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Volume 5 No.3; 2019最新文献

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Comparative Study of Fuzzy *g −Closed Set with other Fuzzy Closed Sets in Fuzzy Topological Spaces 模糊拓扑空间中模糊*g−闭集与其他模糊闭集的比较研究
Pub Date : 2019-02-27 DOI: 10.29294/ijase.5.3.2019.1045-1051
Kiran, Sadanand
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引用次数: 0
Binary Surfactant System for Preparation of Nano-Emulsion of Herbal Oil Mixtures 二元表面活性剂体系制备中草药油混合纳米乳液
Pub Date : 2019-02-27 DOI: 10.29294/ijase.5.3.2019.1003-1008
Usha, Ravikant
International Journal of Advanced Science and Engineering www.mahendrapublications.com ABSTRACT: In the present study, Nanoemulsions of neem oil and pine oil using a binary surfactant system were prepared and tested their antibacterial properties. A polysorbate-type nonionic surfactant and alcohol ethoxylatesurfactant (Galaxy MW-259) were used in different proportions to obtain stable nanoemulsions at the lowest possible droplet size. The emulsification process variables such as ratio of alcohol ethoxylatesurfactant to polysorbate-type nonionic surfactant, surfactant concentration, ratio of Neem oil to pine oil, oil weight fraction and sonication time were studied. The optimal variables include the ratio of alcohol ethoxylatesurfactant to polysorbate-type non-ionic surfactant of 80:20, surfactant concentration of 4%, ratio of Neem oil to pine oil of 80:20, oil weight fraction of 20% and 20 min of sonication time at 40% of the applied power. Nano-emulsions were found to be very stable with emulsion droplet size around 25-30 nm. The traditional method and probe sonicator methods are used for the preparation of oil in water Nano-emulsion of Neem oil, pine oil, a non-ionic binary surfactant system is used as an emulsifier. This newly developed nanoemulsion provides better antimicrobial, anti-bacterial and anti-mosquito repellent properties into the treated fabrics.
摘要:本研究采用二元表面活性剂体系制备了印楝油和松油的纳米乳液,并对其抗菌性能进行了测试。以聚山梨酯型非离子表面活性剂和乙醇-乙氧基酸酯表面活性剂(Galaxy MW-259)为原料,以不同的比例制备了稳定的纳米乳液。研究了醇乙氧基酸酯表面活性剂与聚山梨酯型非离子表面活性剂的比例、表面活性剂的浓度、印楝油与松油的比、油重分数和超声时间等乳化工艺参数。最佳参数为醇乙氧基酸酯类表面活性剂与聚山梨酯类非离子表面活性剂的比例为80:20,表面活性剂的浓度为4%,印楝油与松油的比例为80:20,油重分数为20%,在40%的功率下超声时间为20 min。纳米乳剂的稳定性非常好,乳剂的粒径在25-30纳米之间。采用传统方法和探针超声法制备印楝油、松油的水包油纳米乳液,采用非离子二元表面活性剂体系作为乳化剂。这种新开发的纳米乳液为处理后的织物提供了更好的抗菌、抗菌和防蚊性能。
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引用次数: 0
Preparation and Analysis of Mechanical Properties of Short Sisal and Glass Fiber Reinforced Composite 短剑麻与玻璃纤维增强复合材料的制备及力学性能分析
Pub Date : 2019-02-27 DOI: 10.29294/IJASE.5.3.2019.1009-1016
Sandeep, Shridhar.
