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Influence of SDS on the Growth of Natural Gas Hydrates in a Sand Bed Depending on Saturation and Mineralization of PoreMoisture SDS 对砂床中天然气水合物生长的影响取决于孔隙水分的饱和度和矿化度
Pub Date : 2024-01-12 DOI: 10.2174/0124055204283697231224155414
Aleksey M. Reshetnikov
Evaluate the effect of SDS on induction time and conversion of water to hydrate in a porous medium model depending on the saturation and salinity of pore moisture.The work presents data on the formation of natural gas hydrates in sand bed fraction of 200-500 μm. The silica sand was saturated with water, solutions of SDS or NaCl, or a mixture of these. The saturation was 50% or 100%. The experiments were carried out under isochoric conditions at a temperature of 275 K and an initial pressure of 8 MPa.It was shown that the main hydrate formation occurred in the first 60 minutes. The addition of SDS 0.05-0.2 wt.% in the sand bed does not exhibit a promoting effect, as was previously shown for pure water. The addition of NaCl 3 wt.% reduces the conversion of water to hydrate by 1.6 and 2 times for 50% and 100% saturation of the sand bed.The optimal concentration of the SDS additive to the salt solution has been found to reduce the inhibitory effect of the salt. The data obtained can be used to develop technologies for storing and transporting natural gas using sand and seawater.
根据孔隙水分的饱和度和盐度,评估 SDS 对多孔介质模型中的诱导时间和水到水合物的转化的影响。硅砂被水、SDS 或 NaCl 溶液或这些物质的混合物饱和。饱和度为 50%或 100%。实验在等温条件下进行,温度为 275 K,初始压力为 8 MPa。在砂床中加入 0.05-0.2 wt.%的 SDS 不会产生促进作用,这与之前纯水的情况相同。盐溶液中 SDS 添加剂的最佳浓度可减少盐的抑制作用。所获得的数据可用于开发利用沙子和海水储存和运输天然气的技术。
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引用次数: 0
Valorization of Corn Steep Liquor for Improved Value-addedProducts: A Review 玉米淀粉液的增值以提高产品附加值:综述
Pub Date : 2024-01-11 DOI: 10.2174/0124055204282376231219095404
A. Taiwo, P. Musonge
Corn steep liquor (CSL) is a by-product of wet steeping corn and is a source of vitamins, minerals, and amino acids. Depending on how food processing firms dispose of waste, CSL might have a negative impact on the environment. However, when CSL is used properly, it can promote economic growth and sustainability and prevent adverse environmental effects. However, the nutritional content of CSL and the high concentration of its organic matter suggest it is a rich source of feedstock. It can be used as a nutrient supplement or precursor to other products with even more value. CSL has been studied as a feedstock and additive for the sustainable production of chemicals and industrial products. A variety of bioproducts, including ethanol, acetoin, vanillin, and a variety of other biofuels, can be made from CSL due to its low cost and availability of components (nitrogen and carbon). The study seeks to highlight and present comprehensive novel uses of corn steep liquor in the circular economy to produce highervalued products with reduced carbon footprints.
