2021年是发布基础版的最后一年,2022年起将只发布升级版。所以2022年开始,大家不必再纠结是看基础版还是升级版,科研评价更加明确。什么是期刊分区?关于期刊分区影响较为广泛的有两种,一种是科睿唯安公司制定的分区(原来是汤森路透,后来易主科睿唯安),第二种是中国科学院国家科学图书馆制定的分区(简称中科院分区)。这两种分区方式均基于 SCI 收录期刊影响因子基础之上进行分区的。汤森路透分区:汤森路透每年出版一本《期刊引用报告》(Journal Citation Reports,简称JCR)。JCR对86 000多种SCI期刊的影响因子(Impact Factor)等指数加以统计。JCR将收录期刊分为176个不同学科类别。每个学科分类按照期刊的影响因子高低,平均分为Q1、Q2、Q3和Q4四个区。各学科分类中影响因子前25%(含25%)期刊划分为Q1区,前25%~50% (含50%)为Q2区,前50%~75% (含75% )为Q3区, 75%之后的为Q4区。汤森路透分区中期刊的数量是均匀分为四个部分。中科院分区:中科院首先将JCR中所有期刊分为数学、物理、化学、生物、地学、天文、工程技术、医学、环境科学、农林科学、社会科学、管理科学及综合性期刊13 大类。然后,将13大类期刊分各自为4个等级,即4个区。按照各类期刊影响因子划分,前5%为该类1区、6% - 20%为2区、21% -50% 为3区,其余的为4 区。显然在中科院的分区中,1区和2区杂志很少,杂志质量相对也高,基本都是本领域的顶级期刊。中科院分区中四个区的期刊数量是从1区到4区呈金字塔状分布。两者的区别:1、中科院期刊分区表常用1-4区,且分区前常用大类或者小类,常用说法为某本期刊在大类某学科为某区。而汤森路透期刊分区常用Q1-Q4(Q表示Quartile in Category),即4个等级中所处的位置,常用说法为某本期刊位于某学科的Q几。2、JCR的Journal Ranking没有设置大类学科,只分为176个具体学科,也就是中科院分区表中所指的小类学科。3、两者最大的不同在于分区方法。在中科院期刊分区表中,主要参考3年平均IF作为学术影响力,最终每个分区的期刊累积学术影响力是相同的,各区的期刊数量由高到底呈金字塔式分布;在JCR的Journal Ranking中,主要参考当年IF,最终每个分区的期刊数量是均分的。
SCIENCE OF THE TOTAL ENVIRONMENT
需要了解期刊和投稿的都可以访问壹品优刊。把你文章情况简介一下,杂志发行周期等也告知编辑。
具体可以去小木虫上相关界面搜索下
2017版北大核心期刊环境科学学科排名靠前的期刊依次为:环境科学学报、环境科学、中国环境科学、环境科学研究、农业环境科学学报、生态环境学报、环境科学与技术、环境工程学报、环境化学 、生态与农村环境学报等
其实就三点:1、布局不能乱,要有视觉美感;2、色彩搭配要符合审美要求; 3、要有创意元素,也就是诉求点。 建议你上 创意中国 网站上看看,很多不错作品
SCIENCE OF THE TOTAL ENVIRONMENT
《Journal of Sustainable Development》(中文译名:可持续发展)是经加拿大国际期刊管理局批准出版的英文学术期刊,加拿大国家图书档案馆收藏,CANADIANA检索收录。 根据国内多所著名大学和科研机构学术期刊分级标准,《Journal of Sustainable Development》属于国际重要学术期刊,级别仅次于四大检索(SCI、EI、ISTP、SSCI)收录期刊,属于B级/二级学术期刊。 《Journal of Sustainable Development》创刊于2008年,侧重可持续发展研究。《Journal of Sustainable Development》由著名社会学家Amy King教授担任总编,由来自北美、亚洲、欧洲和大洋洲等多国专家学者组成编委会。该期刊以英文为出版语言,每年三期。其内容主要包括:环境科学与技术,环境经济与政策,生态学和可持续发展等相关领域。 《Journal of Sustainable Development》可接收的稿件包括:环境科学与技术,环境经济与政策,生态学和可持续发展等相关领域。 另外推荐去 可查生态环境类的外国英文刊物。注意:《Journal of Sustainable Development》创刊于2008年,历史太短,也许没有权威!