International Journal of Advanced Science and Engineering www.mahendrapublications.com Preparation and Analysis of Mechanical Properties of Short Sisal and Glass Fiber Reinforced Composite Sandeep C. Dhaduti1, Shridhar H. B1, S. N. Mathad2 1Department of Mechanical Engineering, K. L. E. Institute of Technology, Hubballi-580030, Karnataka, India 2Department of Engineering Physics, K. L. E. Institute of Technology, Hubballi-580030, Karnataka, India
短剑麻与玻璃纤维增强复合材料的制备与力学性能分析Sandeep C. Dhaduti1, Shridhar H. B1, S. N. Mathad2 1 k.l.e.理工学院机械工程系,Hubballi-580030, Karnataka,印度2 k.l.e.理工学院工程物理系,Hubballi-580030, Karnataka
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引用次数: 2
IoT Based Smart Energy Meter for Smart Grid Applications 智能电网应用中基于物联网的智能电能表
Pub Date : 2019-02-27 DOI: 10.29294/IJASE.5.3.2019.982-987
Swati, Sneha, Shamlee, Varsha
Mallikarjun.G.Hudedmani et al., International Journal of Advanced Science and Engineering www.mahendrapublications.com ABSTRACT: The present competitive world is witnessing tremendous change in technology and its applications to the needs of mankind. The booming wireless technology IoT ( Internet of Things) has captured the greater share of such. The present work explores the application of such technology in developing an energy meter and that unit transmits the used energy units to the control center using IoT. This wireless energy metering and E billing for the domestic user overcome the manual reading of energy from the consumer meter and undue delays in billing as well as associated erroneous readings etc. The proposed unit consists of a Arduino controller with associated hardware and display unit to indicate the consumed energy in the users meter as well as interactive messages to the user regarding Tariff, usage pattern, conservation opportunities and probable load shedding etc. The user can set the required probable maximum limit of usage of energy unit and an alert message is received as the usage is reached or just after crossing. An encouraging message is sent to the user on saving specific block of energy leading to the conservation. The meter relay turns off the power on special condition like door lock (Non usage of power) and avoid un intended billing and possible theft. An interactive message is sent to the consumer regarding the same as when such abnormalities are detected. The IoT WiFi module transmits the usage information for the E billing process and avoids actual paper work and delayed payment etc. The meter tampering is also monitored in the proposed work. The system from the billing center send the message to the user mobile with bill amount and encourage online payments through E-Seva centers, Net-banking and even through mobile phones. This kind of interfaces is really needed for the smart grids. It will help to monitor centrally and proper load management can be done controlling the user’s consumption.
摘要:在当今竞争激烈的世界,技术及其应用正在发生巨大的变化,以满足人类的需求。蓬勃发展的无线技术IoT(物联网)已经占据了更大的份额。目前的工作探索了这种技术在开发电能表中的应用,该单元使用物联网将使用过的能源单元传输到控制中心。这种为家庭用户设计的无线能源计量和电子计费系统克服了手动从消费者电表上读取能源、计费时的不当延迟以及相关的错误读数等问题。该单元由Arduino控制器与相关硬件和显示单元组成,用于在用户仪表中显示消耗的能量,以及向用户提供有关关税、使用模式、节能机会和可能的减载等交互式消息。用户可以设置所需的可能最大能源单位使用量限制,并在达到使用量或刚刚越过后收到警报信息。一个鼓励的信息发送给用户节约特定的能源块导致节约。电表继电器在门锁等特殊情况下关闭电源(不使用电源),避免意外计费和可能的盗窃。当检测到此类异常时,将向消费者发送与此相同的交互式消息。物联网WiFi模块为电子计费过程传输使用信息,避免实际的纸质工作和延迟付款等。本文还对电表篡改现象进行了监测。该系统从计费中心将账单金额信息发送到用户手机上,鼓励用户通过E-Seva中心、网上银行甚至手机进行网上支付。智能电网确实需要这种接口。这将有助于集中监控,并且可以进行适当的负载管理,以控制用户的消耗。
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引用次数: 3
A Review on Additive Manufacturing Techniques in Medical Applications 增材制造技术在医学中的应用综述
Pub Date : 2019-02-27 DOI: 10.29294/IJASE.5.3.2019.988-997
R. Dinesh Babu, D. Devaprakasam
International Journal of Advanced Science and Engineering www.mahendrapublications.com A Review on Additive Manufacturing Techniques in Medical Applications R. Dinesh Babu1,2*, D. Devaprakasam1,3 1School of Mechanical and Building Sciences, VIT University, Chennai Campus, Chennai 600127, India 2Department of Mechanical Engineering, Rajiv Gandhi College of Engineering and Technology (RGCET), Puducherry 607402, India 3InCUBE-EngSciRes RandD, Alpha Academy Tech, Udumalpet, Coimbatore 642126, India