玉米浸出液(CSL)是湿浸玉米的副产品,是维生素、矿物质和氨基酸的来源。根据食品加工企业处理废物的方式,CSL 可能会对环境造成负面影响。但是,如果 CSL 使用得当,它可以促进经济增长和可持续发展,并防止对环境造成不利影响。然而,CSL 的营养成分及其有机物质的高浓度表明,它是一种丰富的原料来源。它可用作营养补充剂或其他产品的前体,价值更高。已将 CSL 作为可持续生产化学品和工业产品的原料和添加剂进行了研究。由于 CSL 成本低廉,成分(氮和碳)容易获得,因此可以用 CSL 生产出多种生物产品,包括乙醇、乙炔、香兰素和其他多种生物燃料。本研究旨在强调和介绍玉米浸出液在循环经济中的综合新用途,以生产高价值产品,同时减少碳足迹。
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引用次数: 0
Acoustical Analysis of Dextran+urea: Insights into Molecular Interactions 葡聚糖+尿素的声学分析:洞察分子相互作用
Pub Date : 2023-12-18 DOI: 10.2174/0124055204271465231204112233
Subhraraj Panda
The aim of this study is to determine the acoustic parameters of polymer dextran with urea. Recent years have seen an increase in the use of ultrasonic research to describe the physiochemical and thermodynamic characteristics of liquid solutions at various temperatures and frequencies. The size of the pure component and the mixtures had an impact on various interactions, molecular mobility, and kinds of interaction. Which were studied using the acoustical and thermodynamic characteristics? To ascertain how the solvent urea interacts with the solute dextran at the molecular level. Dextran (molecular weight of 70000) with 6(M)urea was used. The solution's density using a pycnometer, viscosity using an Ostwald viscometer, and ultrasonic velocity using an ultrasonic interferometer were examined. The physical properties of the medium are affected by the transmission of ultrasonic waves, which also teaches us about the physics of liquids and solutions. Understanding the interactions between the solutes and the solvent in the solution of dextran and urea, both the evaluated parameters were used, such as free volume, internal pressure, absorption coefficient, Rao's constant, and Wada's constant, as well as the observed values, such as ultrasonic velocity, density, and viscosity. Based on the modification of these parameters with varied temperature and frequency, molecular mobility, different types of intermolecular interaction, and the strength of the bond between the solute (dextran 0.5%) and solvent (6(M) urea) are investigated. The findings have been explained in terms of a structural reorganisation in the aqueous dextran solution. At all the temperatures used for the investigation, the solute-solvent interactions are more significant. The change in the acoustic properties is small because the frequency variation causes the molecules to move swiftly and have little chance to interact. Investigating molecular interactions, including electrostriction, acceptor-donor association, dipole-dipole association, and hydrogen bonding, has used these properties. Understanding molecular interactions helps one to comprehend the core issues surrounding the mechanisms of chemical and biological catalysis and the routes of chemical reactions.
本研究的目的是确定含有尿素的聚合物葡聚糖的声学参数。近年来,人们越来越多地使用超声波研究来描述不同温度和频率下液体溶液的物理化学和热力学特性。纯成分和混合物的大小对各种相互作用、分子流动性和相互作用的种类都有影响。利用声学和热力学特性研究了哪些因素?确定溶剂尿素与溶质右旋糖酐在分子水平上的相互作用。 使用了分子量为 70000 的右旋糖酐和 6(M)脲。使用比重计检测溶液的密度,使用奥斯特瓦尔德粘度计检测溶液的粘度,使用超声波干涉仪检测溶液的超声波速度。 介质的物理特性受到超声波传输的影响,这也让我们了解到液体和溶液的物理特性。为了解右旋糖酐和尿素溶液中溶质和溶剂之间的相互作用,既使用了自由体积、内压、吸收系数、拉奥常数和和田常数等评估参数,也使用了超声波速度、密度和粘度等观测值。 在改变温度和频率对这些参数进行调节的基础上,研究了分子流动性、不同类型的分子间相互作用以及溶质(0.5% 右旋糖酐)和溶剂(6(M) 尿素)之间的结合强度。研究结果可以用葡聚糖水溶液中的结构重组来解释。在研究使用的所有温度下,溶质与溶剂之间的相互作用都更为显著。声学特性的变化很小,因为频率变化导致分子快速移动,几乎没有机会发生相互作用。对分子相互作用的研究,包括电致伸缩、受体-捐献者结合、偶极子-偶极子结合和氢键,都使用了这些特性。了解分子相互作用有助于理解围绕化学和生物催化机理以及化学反应途径的核心问题。
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引用次数: 0
Preparation and Catalytic Properties of Graphene Oxide/Phosphotungstic Acid Composites 氧化石墨烯/磷钨酸复合材料的制备与催化特性
Pub Date : 2023-11-20 DOI: 10.2174/0124055204263490231103114459
Xiao Wang, Ping Zhang, Yousheng Tao
