Effect of bulk density of coking coal on swelling pressure

Coking coals are the important raw materials for the iron and steel industries and play an important role on its sustainable development, especially on the stamp-charging coke making with the characteristics of increasing the bulk density. There is a significance on the reasonable usage of the coking coal resource with the reduced production cost, improved efficiency of the economy to develop the stamp-charging coke making technology. Important effects of the density of coking coal on the coking and caking properties were investigated. In the article, the maximum values of swelling pressure and variation of Laowan gas coal and Xinjian 1/3 coking coal, Longhu fat coal and Didao coking coal, which were mined at Shenyang and Qitaihe respectively, were investigated under different bulk densities during the coking. The results showed that when the values of density increased from 0.85 ton/m³ to 1.05 ton/m³, for the Laowan gas coal, swelling pressure variation and even the maximum value changed slightly. The swelling pressure was 3.63 KPa when the density was improved to 1.05 ton/m³; for the Xinjian 1/3 coking coal, the values of swelling pressure changed significantly and the maximum values was 82.88 KPa with the density improved to 1.05 when the coal was heated to 600℃. The coke porosity, which was investigated by automatic microphotometer, decreased from 47.4% to 33.1% with the increasing of the density from 0.85 ton/m³ to 1.05 ton/m³, and the decreased value was 14.3%. Meanwhile, the pore structures of four cokes were characterized by an optical microscope.     

Effect of mass fraction of long flame coal on swelling pressure and microstructures of cokes

Long flame coal are abundant and widely distributed in China, but the resource utilization is quite low, the production efficiency is not high. Stamp-charging coke making technology can bend some long flame coal, which can reduce production cost and expand the coking coal resources. The long flame coal of different mass fraction is added into prime coking coal including fat coal from Longhu, 1/3 coking coal from Xinjian and coking coal from Didao in experiment. The swelling pressure is tested on-line detection using pressure sensor in coke making process, and the pores are observed by scanning electron microscopy. The results show that, the swelling pressure first increase and then decrease with the temperature increased and the maximum swelling pressure reduces gradually with mass fraction of the Long flame coal from Shenmu increased in coke making process. The SEM images of resultant coke display that the coke get more and more loose and the amount of pores is increased with mass fraction of the long flame coal from Shenmu increased. The amount pores and the pore diameter both is minimum for coking coal from Didao as prime coking coal under the same fraction of long flame coal.     

Effect of bulk density of coking coal on swelling pressure

Coking coals are the important raw materials for the iron and steel industries and play an important role on its sustainable development, especially on the stamp-charging coke making with the characteristics of increasing the bulk density. There is a significance on the reasonable usage of the coking coal resource with the reduced production cost, improved efficiency of the economy to develop the stamp-charging coke making technology. Important effects of the density of coking coal on the coking and caking properties were investigated. In the article, the maximum values of swelling pressure and variation of Laowan gas coal and Xinjian 1/3 coking coal, Longhu fat coal and Didao coking coal, which were mined at Shenyang and Qitaihe respectively, were investigated under different bulk densities during the coking. The results showed that when the values of density increased from 0.85 ton/m³ to 1.05 ton/m³, for the Laowan gas coal, swelling pressure variation and even the maximum value changed slightly. The swelling pressure was 3.63 KPa when the density was improved to 1.05 ton/m³; for the Xinjian 1/3 coking coal, the values of swelling pressure changed significantly and the maximum values was 82.88 KPa with the density improved to 1.05 when the coal was heated to 600°C. The coke porosity, which was investigated by automatic microphotometer, decreased from 47.4% to 33.1% with the increasing of the density from 0.85 ton/m³ to 1.05 ton/m³, and the decreased value was 14.3%. Meanwhile, the pore structures of four cokes were characterized by an optical microscope.     