国际先进科学与工程学报www.mahendrapublications.com增材制造技术在医疗中的应用综述R. Dinesh bab1,2*, D. Devaprakasam1,3 1 VIT大学机械与建筑科学学院,钦奈校区,钦奈600127 2拉吉夫甘地工程技术学院机械工程系,印度普杜切里607402 3 incube - engscires RandD, Alpha Academy Tech, Udumalpet,哥印拜陀642126
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引用次数: 5
Synthesis, Properties of Graphene Oxide-Metal Oxide Mixed Nanocomposites and their Applications - Review 氧化石墨烯-金属氧化物混合纳米复合材料的合成、性能及应用综述
Pub Date : 2019-02-27 DOI: 10.29294/ijase.5.3.2019.1032-1039
Pampi Majumder, Kakoli Dutta, Partha Dutta
Pampi Majumder et al., International Journal of Advanced Science and Engineering www.mahendrapublications.com ABSTRACT: Graphene oxide-metal oxide mixed nanocomposites have attracted extensive attention in recent days because of the large surface area of graphene moiety which offers sufficient space to accommodate different nanomaterials preventing agglomeration of nanocomposites. These composites can improve the unique properties of graphene and induce new properties such as high dye adsorption capacity, extended light absorption range, enhanced charge separation and transportation properties, photocatalytic performance, sensitivity in chemical and biological sensors etc. In this review, we will briefly discuss different synthetic strategies, properties and various applications of graphene oxide based metal oxide nanocomposites.
摘要:氧化石墨烯-金属氧化物混合纳米复合材料由于其具有较大的比表面积,可提供足够的空间容纳不同的纳米材料,从而防止纳米复合材料团聚,近年来引起了广泛的关注。这些复合材料可以提高石墨烯的独特性能,并产生新的性能,如高染料吸附能力、扩大光吸收范围、增强电荷分离和运输性能、光催化性能、在化学和生物传感器中的灵敏度等。本文将简要介绍氧化石墨烯基金属氧化物纳米复合材料的合成策略、性能及其应用。
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引用次数: 2
Fuzzy g- Connectedness in Fuzzy Topological Spaces 模糊拓扑空间中的模糊g-连通性
Pub Date : 2019-02-27 DOI: 10.29294/IJASE.5.3.2019.1017-1020
Kiran, Sadanand
: In this paper, we introduced new results in fuzzy connected spaces, that is 𝑔 ## -connectedness in fts by using 𝑔 ## -open sets, 𝑔 ## -closed sets in fts. We studied some of their properties and also investigated their characterization. Further this work lead to the study of disconnectedness of fuzzy 𝑔 ## -closed sets.
本文利用𝑔## -开集,𝑔## -闭集,引入了模糊连通空间中𝑔## -连通性的新结果。我们研究了它们的一些性质,并研究了它们的特征。进一步研究了模糊𝑔##闭集的不连通性。
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引用次数: 0
Synthesis and Photophysical Properties of the New Dyes Contained Benzenesulfonamide and 1,8-Naphthalimide 新型苯磺酰胺和1,8-萘酰亚胺染料的合成及其光物理性质
Pub Date : 2019-02-27 DOI: 10.29294/IJASE.5.3.2019.966-974
M. Rabiei, M. Hosseinnezhad, H. Shaki, Ali Hamidi, Soha Dehsorkhi
International Journal of Advanced Science and Engineering www.mahendrapublications.com *Corresponding Author: rabiei.marzieh@yahoo.com Received: 15.02.2019 Accepted: 20.02.2019 Published on: 27.02.2019 ABSTRACT: In this study preparation and thermal, electrochemical, photophysical properties of the compounds are reported. New series of compounds consisting of 4-Allylamino-N-4-aminobenzenesulfonamide-1,8-naphthalimide, 4Amino-N-4-amino-N-(2-pyrimidinyl) benzenesulfonamide-1,8-naphthalimide and 4-Allylamino-N-4-amino-N-(2pyrimidinyl) benzenesulfonamide-1,8-naphthalimide were synthesized via sonic method from intermediate 4-nitro-1,8naphthalimide by imidation, reduction and allylation reactions. These compounds were characterized by thin layer chromatography (TLC), differential scanning calorimetry (DSC), fourier transform infrared spectroscopy (FT-IR), 1Hnuclear magnetic resonance (1HNMR), 13C-NMR, liquid chromatography, UV–Vis spectroscopy and fluorimetry. New acceptor-donor compounds were obtained with the photoluminescence quantum yields (PLQY) of 33.68-79.70% in solution and 0.85-3.39% in non-doped solid film. The synthesized dyes absorb electromagnetic radiation in the range of 434-440 nm and emit solid films exhibited fluorescence in the range of 561-614 nm. The ionization potentials of the synthesized dyes were found to range from 6.00 eV to 6.09 eV.
