基于P89C668单片机的智能定硫仪系统设计

该仪器根据GB214-2007《煤中全硫的测定方法》库仑滴定法原理设计,全部测试过程采用单片机自动控制,系统主要侧重于电路简单、系统抗干扰能力强、测硫精度高和控制温度科学等方面的研制。该方法与目前采用的艾士卡重量分析法和高温燃烧中和法相比具有测定迅速、结果准确的优点。     

城市垃圾渗滤液烟气脱硫体系气液吸收与解吸过程的数学模拟

针对垃圾渗滤液烟气脱硫体系气液吸收和解吸过程反应复杂的特性,基于经典双膜传质理论,建立了填料塔内湿法烟气脱硫模型,包括填料塔反应器模型和烟气SO2在垃圾渗滤液中吸收并伴随氨的解吸过程的数学模型。模型将系统内复杂的多组分反应分解为独立的离子反应,从而在确定的独立反应的条件下,可使模型的数值求解不依赖于特殊的假设条件以及可变的操作条件。根据工艺研究的实验条件对模型赋初值,结合模型参数估值确定适宜的边界条件,采用Maple 8.0对模型方程进行求解,得到了液膜内各组份的浓度分布特性曲线,以及气相分压、pH值、传质阻力、传质速率、吸收增强因子等沿塔高的分布特性,结果表明模型预测结果和实验结果吻合良好。所建立的模型为本工艺过程和其它湿法烟气脱硫过程的传质-反应现象提供了一个定量的理论分析和工程设计基础。     

Environmental and climate justice and technological carbon removal

Environmental justice (EJ) and climate justice are becoming central foci of climate policy. Awareness is also growing on the need for some amount of carbon dioxide removal (CDR) to curb warming to 1.5 °C. In this paper we map dimensions of environmental and climate justice that stakeholders and communities will need to consider -- from local to global scales. Mapping issues is a step towards developing frameworks to undertake CDR in an environmentally just way.     

Interactions of dynamic supercritical CO2 fluid with different rank moisture-equilibrated coals:Implications for CO2 sequestration in coal seams

The interactions between CO2 and coals during CO2-ECBM (CO2 sequestration in deep coal seams with enhanced coal-bed methane recovery) could change pore morphology and chemistry property of coals,thereby affecting adsorption,diffusion and flow capability of CO2 and CH4 within coal reservoirs.To sim-ulate CO2-ECBM process more practically,the dynamic interactions of supercritical CO2 (scCO2) and moisture-equilibrated coals were performed at temperature of 318.15 K,pressure of 12.00 MPa,and duration of 12.00 h.The impacts of the interactions on physicochemical properties of coals were inves-tigated.Results indicate that scCO2/H2O exposure shows minor effect on micropores of coals.However,the exposure significantly decreases the mesopore surface area of bituminous coals,while increases that of anthracites.The mesopore volume and the average mesopore diameter of all the coals after scCO2/H2O exposure decrease.The multi-fractal analysis verifies that the scCO2 exposure can enhance the pore con-nectivity of various rank coals.Apart from the pore morphology,the exposure of scCO2/H2O also affects the oxygenic functional groups on coal surface.Particularly,the exposure of scCO2/H2O reduces the con-tent of C-O and C=O of coals.The content of COOH of low rank coals including Hehua-M2# coal,Zhongqiang-4# coal,Buliangou-9# coal and Tashan-5# coal decreases,while the high rank Laochang-11# coal and Kaiyuan-9# coal witness a growth in COOH.The content of total oxygenic functional groups of all coals after interaction with scCO2/H2O decreases;on the contrary,that of C-C/C-H of all coals after SCCO2/H2O exposure increases.In summary,the interaction with SCCO2/H2O significantly changes the pore system and oxygenic functional groups of various rank coals,which needs further attention regard-ing CO2-ECBM.     

不同晶型纳米二氧化锰制备及对亚甲基蓝吸附性能

以高锰酸钾（KMnO₄）为氧化剂、硫酸亚铁铵[（NH₄）₂Fe（SO₄）₂]为还原剂,用水热氧化还原反应制备了层状δ-二氧化锰和隧道型α-二氧化锰纳米材料。用X射线衍射（XRD）、扫描电镜（SEM）和氮气吸-脱附技术对产物的晶型、形貌及孔结构进行了表征。实验结果表明,δ-二氧化锰呈花状微球形貌,具有介孔结构（平均孔径为3.4 nm）,BET比表面积为219 m²/g;α-二氧化锰呈纳米线束形貌,具有部分介孔结构（平均孔径为35.7 nm和154.6 nm）,BET比表面积为26 m²/g。研究了不同晶型纳米二氧化锰对亚甲基蓝的吸附性能。实验结果表明,在相同条件下α-二氧化锰的吸附性能优于δ-二氧化锰,且在碱性环境下吸附效果较好。当反应时间达到120 min时,α-二氧化锰和δ-二氧化锰对亚甲基蓝的去除率分别为84.4%和82.9%。     