This work make a step forward to the utilization of cellulose. Cellulose molecules are of stable crystalline structure. The hydrolysis of cellulose to small reducing sugars is difficult, but essential for its utilization. To investigate the effect of graphene oxide (GO) loading on the catalytic performance of phosphotungstic acid (HPW) for the catalyzed hydrolysis of cellulose, with the purpose to get high yield of total reducing sugar (TRS). We prepared graphene oxide/phosphotungstic acid (GO/HPW) composites, which were were applied to catalyze hydrolysis of microcrystalline cellulose in 1-butyl-3-methylimidazole chloride ionic liquid ([Bmim]Cl). The samples were characterized by XRD, FT-IR, SEM, pyridine IR and acid-base chemical titration. The Brønsted acidic sites were the main source of acidity in the composites and its concentration was 0.96 mmol/g. With the use of the GO/HPW composite as catalysts for cellulose hydrolysis, TRS yield of 90.5 % was obtained. GO/HPW composites retained the functional groups of both materials. It was the Brønsted acidic sites in the materials that effectively promoted the cellulose hydrolysis reaction. The structures of GO/HPW with the agglomeration of HPW scattered on GO were beneficial to the accessibility of acidic sites and mass transfer such as the reducing sugars generated by hydrolysis to the outside of the catalysts in time to prevent their further conversion into by-products. TRS yield of 90.5 % was obtained from the hydrolysis of cellulose catalyzed by the GO/HPW (1:1.5) composites at 115 ℃ for 4 h using catalysts to celulose 1:1 ratio. None.
这项工作为纤维素的利用迈出了一步。 纤维素分子具有稳定的晶体结构。将纤维素水解成小还原糖虽然困难,但对其利用却至关重要。 为了获得高产率的总还原糖(TRS),我们研究了氧化石墨烯(GO)负载对磷钨酸(HPW)催化水解纤维素性能的影响。 我们制备了氧化石墨烯/磷钨酸(GO/HPW)复合材料,并将其用于在 1-丁基-3-甲基咪唑氯离子液体([Bmim]Cl)中催化水解微晶纤维素。样品通过 XRD、傅立叶变换红外光谱、扫描电子显微镜、吡啶红外光谱和酸碱化学滴定法进行了表征。 布氏酸性位点是复合材料的主要酸性来源,其浓度为 0.96 mmol/g。使用 GO/HPW 复合材料作为纤维素水解催化剂,可获得 90.5 % 的 TRS 产率。 GO/HPW 复合材料保留了两种材料的官能团。正是材料中的布氏酸性位点有效地促进了纤维素水解反应。GO/HPW 的结构以及散布在 GO 上的 HPW 的聚集有利于酸性位点的接近和传质,例如水解产生的还原糖可以及时转移到催化剂外部,防止其进一步转化为副产品。在 115 ℃ 下,GO/HPW(1:1.5)复合材料催化纤维素水解 4 小时,使用催化剂与纤维素的比例为 1:1,TRS 产率为 90.5%。 无。
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引用次数: 0
Numerical Investigation and Machine Learning-Based Prediction of the Effect of Using Ring Turbulators on Heat Transfer Characteristics in a Counterflow Heat Exchanger 使用环形涡轮对逆流换热器传热特性影响的数值研究和基于机器学习的预测
Pub Date : 2023-10-01 DOI: 10.2174/0124055204273603231004071130
Özgür Solmaz, Eşref Baysal, M. Ökten
Pipe-type heat exchangers are commonly used in industrial applications to facilitate heat transfer between two fluids at different temperatures without mixing them. In this study, turbulators were employed in a counterflow concentric pipe-type heat exchanger. Water at a flow rate of 50 l/h and a temperature of 298.14 K, and air at a temperature of 350 K were directed through the inner pipe. The different stages of circular turbulators placed inside the inner pipe were numerically investigated using the feasible κ-ε turbulence model. Heat transfer characteristics were examined for a turbulator-free heat exchanger and for turbulator-heat exchanger models with helical turbulators of 25, 50, 75, and 100 mm pitch at Reynolds numbers ranging from 4000 to 26000. The governing equations for three-dimensional and turbulent flow conditions in a steady state were solved using a computational fluid dynamics program based on the finite volume method. Temperature distributions and velocity contours in the heat exchanger were generated using the data obtained from numerical analysis. Additionally, predictions were made using artificial neural networks. The results revealed that the highest enhancement in heat transfer, amounting to 233.08% compared to the empty tube case, was achieved with the 25 mm pitch turbulator. The predictions made using artificial neural networks were in good agreement with the numerical analysis results. The designed turbulators for the heat exchanger model promoted turbulent flow, increased the heat transfer area, and led to an improvement in heat transfer.
