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刊·见 | 环境的资源枯竭如何迎来新生?Environmental Technology聚焦环境技术领域前沿发展 精选

已有 3322 次阅读 2024-2-26 13:36 |个人分类:环境与农林|系统分类:科研笔记

过度浪费、盲目开采,以及糟糕的资源管理使得环境问题日益严峻。这不仅威胁着生态平衡,更对地球和人类的未来构成严峻挑战。

本期刊·见将为您介绍环境科学领域期刊 Environmental Technology,该刊涵盖环境科学、环境工程、环境技术等多个方面的研究。本文除了对期刊进行详尽的介绍外,还向您介绍刊内近三年高被引文章,以及近一年刊内高阅读量文章:

  • 能源创新在金砖国家实现可持续发展目标中会发挥作用吗?

  • 电场应用提高污泥堆肥中溶解有机物的电子传递能力

  • 使用Aspen Adsorption软件和响应面分析法比较活性炭和低成本吸附剂去除废水中的2,4-二氯苯酚

  • 从浸出床反应器浸出液中反应萃取乳酸和乙酸以及响应面法优化工艺

Print ISSN: 0959-3330 | Online ISSN: 1479-487X

Environmental Technology 旨在快速发表环境技术领域的新发展,内容涉及应用环境研究的广泛主题,从环境工程到环境生物技术、循环经济、城市和工业废水管理、饮用水处理、空气和水污染控制、固体废物管理、工业卫生及相关技术。期刊拥有国际读者群和广泛的科学基础。

该期刊已被SCI, Scopus, MEDLINE等数据库收录。

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影响因子

根据JCR显示,Environmental Technology

  • 在环境科学领域排名162/275

CiteScore

根据Scopus显示, Environmental Technology

  • 2022 CiteScore:6.4

  • 2023 CiteScoreTracker:6.5

环境科学领域排名:

  • 水科学与技术:43/248

  • 废物管理与处置:38/120

  • 环境化学:48/139

编辑团队Environmental Technology 的主编由 Peter Jarvis(英国克兰菲尔德大学)担任。地区编辑团队由8位成员组成,其中,Asia & Australasia的地区编辑由来自香港浸会大学的黄焕忠(Jonathan W.C. Wong)教授担任。期刊编委会汇集了来自英国、中国、日本等地的行业翘楚。

主编介绍

Peter Jarvis

Peter Jarvis 教授目前就职于英国克兰菲尔德大学水科学研究所。他的研究兴趣集中在利用新型和现有技术,从饮用水源中利用先进方法去除天然有机物质和一系列其他污染物。

中国编委

顾雪元

顾雪元,南京大学环境学院教授、博士生导师。

主要研究方向:土壤中痕量元素化学形态模型、土/液界面表面络合模型、复合污染、土壤污染修复。

黄群星

黄群星,浙江大学教授、博士生导师、浙江大学能源工程学院副院长。

主要研究方向:燃烧诊断与控制优化、生活垃圾高效清洁焚烧、废橡塑等高碳固废梯级热解与高值化利用。

梁方义

梁方义,中国科学院青岛生物能源与过程研究所研究员、中国科学院大学博士生导师。

主要研究方向:无机膜材料及膜技术开发及其在环境与能源领域的应用研究;气体分离、高纯氢/高纯氧制备、CO₂捕获、碳基能源清洁高效利用等方面研究;高效催化稳定小分子的膜反应器结构设计、过程强化新工艺研究、相关膜组件开发。

梁嘉林

梁嘉林,仲恺农业工程学院资源与环境学院特聘副教授。

主要研究方向为固体废物处理处置与资源化。

徐苏云

徐苏云,上海理工大学环境与建筑学院副教授。

主要研究方向:固废处理与资源化、有机固废生物处理、厌氧消化、环境微生物技术。

张林

张林,浙江大学教授、浙江大学化学工程与生物工程学院副院长。

主要研究方向:以水资源和健康方向的重大需求作为研究重点,致力于膜科学与技术在上述领域中应用的关键科学问题。

赵峻

赵峻,香港浸会大学理学院生物系助理教授。

主要研究方向:生物质转化、环境催化、废物处理和利用、清洁能源。

郑冠宇

郑冠宇,南京农业大学资源与环境科学学院教授、博士生导师、院长助理。

主要研究方向:污泥处理、环境中抗生素抗性控制、稻田土壤污染控制。

周俊

周俊,南京工业大学教授、博士生导师、南京工业大学生物能源研究所所长。

主要研究方向:废弃碳资源生物炼制、环境生物技术、化工“三废”治理新技术与资源化、生物能源环保工程等。

周耀渝

周耀渝,湖南农业大学教授、博士生导师、资源与环境专业硕士学位点领衔人。

主要研究方向:固体废物资源化、污染土壤底泥修复。

作者分布

根据JCR显示,近三年在 Environmental Technology 发文的国家中,发文数量排名前三位的是

  • 中国

  • 巴西

  • 印度

近三年,在 Environmental Technology 发文的全球高校和科研机构中,发文数量排名前三位的是:

  • 中国科学院

  • 法国国家科学研究中心

  • 巴西圣保罗大学

近三年刊内被引文章

能源创新在金砖国家实现可持续发展目标中会发挥作用吗?

作者:Muhammad Awais Baloch et al.

文章摘要:

It is widely discussed that greenhouse gases (GHGs) are the main culprit behind global warming. The conventional energy sources (oil, coal, and gas) mainly realize GHGs in the atmosphere. Due to this, the world’s countries are switching towards clean energy sources and investing more in projects related to innovation in the energy sector. Thus, this study investigates the role of energy innovation in combating GHGs emissions by taking the environmental Kuznets curve for BRICS economies. The FMOLS and DOLS estimators are employed throughout 1996-2016. The findings documented that energy innovation plays an important role in mitigating GHGs emissions. Moreover, the result strongly approves the EKC hypothesis for BRICS countries in the significance of energy innovation. Finally, it is recommended that expanding the public budget in energy R&D expenditures can help to reduce GHG emissions and promote sustainable growth in BRICS countries.