国际高级科学与工程杂志www.mahendrapublications.com *通讯作者:rabiei.marzieh@yahoo.com收稿日期:15.02.2019收稿日期:20.02.2019发布日期:27.02.2019摘要:本研究报告了化合物的制备及其热、电化学、光物理性质。以中间体4-硝基-1,8萘酰亚胺为原料,经酰化、还原和烯丙化反应,用声波法合成了由4-烯丙基-n -4-氨基-n -(2-嘧啶基)苯磺酰胺-1,8萘酰亚胺、4-氨基-n -4-氨基-n -(2-嘧啶基)苯磺酰胺-1,8萘酰亚胺组成的新系列化合物。采用薄层色谱(TLC)、差示扫描量热法(DSC)、傅里叶变换红外光谱(FT-IR)、核磁共振(hnmr)、核磁共振(13C-NMR)、液相色谱、紫外-可见光谱和荧光法对化合物进行了表征。得到了新的受体-给体化合物,其光致发光量子产率(PLQY)在溶液中为33.68 ~ 79.70%,在非掺杂固体膜中为0.85 ~ 3.39%。合成的染料吸收434 ~ 440nm范围内的电磁辐射,发射出561 ~ 614 nm范围内的荧光固体膜。所合成染料的电离势在6.00 ~ 6.09 eV之间。
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引用次数: 2
Numerical Study of the Impact of Junction Depth and the Surface Recombination Velocity on Electrical Parameters of GaAs-Solar Cell 结深和表面复合速度对gaas太阳能电池电参数影响的数值研究
Pub Date : 2019-02-27 DOI: 10.29294/IJASE.5.3.2019.1064-1071
A. B. Bey, A. Talbi, M. Hebali, M. Berka, F. Ducroquet
Solar energy based on the solar cell is the most promising source among renewable energy sources. The photocurrent (Iph), open circuit voltage (Voc), maximum voltage (Vm), form factor (FF) and efficiency (η) of the solar cell are the most important parameters that can define the quality of this cell. In this work, we study the impact of the junction depth Xj and the surface recombination velocity Sn on these parameters in both external and internal cases of the solar cell in Arsenic gallium (GaAs) technology using the MATLAB software as a tool. Results show that in order to obtain highperformance of GaAs-solar cells must be the surface recombination velocity value is low, and the junction depth in submicron scale. Numerical results gave higher values of efficiencies 19.21 % and 30.1 % in external and internal cases respectively, and best electrical parameters of the GaAs-solar cell when the junction depth and the surface recombination velocity are equal to 0.2 μm and 102 cm/s respectively.
以太阳能电池为基础的太阳能是可再生能源中最有前途的一种能源。太阳能电池的光电流(Iph)、开路电压(Voc)、最大电压(Vm)、外形系数(FF)和效率(η)是决定电池质量的最重要参数。在这项工作中,我们研究了结深度Xj和表面复合速度Sn对砷镓(GaAs)技术太阳能电池外部和内部情况下这些参数的影响,并使用MATLAB软件作为工具。结果表明,为了获得高性能的gaas太阳能电池,必须使表面复合速度值较低,且结深在亚微米尺度。数值计算结果表明,当结深为0.2 μm,表面复合速度为102 cm/s时,gaas太阳电池的效率最高,分别为19.21%和30.1%。
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引用次数: 2
期刊
Volume 5 No.3; 2019
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