煤矸石堆放对土壤环境PAHs污染的影响

为探讨煤矸石堆放对土壤环境的有机污染效应,以典型煤矸石区——平煤十二矿为例,利用GC-MS技术对煤矸石、表层土壤及降尘样品中多环芳烃(PAHs)含量及化学组成特征进行了检测,将PAHs空间分布、环数分布、优势组成与分子标志物参数相结合,定性剖析了煤矸石堆放对表层土壤PAHs污染的贡献.煤矸石、降尘和土壤表层中PAHs综合分析表明,煤矸石堆积区表层土壤US EPA 16种优控PAHs(PHA₁₆)总量为0.94~5.66 μg·g^-1,属严重污染;表层土壤PAH₁₆总量与煤矸石山距离呈负相关关系;煤矸石、降尘及表层土壤中PAHs均为富3环特征,以菲、苯并荧蒽、、荧蒽及芘为优势组成;煤矸石扬尘直降、煤矸石燃烧、原煤煤尘降落和燃烧对土壤环境PAHs均有输入,但近源区煤矸石扬尘直降贡献明显,煤矸石扬尘使煤矿区土壤环境中PAHs污染具有面源贡献的特点,应引起重视.     

煤矿复垦地不同覆土厚度对小麦产量影响研究——以淮南煤矸石充填耕地复垦地为例

在淮南新庄孜煤矸石充填耕地复垦地中以覆土厚度水平作为控制因素研究其对小麦产量的影响及其相关性。在一定覆土厚度范围内,不同覆土厚度对小麦产量产生了显著性影响;小麦产量与覆土厚度有高度的线性正相关。其主要原因是底层充填煤矸石颗粒粗糙、坚硬,没有粘性呈分散状,机械阻力大,保水保肥能力弱;覆土厚度薄的地块与厚度厚的地块相比能储存持有的养分水分少进而影响其养分水分的提供。     

青岛市臭氧污染与非污染期间VOCs化学特征及来源解析

青岛市夏季臭氧浓度水平高且污染事件频发,开展臭氧污染过程和非污染时期的挥发性有机物(VOCs)及其臭氧生成潜势(OFP)的精细化来源解析研究,对于有效降低沿海城市的大气臭氧污染,持续改善环境空气质量将会发挥重要的作用.因此,利用青岛市2020年夏季(6～8月)小时分辨率的在线VOCs监测数据,分析臭氧污染过程和非臭氧污染时期环境VOCs的化学特征,并通过正定矩阵因子分解(PMF)模型进行了环境VOCs及其OFP的精细化来源解析研究.结果表明,青岛市夏季环境ρ(TVOCs)平均值为93.8μg·m^-3,臭氧污染过程相较于非臭氧污染时期TVOCs浓度上升了49.3%,其中芳香烃浓度增加最显著,增加了59.7%.夏季环境VOCs总的OFP达到246.3μg·m^-3,臭氧污染过程相较于非臭氧污染时期环境VOCs的总OFP增加了43.1%;其中烷烃增加最多,增加了58.8%.间-乙基甲苯和2,3-二甲基戊烷是臭氧污染过程中OFP增加幅度最大的物种.青岛市夏季环境VOCs的主要贡献源为柴油车(11.2%)、溶剂使用(4.7%)、液化石油气及天然气(27....     

基于WRF-CMAQ/ISAM模型的榆林市夏季O3来源解析

为了更清楚地了解榆林市夏季臭氧污染来源,提出科学的治理建议,利用WRF-CMAQ模型对2019年7月榆林市和周边地区(包含太原市、西安市、银川市和呼和浩特市等省会城市)的O₃浓度进行模拟;利用ISAM模块,对榆林市一次重污染过程的O₃和其前体物NO_x、 VOCs来源进行量化.结果表明,重污染日榆林市的O₃主要来自模拟区域外的远距离传输(55.5%),其次是模拟区域内前体物的光化学反应生成(20.6%,榆林市、山西省、内蒙古自治区和陕西省依次为10.0%、 5.0%、 2.3%和2.1%,甘肃省、宁夏回族自治区和河南省合计为1.2%)和初始条件(0.3%),剩余来源(23.6%)未能被成功标记;榆林市处于VOCs控制区,其VOCs由烷烃(76.5%)、酮类(9.2%)和其它种类的VOCs(14.3%)构成,VOCs来源有模拟区域内的污染源排放(45.6%,榆林市、山西省、内蒙古自治区和陕西省依次为22.0%、 11.4%、 6.3%和5.1%,甘肃省、宁夏回族自治区和河南省合计为0.8%)和模拟区域外...     