电场应用提高污泥堆肥中溶解有机物的电子传递能力

作者:Zhihan Tan et al.

文章摘要:

Dissolved organic matter (DOM) plays an important role in heavy metal passivation and organic pollutant degradation owing to its redox ability. The structure and composition of DOM are determinants of redox ability changes during composting. Electric field-assisted aerobic composting (EAAC) has been shown to promote the degradation and humification of organic matter in compost. However, how EAAC affects the redox ability of DOM remains unclear. Hence, electron transfer capacity (ETC) of DOM extracted from EAAC was studied using the electrochemical method. Various spectral methods, such as excitation–emission matrix and ultraviolet and visible spectrophotometry were used to study the relationship of ETC with the compositional and structural changes of DOM. Results indicated that EAAC enhanced ETC of DOM at the later stage of composting, and ETC of DOM extracted from the final EAAC product was 10.4% higher than that of the control group. Spectral and correlation analyses showed that EAAC resulted in structural and compositional changes of DOM, and humification degree, aromatic compounds, molecular weight, and fulvic- and humic-like substance contents were improved in EAAC. This conversion increased ETC of DOM. Results of this study will contribute to the understanding of the redox of DOM and in expanding the application of EAAC products.

近一年刊内高阅读量文章

使用Aspen Adsorption软件和响应面分析法比较活性炭和低成本吸附剂去除废水中的 2,4-二氯苯酚

作者:Hassnain A. Yasir et al.

文章摘要:

In this paper, the adsorption of the chlorinated organic compound, 2,4-dichlorophenol, using activated carbon (AC), bagasse fly ash (BFA) and rice husk fly ash (RHFA) in a packed bed column was simulated using Aspen Adsorption software. The purpose of this study was to demonstrate the effectiveness of simulation software for identifying alternative low-cost adsorbents and optimising the adsorption process. The effect of process parameters such as initial concentration, bed height and inlet feed flow rate were evaluated using breakthrough curves. It was shown that the longest breakthrough times were at a higher bed height of 3 m and lower flow rate of 2 m3/hr and concentration had no effect on breakthrough time. After optimisation using response surface methodology, the AC, BFA and RHFA had a breakthrough time of 534, 426 and 209 s, respectively. This shows the potential of BFA as a potential alternative for AC for the adsorption of 2,4-dichlorophenol and shows RHFA to be a relatively poor adsorbent in comparison. The economic evaluation illustrates that the overall cost of wastewater treatment with BFA and RHFA is lower than AC. The cost for the BFA and RHFA adsorbents is only a handling charge, but the cost for using AC adsorbent is £10,603/year. Therefore, the company can produce 17,520 m3/year of fresh water from the adsorbent and save £87,600/year. Therefore, it was concluded that BFA had a slightly weaker adsorption efficiency than AC but was more cost effective, allowing it to be more affordable and increasing its availability.

从浸出床反应器浸出液中反应萃取乳酸和乙酸以及通过响应面法优化工艺

作者:Debkumar Chakraborty et al.

文章摘要:

The present work focused on extracting lactic and acetic acids from the leachate collected from leached bed reactor (LBR) during acidogenesis of food waste using the reactive extraction (RE) process. A wide range of diluents was screened either alone by physical extraction (PE) or in combination with extractants using RE to extract acids from the VFA mix. Aliquat 336-Butyl acetate/MIBK extractants in RE demonstrated higher distribution coefficients (k) and extraction yield (E %) than PE. The response surface methodology (RSM) was used to optimize the extraction of lactic and acetic acids from the synthetic acid mix, using three variables (extractant concentrations, solute/acid concentration and time). Consequently, these three variables were optimized for LBR leachate. The RE was promising, and extraction efficiencies of 65% (lactate), 75% (acetate), 86.2% (propionate) and almost 100% for butyrate and medium-chain fatty acids (MCFA) were achieved after 16 h of extraction. The RSM optimization predicted a maximum E % of 59.60% and 34.67% for lactate and acetate in 5.5 and 1.17 min, respectively. In the leachate experiment, an increase in E% and k was observed with increasing extractant concentration and lactate and acetate concentrations over time. Using a 1M reactive extractant mix and 1.25 and 12 g/L of solute concentrations, the maximum E % of acetate and lactate were 38.66% and 61.8% in 10 min. The results could contribute to developing a rapid in-situ product recovery system integrated with food waste acidogenesis for lactate and acetate recovery, contributing to the bio-economy.

审稿周期

  • 从提交稿件到获取初审意见,平均需要1天

  • 获取首个同行评审决定,平均需要55天

  • 稿件一旦接受后,在线出版平均需要14天

作者须知

收稿类型

  • Research Article

  • Book Review

  • Data Note

请注意,Environmental Technology 不会发表任何综述文章,除非是编辑明确说明的情况。如果您想发表相关主题的综述文章,请将您的稿件提交给本刊的姐妹期刊 Environmental Technology Reviews

为帮助更多科研人员选择更加合适的期刊,Taylor & Francis推出专栏——刊·见,该专栏致力于为读者和广大科研人员带来Taylor & Francis旗下期刊的详细解读,从期刊的基本情况、编委阵容、社会影响力到审稿速度、高被引文章等实用信息,专栏将为您带来最详细的介绍,让您更加全面地了解Taylor & Francis旗下优秀的国际期刊,帮助更多中国卓越科研成果顺利在国际期刊上发表。



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