管式热交换器通常用于工业领域,以促进温度不同的两种流体之间的热传递,而无需混合。本研究在逆流同心管式热交换器中使用了涡轮。流量为 50 升/小时、温度为 298.14 K 的水和温度为 350 K 的空气通过内管。使用可行的 κ-ε 湍流模型对放置在内管中的不同阶段的圆形湍流器进行了数值研究。在雷诺数为 4000 到 26000 之间的条件下,研究了无湍流器热交换器和带有 25、50、75 和 100 毫米间距螺旋湍流器的湍流器热交换器模型的传热特性。使用基于有限体积法的计算流体动力学程序求解了稳定状态下三维和湍流条件下的控制方程。利用数值分析获得的数据生成了热交换器中的温度分布和速度等值线。此外,还利用人工神经网络进行了预测。结果显示,与空管情况相比,25 毫米间距的涡轮器实现了最高的热传递增强,达到 233.08%。人工神经网络的预测结果与数值分析结果十分吻合。为热交换器模型设计的涡轮促进了湍流,增加了传热面积,从而改善了传热效果。
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引用次数: 0
Annual Performance Evaluation of a Novel Industrial-Scale Solar Dryer for Phosphogypsum Waste 新型工业级磷石膏废料太阳能干燥器的年度性能评估
Pub Date : 2023-10-01 DOI: 10.2174/0124055204264579231003111214
H. El-Ghetany, Sh. El Rafie, M.H. El-Awady, Randa M. Osman, Ahmed M. Awad Abouelata
Solar drying is considered one of the most promising technologies for drying the phosphogypsum “Calcium Sulfate Dehydrate” material as a clean source of energy and saving the environment from its negative impact if it is dried in an open landfill. The dried phosphogypsum (PG) may be recycled and utilized in many useful applications. The presented design of the trapezoidal-shaped greenhouse solar dryer is the preferable solution to perform the drying process in the daytime with solar energy. It may be usable at night, during cloudy and rainy periods, using evacuated tube solar collectors via sensible heat solar thermal energy storage. The system can be operated for 24 hours by solar energy. From theoretical calculations, it was found that the drying time decreased as the gypsum layer in the drying trays decreased due to the improvement of the heat transfer mechanism. The designed solar dryer was studied at various loading capacities depending on the gypsum thickness on the dryer trays. Capacities were 8280 kg, 6624 kg, 4968 kg, 3312 kg, and 1656 kg, corresponding to gypsum thickness of 5 cm, 4 cm, 3 cm, 2 cm, and 1 cm, respectively. The daily collected amount of water and the daily moisture content were estimated with different gypsum thicknesses during all months of the year. It was found that the solar dryer with a capacity of 1,656 kg weight was technically and economically feasible. It was also found that the maximum reduction of moisture content occurred during the summer season, while the minimum values were achieved during winter. With a mass of gypsum equal to 1,656 kg weight, the moisture content of gypsum started to decrease from its initial value (35%) until it reached the final value (10%) in 4 scenarios: the first one, 2 days from April to September, 3 days from March to November, more than 3 days in other months while the minimum moisture content, i.e., 20%, was reported in the first day in June.