基于铁塔观测的深圳大气VOCs垂直分布特征

2018年8～9月,利用深圳市铁塔的11个垂直梯度平台进行了9轮挥发性有机物(VOCs)不锈钢罐采样,并应用气相色谱质谱联用仪(GC/MS)对103种VOCs组分进行定量分析,研究不同垂直高度上VOCs组分特征及对近地面臭氧(O₃)生成的影响.结果表明,从地面到345m高空VOCs总体污染水平相近,在垂直梯度上变化不大;但烯烃浓度随高度上升呈现下降趋势,主要受地面天然源排放的异戊二烯主导.结合典型物种及物种对的分析发现,日间的二次生成、工业排放和光化学反应消耗是影响垂直梯度上VOCs浓度变化的主要原因.应用混合层梯度方法对VOCs通量进行计算发现,烷烃(28%)和芳香烃(23%)的通量贡献最多;二氯甲烷(1.93±0.29)mg/(m²·h)、甲苯(1.86±0.39)mg/(m²·h)具有较高的垂直通量值.结合二氧化氮(NO₂)和O₃垂直廓线的关系分析得出,总挥发性有机物(TVOCs)/NO₂在300m以上高空达到峰值,更加有利于O₃     

京津冀地区典型印刷企业VOCs排放特征及臭氧生成潜势分析

本研究在京津冀地区选取23家典型印刷企业进行调研,并对其中具备采样条件的企业通过气袋采样-GC-MSD/FID采集及分析系统,获得48组分析结果,定量分析了京津冀地区印刷企业VOCs的排放特征,并估算其臭氧生成潜势.结果表明,各企业排气筒有组织排放的VOCs(以非甲烷总烃表征)浓度差异很大,包装印刷企业VOCs排放浓度范围为29. 9～755. 0 mg·m~(-3),出版物印刷企业VOCs排放浓度范围为3. 3～99. 0 mg·m~(-3);各企业车间印刷工位中,包装印刷企业VOCs排放浓度在129. 7～958. 4 mg·m~(-3)之间,出版物印刷企业VOCs排放浓度范围为19. 1～113. 7 mg·m~(-3);包装印刷企业排放的VOCs浓度普遍高于出版物印刷企业,这与其使用溶剂型油墨有关. VOCs组分构成方面,包装印刷和出版物印刷企业印刷工位排放的VOCs中,含氧VOCs均为首要VOCs种类,占比在32. 6%～99. 4%之间,其次是烷烃.臭氧生成潜势方面,印刷企业臭氧生成潜势(OFP值)平均值为505. 5 mg·m~(-3),其中包装印刷企业为564. 1 mg·m~(-3),出版物印刷企业为52. 9 mg·m~(-3);臭氧生成系数(SR值)平均值为1. 24 g·g-1,其中包装印刷企业为1. 70 g·g-1、出版物印刷企业为0. 89 g·g-1.从OFP值和SR值可以看出,包装印刷企业应作为未来京津冀地区印刷行业VOCs管控的重点.     

中国室内挥发性有机物污染特征

近年来室内空气污染问题频发,已引起全社会的广泛关注.挥发性有机物(volatile organic compounds,VOCs)是室内空气的主要污染物之一,其成分复杂,来源广泛,严重威胁人体健康.本文综述了中国近十年来室内VOCs在来源、浓度水平、影响因素及健康评价方面的研究进展.研究表明,室内建筑装修材料、人类活动及室外污染等来源都会影响VOCs的室内浓度;中国住宅内甲醛、苯等VOCs污染普遍存在,家具市场是甲醛污染最高的公共场所;VOCs浓度受到温湿度、通风和装修时间等因素影响;中国室内部分VOCs对人体健康影响评估值超过美国环保署可接受水平.调查更全面的室内VOCs数据,探索对各类因素影响机制,提出更有效降低VOCs对人体健康影响的措施将是未来室内空气治理重点发展方向.