掺杂铁的二氧化铅电极的制备及性能研究

主要研究了不锈钢/PbO₂电极和掺杂的不锈钢/Fe-PbO₂电极的制备,用其对有机废水的处理效果及影响因素来评价该电极的性能。实验结果表明:采用恒流阳极电沉积技术制备的PbO₂电极,掺杂和不掺杂铁的电极主要成分都是β-PbO₂;两电极外观都没有明显的裂纹等缺陷,掺杂铁的二氧化铅镀层颗粒大小镶嵌,很好地清除了内应力,保证了基材与镀层不易脱落,未掺杂铁的二氧化铅镀层颗粒细小、均匀,内应力有些大;将Fe（NO₃）₂添加至电沉积溶液中,致使PbO₂电沉积层的析氧电位向正方向移动,改善了PbO₂电极的电催化活性,以至于更有利于氧化降解有机物。用改性的Fe-PbO₂电极和常规的PbO₂电极分别降解初始浓度相同的邻苯二酚和苯酚有机物废水,改性的Fe-PbO₂电极对苯酚和邻苯二酚的去除率均高于常规的PbO₂电极。掺杂铁的二氧化铅电极较未掺杂电极有更好的电催化活性,更高的析氧电位,更适宜于用作电催化阳极。     

NiFeAlO4载氧体制备及煤化学链燃烧反应特性

铁基载氧体是一种具有工业应用前景的载氧体,但存在氧利用率低、在高温下易烧结等问题。虽可通过制备双金属复合载氧体或添加惰性组分改进其性能,但均存在一定缺陷。若将活性组分和惰性材料融入到一个晶体结构制备尖晶石结构载氧体,则可实现利用双金属协同作用提高载氧体活性的同时,利用Al3+提高载氧体的稳定性。采用共沉淀法和溶胶凝胶法制备了具有尖晶石结构的NiFeAlO₄载氧体,考察了制备方法、载氧体与煤质量比对NiFeAlO₄载氧体化学链燃烧特性和循环稳定性的影响,并分析了载氧体对煤转化过程的作用。结果表明,溶胶凝胶法制备的NiFeAlO₄载氧体具有更好的反应性,载氧体与煤质量比为20∶1时,碳转化率为86.7%,远高于煤单独热解时的碳转化率(34%),此时CO₂体积分数为93.6%。对反应前后NiFeAlO₄载氧体晶相结构和形貌进行分析,表明循环过程中经“还原-氧化”后生成的NiO和载氧体颗粒团聚是导致载氧体活性下降的主要原因。相较于载热作用,NiFeAlO₄载氧体在煤化学链燃烧中主要起供氧作用,其不仅会促进挥发分向煤气的转化,且NiFeAlO₄载氧体与焦炭之间也存在固-固反应,利于更多CO₂的生成。     

氟硅酸钾滴定法测定粗制氟化钠中二氧化硅

采用硝酸-氢氟酸混合酸为消解溶剂,通过微波消解技术对粗制氟化钠进行快速消解,并用氟硅酸钾滴定法测定其二氧化硅含量。选择饱和氯化钾溶液替代固体氯化钾作为沉淀剂,考察了消解酸体系、饱和氯化钾溶液用量、沉淀温度、沉淀放置时间、共存元素干扰及指示剂选择等条件对测定结果的影响并进行优化。确定了最优测试条件：以8 mL硝酸+2 mL氢氟酸为消解溶剂,以8 mL饱和氯化钾溶液为沉淀剂,控制沉淀温度为20~25 ℃、沉淀放置时间为15 min,选择50 g/L氯化钾-50%乙醇溶液洗涤沉淀,采用溴麝香草酚蓝-酚红指示剂。该方法应用于回收粗制氟化钠中二氧化硅含量的测定可大幅度缩短分解试样的时间,有效降低检测成本,回收率为99.15%~100.63%,相对标准偏差（RSD,n=8）小于1%,与传统高温碱熔法测定结果相符,方法的准确度和精密度较好。     

臭氧脱硝技术在稀贵多金属烟气治理中的应用

主要介绍在面临环境保护要求不断提升,废气排放指标不断降低的情况下,使用臭氧氧化+液碱脱硝技术对稀贵卡尔多炉和旋转顶吹炉生产回收金、银、硒、碲、铅、铋等金属产出的烟气的治理。治理后二氧化硫指标小于50mg/m3、氮氧化合物小于60mg/m3、尘指标小于10mg/m3,满足A类企业环保要求,同时其他重金属指标都满足国家国控指标要求,达到超低排放要求。     

The laws of silicon ingot formation by combustion reaction

The formation of a phase pure silicon ingot from SiO₂+Al+KClO₃ and Na₂SiO₃+Al+KClO₃ systems was investigated thermodynamically and experimentally under combustion mode, known also as self-propagating high-temperature synthesis (SHS). The regularities of combustion and phase formation versus KClO₃ concentration by a thermocouple technique were obtained. The morphology, chemical and phase composition of the silicon ingot were analyzed by powder X-ray diffraction (XRD), scanning electron microscopy (SEM), and ICP-analysis. The method reported here proved effective in producing silicon ingots with a purity of 98%.