太阳能干燥被认为是干燥磷石膏 "脱水硫酸钙 "材料的最有前途的技术之一,它既是一种清洁能源,又可避免在露天垃圾填埋场干燥对环境造成的负面影响。 干燥后的磷石膏(PG)可回收利用,并可用于多种有用的用途。所介绍的梯形温室太阳能干燥器设计是白天利用太阳能进行干燥过程的最佳解决方案。通过显热太阳能热能存储,利用真空管太阳能集热器,该系统可在夜间、阴雨天使用。该系统可利用太阳能运行 24 小时。通过理论计算发现,由于传热机制的改善,干燥时间随着干燥盘中石膏层的减少而缩短。根据烘干盘上的石膏厚度,对所设计的太阳能烘干机进行了不同装载量的研究。容量分别为 8280 千克、6624 千克、4968 千克、3312 千克和 1656 千克,对应的石膏厚度分别为 5 厘米、4 厘米、3 厘米、2 厘米和 1 厘米。对全年各月不同石膏厚度下的日集水量和日含水量进行了估算。 结果表明,容量为 1 656 公斤的太阳能干燥机在技术和经济上都是可行的。研究还发现,含水量的最大降幅出现在夏季,而最小值出现在冬季。 在石膏质量为 1 656 千克的情况下,石膏的含水量从初始值(35%)开始下降,在 4 种情况下达到最终值(10%):第一种情况,4 月至 9 月为 2 天,3 月至 11 月为 3 天,其他月份为 3 天以上,而最低含水量(即 20%)出现在 6 月的第一天。
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引用次数: 0
Bioleaching Extraction of Valuable Metal From E-Wastes: A Mini Review 生物浸出法提取电子废物中的贵金属:小型回顾
Pub Date : 2023-10-01 DOI: 10.2174/0124055204271800230926111857
Mingjun Jiang, Siyu He, Yongkui Zhang
Electrical waste (E-waste) is a significant global issue, with an annual generation of over 50 million tons, causing detrimental effects on both the environment and human health. However, E-waste is also known as a secondary valuable metal resource. Although hydrometallurgy and pyrometallurgy are still the preferred methods for metal recovery from E-wastes, bioleaching has gained significant attention as a promising alternative for metal recovery from E-wastes due to its sustainability, environmental friendliness, and cost efficiency. In this review, different chemical principles of bioleaching were first discussed. Major bacterial groups that can be applied in bioleaching were then introduced. The bioleaching procedures and applications have been summarized and analyzed. Finally, a few perspectives were made on potential future research on bioleaching.
电子废物(E-waste)是一个重大的全球性问题,每年产生的数量超过 5000 万吨,对环境和人类健康都造成了有害影响。然而,电子垃圾也是众所周知的二次宝贵金属资源。尽管湿法冶金学和火法冶金学仍是从电子废物中回收金属的首选方法,但生物浸出法因其可持续性、环境友好性和成本效益而备受关注,成为从电子废物中回收金属的一种有前途的替代方法。在本综述中,首先讨论了生物浸出的不同化学原理。然后介绍了可用于生物浸出的主要细菌群。对生物浸出的程序和应用进行了总结和分析。最后,对生物浸出未来的潜在研究提出了一些看法。
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引用次数: 0
Meet the Associate Editor 认识副主编
Pub Date : 2023-10-01 DOI: 10.2174/240552041605231218123439
Sambhaji Shinde
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引用次数: 0
Preparation of Carbon Nanotubes-Supported CuMn2O4 Nanocomposites for Highly Efficient Degradation of Methylene Blue Dye 制备碳纳米管支撑的铜锰氧化物纳米复合材料以高效降解亚甲基蓝染料
Pub Date : 2023-10-01 DOI: 10.2174/0124055204262886231002031407
Xuyi Chen, Tianlu Chen, N. Fathy, Yousheng Tao
Waste water containing dyes causes serious environmental problems in both aesthetic and toxicological aspects. Although physicochemical and biological treatment processes have been investigated, functional materials are highly demanded for improving the removal efficiency of dye from wastewater To synthesize a heterojunction nanocomposite of CuMn2O4/carbon nanotubes (CNTs) with outstanding catalytic performance for the effective degradation of methylene blue (MB) dye. Copper manganese oxide-carbon nanotubes (CuMn2O4/CNTs) nanocomposite was prepared by a solvothermal method. The structure and morphology of the samples were characterized with X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), transmission electron microscopic (TEM), and nitrogen adsorption/desorption on the samples at 77 K. The degradation of methylene blue dye was studied using the prepared nanocomposite as a catalyst. CuMn2O4 of small particles was loaded on CNTs, forming a porous structure with a specific surface area of 43.5 m2/g and a total pore volume of 0.17 cm3/g. The optimum conditions for achieving full breakdown in 10 minutes are 1g/L of catalyst dosage and a range of initial concentrations at 50-100 mg/L of MB dye at pH 4. The synthesized CuMn2O4/CNTs nanocomposite exhibited a good prospect as catalyst materials for the decontamination of wastewater polluted with dyes.