排名要到一些大型的网站查看。一般自己查不了的。
那个是核心的啊
希望对你有帮助中国钨业杂志,投稿邮箱,;中国有色冶金杂志,投稿邮箱,;资源开发与市场杂志,投稿邮箱,;钢铁研究学报杂志,投稿邮箱,;材料与冶金学报杂志,投稿邮箱, hujizz ;环境保护杂志,投稿邮箱,enprma ;
是的,一直是的。
既是 中文核心期刊,又是 中国科技核心期刊是双核心期刊。版面费 每页 200元到 600元不等。
doi:1016/004 Copyright © 2008 Elsevier Ltd All rights Experimental evaluation of the growth rate of mould on finishes for indoor housing environments: Effects of the 2002/91/EC directive Marco D'Orazioa, , , Marco Palladinia, Lucia Aquilantib and Francesca Clementib aDepartment of Architecture Construction and Structures - DACS, Università Politecnica delle Marche, Via Brecce Bianche, 60131 Ancona, Italy bDepartment of Food Science, Agricultural-Engineering, Physics, Agricultural Economics and Landscape Science - SAIFET, Università Politecnica delle Marche, Via Brecce Bianche, 60131 Ancona, Italy Received 15 May 2008; revised 3 November 2008; accepted 5 November Available online 21 November Abstract We report the results of a study to evaluate the growth rate of three species of mould on plasters, finishes and paints typically used in structures with heavy weight building The aim was to determine the influence of the chemical composition (in terms of organic fraction of the materials) on the growth rate of The study was carried out in the following steps: – characterization of materials; – inoculation of mould spores (3 species) on 7 types of material (2 plasters, 3 finishes, 2 paints); – growth in a climatic chamber (23 °C and 90% RH); – analysis of the mould growth rate using various experimental techniques (fluorescence microscopy analysis, thermogravimetric analysis, ) Results show a clear correlation between the organic substances contained in paints, plasters and finishes and the growth rate of the This study is part of a more general research program which addresses the effects on indoor environment air quality based on the European directive 2002/91/EC This directive specifically indicates that energy consumption in buildings should be limited and sets threshold values for the thermal resistance of the building walls and As a consequence window manufacturers are improving the thermal property of windows by reducing the air permeability, which may increase the indoor and surface relative humidity percentage (RH%) and lead to the development of mould in the indoor Keywords: Mould; Plaster; Paint; Biocontamination Article Outline Introduction Steps, materials, methods Steps Materials Methods Results Preliminary characterization Growth rate of the mould Correlation between the mould growth area and the content of organic substances Conclusions References Introduction The tendency in industrialized countries to reduce energy consumption has been accelerated in the EC member states by the introduction of the 2002/91/EC directive [1] In fact, this directive fixed the minimum requirements which must be respected when building new structures and when renovating existing buildings so as to have a more effective reduction in energy consumption for the air-conditioning of indoor This strategy has, however, led to some undesired Windows manufacturers are currently producing systems with low permeability (class A4 UNI EN 12207, 2000) in order to obtain better thermal A reduction in permeability, in buildings which are already characterized by a limited amount of air exchange, can increase the indoor and surface RH% in winter [16] Consequently there may be an increased growth of mould species on some parts of the Numerous studies have been conducted in recent years to address the environmental aspects that favour the growth