Cultural Awareness in English Language Teaching

In the context of contemporary globalization,language learning is no longer just a matter of mastering words and grammar,but increasingly involves an understanding of cultural context.This shift is particularly important in the teaching of English as a second or foreign language,as English is not only a universal communication tool,but also a bridge connecting different countries and cultures.In this context,cultural awareness becomes an indispensable part of English teaching.It helps students better understand the deeper meaning and context of English,while also providing a solid foundation for their cross-cultural communication.By developing cultural awareness,students are not only able to improve their language skills,but also broaden their horizons and increase their understanding and respect for different cultures.Therefore,in English teaching,we should pay attention to the cultivation of cultural awareness,so that students can truly master the English language,and flexibly apply it to daily life and work.

Impact of sesame lignan on physical and oxidative stability of flaxseed oil-in-water emulsion

Recent studies have shown that the highly susceptibility to oxidation ofα-linolenic acid(ALA)enriched emulsion delivery system was harmful for human health which limited their incorporation into functional food.Impacts of natural sesamol(SOH)and sesamin(SES)on stability of flaxseed oil-in-water emulsion were investigated.Results showed that SOH indicated higher antioxidant activity and significantly prolonged the time of emulsion oil-off by retarding oil droplet aggregation in a dose dependent manner throughout storage.Moreover,SOH showed substantial extended lag phase of lipid oxidation products,especially for secondary oxidation products(thiobarbituric acid-reactive substances,TBARS),with a maximum reduction of 70%with 800 M dosage.The antioxidative efficiency of SOH might relate to its strong ability of scavenging free radical and chelate transition metal.Furthermore,SOH significantly enhanced interfacial barrier property and reduced permeation rate of peroxyl radical across emulsion interface by hydrogen bonds between sugar groups of saponin molecules and SOH.However,no obvious change in barrier property of emulsion was observed in SES.SOH improved physicochemical property of flaxseed oil-in-water emulsion with higher antioxidant activity and stronger interfacial barrier property,so that it could be serve as plant-based antioxidant in oil-in-water emulsion delivery system.

一种新型腹腔镜下免气腹硬质内镜钬激光碎石治疗肝内胆管结石的疗效

目的:探讨新型腹腔镜下免气腹硬质内镜钬激光碎石治疗肝内胆管结石的疗效。方法:回顾性分析2023年3月至2023年5月在湖南省人民医院接受腹腔镜下免气腹硬质内镜钬激光碎石手术的6例肝内胆管结石患者临床资料。患者均签署知情同意书,符合医学伦理学规定。其中男1例,女5例;年龄46~68岁,中位年龄62岁。采用自行研制的新型腹腔镜下硬质内镜钬激光碎石治疗肝内胆管结石,取石过程中无需气腹状态。观察围手术期情况及并发症等。结果:患者均手术顺利,无中转开腹。患者平均手术时间(145±22)min,术中出血量5~50 ml,中位出血量10 ml。术后住院时间(5.0±0.6)d。围手术期无发生死亡,术中及术后未发生高碳酸血症、气栓、皮下气肿、腹腔感染、胆道出血等并发症,均康复出院。术后第3天复查CT肝内胆管结石无残石。结论:本中心自行研制的新型腹腔镜下免气腹硬质内镜钬激光碎石治疗肝内胆管结石安全、有效,能有效减少术中气腹相关并发症发生,提高手术效率,缩短手术时间。

智慧城市建设中的政府治理数字化转型研究

党的十九大报告提出建设“智慧社会”,确立了新时代中国特色社会主义信息化建设的新目标,我国智慧城市建设稳步推进,但在治理理念、管理结构和技术融合等方面还存在问题。从现代政府治理体系的核心需求、数字技术提供科技支撑的独特优势两方面入手,探讨数字技术支撑现代政府治理体系建设的底层逻辑,并通过政府理念数字化变革、政府结构数字化建设以及政府能力数字化提升三条路径,加快推进数字赋能智慧政府治理工作。本研究对我国实现数字化政府建设有重大意义,并有助于国家现代化治理体系的完善。

铜基催化剂用于一氧化碳电还原为多碳产品

电化学二氧化碳还原(ECO_(2)R)是一种将碳和可再生能源的能量储存在多碳产品(C_(2+))的化学键中的有效途径.然而,反应涉及的复杂步骤为CO_(2)直接转化为C_(2+)设置了巨大的障碍.一种利用CO作为“中转站”,通过串联ECO_(2)R和电化学CO还原(ECOR)以提高生产C_(2+)的选择性和反应速率的策略引起了人们的广泛关注.本文总结了铜基电催化剂在ECOR中催化特定C_(2+)生成的设计策略.其次,从各个方面总结了催化剂工程的代表性设计策略,并介绍了电解反应器改进方面的最新进展.最后,阐述了该研究领域面临的主要挑战和未来前景.这些见解和观点将为铜基电催化剂的设计提供有益指导.