含有染料的废水在美学和毒理学方面都造成了严重的环境问题。为了有效降解亚甲基蓝(MB)染料,合成了一种催化性能优异的铜锰氧化物/碳纳米管(CNTs)异质结纳米复合材料。 采用溶热法制备了铜锰氧化物-碳纳米管(CuMn2O4/CNTs)纳米复合材料。以制备的纳米复合材料为催化剂,研究了亚甲基蓝染料的降解情况。 小颗粒的 CuMn2O4 被负载在 CNT 上,形成比表面积为 43.5 m2/g、总孔体积为 0.17 cm3/g 的多孔结构。在 pH 值为 4 的条件下,催化剂用量为 1g/L,MB 染料的初始浓度范围为 50-100 mg/L,是在 10 分钟内实现完全分解的最佳条件。 所合成的 CuMn2O4/CNTs 纳米复合材料在染料污染废水的净化过程中作为催化剂材料具有良好的应用前景。
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引用次数: 0
Recent Innovations and Patents of Lithium Extraction Techniques from Various Lithium Bearing Solutions 从各种含锂溶液中提取锂的最新创新和专利技术
Pub Date : 2023-08-01 DOI: 10.2174/0124055204266229230927035347
Sewar Aljarrah, A. Al-Rawajfeh, Muhammad Kashif Shahid, Qamar Ul Islam
Lithium, with its exceptional properties, such as remarkable redox activity and high specific heat capacity, finds widespread applications in thermonuclear fusion reactors, ceramics, batteries, aerospace, glass, metal additives, and photo-electricity. The growing demand for clean technology, especially electric cars and energy storage, has led to a significant rise in global lithium production. Brines now constitute a major portion of the world's lithium output, driving research in lithium extraction and purification methods. This study examines recent innovative research and patents, including various extraction techniques, sorbents, electrolysis-based approaches, and cost-effective methods. The study identifies gaps and limitations in existing lithium extraction technology and proposes future research areas to advance the field. The bibliographic analysis underscores the importance of further investigation to overcome current obstacles and drive progress in lithium extraction.
锂具有显著的氧化还原活性和高比热容等特殊性能,广泛应用于热核聚变反应堆、陶瓷、电池、航空航天、玻璃、金属添加剂和光电领域。对清洁技术,特别是电动汽车和能源储存的需求不断增长,导致全球锂产量大幅上升。卤水目前占全球锂产量的主要部分,推动了锂提取和提纯方法的研究。本研究探讨了近期的创新研究和专利,包括各种萃取技术、吸附剂、基于电解的方法和具有成本效益的方法。研究指出了现有锂萃取技术的差距和局限性,并提出了推动该领域发展的未来研究领域。文献分析强调了进一步研究的重要性,以克服当前的障碍,推动锂萃取技术的进步。
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引用次数: 0
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Recent Innovations in Chemical Engineering (Formerly Recent Patents on Chemical Engineering)
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