and the subsequent sporulation of fungi Rousseau [2] and Hud [3], indicate the following factors: oxygen availability; a suitable temperature range; a substrate of deposit that acts as nourishment; and a certain degree of humidity [4], [34] and [36] Krus et [5] have studied these conditions, together with a series of other specific factors that can influence the growth of fungi: pH value and the roughness of the substrate on which the mould grows, the light, the biotic interaction and the exposure Baughman and Arens [6] have underlined that, although moulds can grow at temperatures between 0 °C and 40 °C, a range going from 22 °C to 35 °C can be considered optimal for the species that are most frequently found inside On the contrary, the level of airborne spores in the indoor environment, which is one of the conditions able to influence the development of moulds, is dependent on seasonal changes in the external environment [7] Adan [7] has verified that there are a considerable number of buildings that offer favourable temperature conditions for the germination and the growth of mould on construction material and indoor environment Sedlbauer [8], [9], [10] and [11] has recently completed an important research and development study of models which are able to estimate mould growth inside buildings, classifying the various These different authors appear to be in agreement, however, in indicating that different kinds of fungi require minimum levels of humidity in the support surface material in order to proliferate and these values vary for different species [6], [12] and [35] Ayerst [12] has conducted experiments in order to characterize the ideal conditions and the minimum values of humidity required in the substrate for mildew These experiments indicate a range between 71% and 94%, according to the fungi Moulds (typically present on construction materials) can be separated into three groups on the basis of their water activity (aw) [13]: primer colonizer or storage moulds, capable of growing at aw < 8; secondary colonizer or phyllophane fungi, requiring a minimum aw between 8 and 9; and tertiary colonizer or water-damage moulds, needing aw > The last class includes the most toxic mould species for human Although each species has a preferential humidity for growth, the International Energy Agency [33] indicates an average RH% of 80% as the critical threshold for mould A reduction in moisture content in building materials to below 80% RH% is, therefore, the way to reduce mould Only a limited amount of information is available about the influence of the composition of the finish materials on the germination and development, in terms of percentage, of 可以的话留下你的联系e-MAIL 这种文章太多了 就随便搞了一篇的一部分让你看看·· 明天帮你找找!至于翻译的话比较困难··看情况,找到的话给你翻译个abstract吧·
中文核心期刊目录总览(第五版)》。 环境科学,安全科学 环境科学 中国环境科学 环境科学学报 环境化学 环境污染治理技术与设备 环境科学研究 环境保护 环境污染与防治 环境工程 农业环境保护(改名为:农业环境科学学报)化工环保 工业水处理 海洋环境科学 中国环境监测 环境科学与技术 水处理技术 农村生态环境 应用与环境生物学报 中国人口、资源与环境 长江流域资源与环境 环境监测管理与技术 自然灾害学报 水资源保护 要查询影响因子,可在baidu中输入:“环境类核心期刊影响因子查询”
我推荐一个比较好发的《现代园艺》杂志,我们能快速 发
环境类的不怎么了解,你要知道排名的就只能自己到那些网站上查了。
是否考虑增加这些:开篇总介绍节点意向图夜晚灯光效果图尺寸标注平面图水电标注平面图植物配置图(或软装的配置图)厉害的话,你再整个施工报价出来。我不是学这个专业的,进来说几下自己的看法而已,抛砖引玉哈
楼主投稿了没,怎么样
不太难。看情况而定。环境工程研三准备毕业。这个一方面看课题组情况,另一方面看个人,如果只是为了毕业,sci论文不会太难,要是想发一篇好文章,上述两点缺一不可,而且还需要天时地利人和。论文二区就是发表在sci二区期刊上的论文,当我们看到一区二区这样的期刊分区的时候,首先应当反应过来这是sci期刊独有的分区方式,其他刊物是没有这种分区的,sci期刊这种分区与其他标准的级别划分意义和目的都是一样的,对刊物便于管理归类,作者选刊效率也会更高。sci期刊的分区主要是依据刊物的影响因子来划分的,二区期刊不论是中科院分区还是jcr分区,都是属于影响因子较高的期刊,二区期刊各方面指标仅次于一区期刊,因此学术价值非常高,在国内很多领域中,有越来越多的sci论文发表要求都是要求发表二区及以上分区的期刊,也就是只认可二区和一区期刊,所以二区期刊的地位和作用是显而易见的。