Green manufacturing for achieving carbon neutrality goal requires innovative technologies:A bibliometric analysis from 1991 to 2022

Recent years have seen a significant increase in interest in green manufacturing as a key driver of global carbon-neutral efforts and sustainable development.To find the research hotspots of green manufacturing and reveal future research trends,this study reviewed and analyzed research articles from the Web of Science database on green manufacturing from1991 to 2022 using a bibliometric method.The findings indicate a significant rise in the number of articles related to green manufacturing since the 2010s.Moreover,there has been an increase in the involvement of scholars from developing countries such as China and India in this field.Based on the literature review and bibliometric cluster analysis on green manufacturing,we believed that future research may continue following the lines of intelligent technology integration,adoption of frontier engineering techniques,and industry development in line with carbon reduction targets.A framework for future green manufacturing development is proposed,with a focus on Chinese policies.The framework could provide policy implications for developing countries looking to pursue opportunities for development in green manufacturing.

Development of a novel critical nitrogen concentration-cumulative transpiration curve for optimizing nitrogen management under varying irrigation conditions in winter wheat

Accurate nitrogen(N)nutrition diagnosis is essential for improving N use efficiency in crop production.The widely used critical N(Nc)dilution curve traditionally depends solely on agronomic variables,neglecting crop water status.With three-year field experiments with winter wheat,encompassing two irrigation levels(rainfed and irrigation at jointing and anthesis)and three N levels(0,180,and 270 kg ha
1),this study aims to establish a novel approach for determining the Nc dilution curve based on crop cumulative transpiration(T),providing a comprehensive analysis of the interaction between N and water availability.The Nc curves derived from both crop dry matter(DM)and T demonstrated N concentration dilution under different conditions with different parameters.The equation Nc=6.43T
0.24 established a consistent relationship across varying irrigation regimes.Independent test results indicated that the nitrogen nutrition index(NNI),calculated from this curve,effectively identifies and quantifies the two sources of N deficiency:insufficient N supply in the soil and insufficient soil water concentration leading to decreased N availability for root absorption.Additionally,the NNI calculated from the Nc-DM and Nc-T curves exhibited a strong negative correlation with accumulated N deficit(Nand)and a positive correlation with relative grain yield(RGY).The NNI derived from the Nc-T curve outperformed the NNI derived from the Nc-DM curve concerning its relationship with Nand and RGY,as indicated by larger R2 values and smaller AIC.The novel Nc curve based on T serves as an effective diagnostic tool for assessing winter wheat N status,predicting grain yield,and optimizing N fertilizer management across varying irrigation conditions.These findings would provide new insights and methods to improve the simulations of water-N interaction relationship in crop growth models.

A zone-layered trimming method for ceramic core of aero-engine blade based on an advanced reconfigurable laser processing system

Ceramic structural parts are one of the most widely utilized structural parts in the industry. However, they usually contain defects following the pressing process, such as burrs. Therefore, additional trimming is usually required, despite the deformation challenges and difficulty in positioning. This paper proposes an ultrafast laser processing system for trimming complex ceramic structural parts. Opto-electromechanical cooperative control software is developed to control the laser processing system. The trimming problem of the ceramic cores used in aero engines is studied. The regional registration method is introduced based on the iterative closest point algorithm to register the path extracted from the computer-aided design model with the deformed ceramic core. A zonal and layering processing method for three-dimensional contours on complex surfaces is proposed to generate the working data of high-speed scanning galvanometer and the computer numerical control machine tool, respectively. The results show that the laser system and the method proposed in this paper are suitable for trimming complex non-datum parts such as ceramic cores. Compared with the results of manual trimming, the method proposed in this paper has higher accuracy, efficiency, and yield. The method mentioned above has been used in practical application with satisfactory results.

Hall多项式

作为Hall代数的结构常数, Hall数和Hall多项式与对称群的表示和量子群的结构有紧密联系.本文首先引入经典Hall代数和Hall多项式的概念,并阐述其与对称函数的联系.其次,定义有限域上代数的Ringel-Hall代数,并简述其与量子群的关系.最后,本文在Dynkin箭图和仿射箭图情形下,讨论Hall多项式的存在性.