma Maataoui,Ghita Bencheikh,Ghizlane Bencheikh International Journal of Computer ScienceNetwork S 2024 International journal of computer science and netw Vol.24 No.1
Predictive maintenance has been considered fundamental in the industrial applications in the last few years. It contributes to improve reliability, availability, and maintainability of the systems and to avoid breakdowns. These breakdowns could potentially lead to system shutdowns and to decrease the production efficiency of the manufacturing plants. The present article aims to study how predictive maintenance could be planed into the production scheduling, through a systematic review of literature. . The review includes the research articles published in international journals indexed in the Scopus database. 165 research articles were included in the search using #predictive maintenance# AND #production scheduling#. Press articles, conference and non-English papers are not considered in this study. After careful evaluation of each study for its purpose and scope, 50 research articles are selected for this review by following the 2020 Preferred Reporting Items for Systematic Review and Meta-Analysis Protocols (PRISMA) statement. A benchmarking of predictive maintenance methods was used to understand the parameters that contributed to improve the production scheduling. The results of the comparative analysis highlight that artificial intelligence is a promising tool to anticipate breakdowns. An additional impression of this study is that each equipment has its own parameters that have to be collected, monitored and analyzed.
Transcriptional regulation of mammalian autophagy at a glance
Fullgrabe, Jens,Ghislat, Ghita,Cho, Dong-Hyung,Rubinsztein, David C. The Company of Biologists Ltd. 2016 Journal of cell science Vol.129 No.16
<P>Macroautophagy, hereafter referred to as autophagy, is a catabolic process that results in the lysosomal degradation of cytoplasmic contents ranging from abnormal proteins to damaged cell organelles. It is activated under diverse conditions, including nutrient deprivation and hypoxia. During autophagy, members of the core autophagy-related (ATG) family of proteins mediate membrane rearrangements, which lead to the engulfment and degradation of cytoplasmic cargo. Recently, the nuclear regulation of autophagy, especially by transcription factors and histone modifiers, has gained increased attention. These factors are not only involved in rapid responses to autophagic stimuli, but also regulate the long-term outcome of autophagy. Now there are more than 20 transcription factors that have been shown to be linked to the autophagic process. However, their interplay and timing appear enigmatic as several have been individually shown to act as major regulators of autophagy. This Cell Science at a Glance article and the accompanying poster highlights the main cellular regulators of transcription involved in mammalian autophagy and their target genes.</P>