O_(2)/N_(2)和O_(2)/CO_(2)气氛下煤半焦-生物质的混燃特性及影响因素

为掌握煤半焦与生物质在O_(2)/N_(2)和O_(2)/CO_(2)条件下的混燃特性及其影响因素,采用全自动物理化学吸附仪获得了煤半焦-生物质混合燃料的孔隙结构,采用热重实验分析了两种燃料的混燃特性和反应动力学,通过多元线性回归法研究了燃料比、比表面积与混燃特性参数之间的关系。结果表明,O_(2)/N_(2)气氛下,掺混生物质可改善煤半焦的着火、燃尽及综合燃烧特性;O_(2)/CO_(2)气氛下,掺混生物质能改善煤半焦的着火特性,但会延迟其燃尽。混燃的活化能在低温区和高温区有显著差异,生物质掺混比增大,两个温区的活化能都降低;两种气氛下,低温区的活化能相近,但O_(2)/CO_(2)气氛下高温区的活化能显著高于O_(2)/N_(2)气氛下的。O_(2)/N_(2)气氛下孔隙结构对燃烧特性的影响更显著,而O_(2)/CO_(2)气氛下燃料比对燃烧特性的作用更显著。

O_(2)/CO_(2)条件下半焦-生物质的混燃特性及动力学分析

半焦与生物质在O_(2)/CO_(2)条件下混燃是实现碳基燃料清洁高效利用和碳减排的重要途径,准确掌握其混燃特性及动力学特性尤为关键。通过热重分析和正交实验研究了半焦与三种生物质(稻壳、松木、核桃壳)在O_(2)/N_(2)和N_(2)/CO_(2)气氛下混燃的燃烧特性、交互作用及反应动力学。结果表明:O_(2)/N_(2)气氛下掺混生物质可改善半焦的着火和燃尽特性,O_(2)/CO_(2)气氛下掺混生物质可改善半焦的着火特性,但会延迟半焦的燃尽。半焦和生物质在主燃区存在明显的交互作用,该作用显著提高了混燃反应性和燃烧强度,降低了着火活化能。生物质掺混比增大,燃烧特性指数提高,混合燃料低温区的活化能E_(1)和高温区的活化能E_(2)均逐渐降低;掺混生物质为松木时,混燃特性最好,掺混生物质为稻壳时,混燃特性次之,掺混生物质为核桃壳时,混燃特性再次之。与O_(2)/N_(2)气氛相比,O_(2)/CO_(2)气氛下的综合燃烧特性指数降低,E_(1)和E_(2)都提高,提高O_(2)/CO_(2)气氛中的O_(2)体积分数可小幅改善燃烧特性。燃烧气氛对燃烧特性和活化能的影响最显著,生物质掺混比的影响次之,掺混生物质的种类的影响最小,但若只考虑O_(2)/CO_(2)气氛的O_(2)体积分数变化,燃烧气氛对混燃特性的影响很小。

絮凝-电化学氧化协同工艺处理兰炭废水

采用絮凝-电化学氧化协同工艺处理兰炭废水,探究了反应过程中絮凝剂投加量、反应时间、初始pH值、外加电压以及NaCl添加量对化学需氧量(COD)和氨氮(NH_(3)-N)去除的影响及絮凝-电化学氧化协同作用机制.结果表明,随着絮凝剂聚合氯化铝铁(PAFC)投加量和外加电压的增加,兰炭废水中COD和NH_(3)-N的去除率逐渐升高.当PAFC投加量为50g/L、电压6V、反应时间4h,初始pH=9,NaCl添加量30g/L时,COD和NH_(3)-N去除率分别为82.37%和100%,更换极板进行二次电解COD去除率可达100%.兰炭废水中有机污染物主要是苯酚类､醇类和酰胺类物质,处理后酚类物质含量大幅减少,酮类、醇类和酸类物质相对占比有所增加.絮凝-电化学氧化过程中,PAFC既是絮凝剂又是Cl^(-)的提供者,其水解产生的Cl^(-)与NaCl引入的Cl^(-)在电场作用下向阳极定向迁移.阳极表面发生氧化反应产生的有效氯(Cl_(2)/ClO^(-))将兰炭废水中有机污染物氧化成中间产物氯酚,与絮凝剂中Al^(3+)的水解产物Al(OH)^(2+)、Al(OH)^(+)_(2)及Al(OH)_(3)通过静电和吸附作用结合形成絮凝体被去除.废水中剩余少量的氯酚及酰胺、环己二醇等有机污染物及NH_(3)-N则在ClO^(-)的间接氧化作用下转化为N_(2)、CO_(2)和H_(2)O得以去除.

Investigation on activated semi-coke desulfurization

An activated semi coke with industrial scale size was prepared by high pressure hydrothermal chemistry activation, HNO 3 oxidation and calcination activation in proper order from Inner Mongolia Zhalainuoer semi coke, which is rich in resource and cheap in sale. SO 2 adsorption capacity on this activated semi coke was assessed in the fixed bed in the temperature range of 60—170℃, space velocity range of 500—1300 h -1 , SO 2 concentration of 1000—3000 ppmv, and N 2 as balance. The surface area, elemental and proximate analysis for both raw semi coke and activated semi cokes were measured. The experimental results showed that the activated semi coke has a high adsorption capacity for sulfur dioxide than the untreated semi coke. This may be the result of increase of surface area on activated semi coke and surface oxygen functional groups with basicity characteristics. Comparison to result of FTIR, it is known that group of —C—O—C? ?may be active center of SO 2 catalytic adsorption on activated semi coke.

Impact of impregnation pressure on desulfurization performance of Zn-based sorbents supported on semi-coke

High-pressure impregnation, a new preparation method for sorbents to remove H2S from hot coal gas, is introduced in this paper. Semi-coke （SC） and ZnO is selected as the support and active component of sorbent, respectively. The sorbent preparation process includes high-pressure impregnation, filtration, ovendry and calcination. The aim of this research is to primarily study the effects of the impregnation pressure on physical properties and desulfurization ability of the sorbent. The desulfurization experiment was carried out in a fixed-bed reactor at 500 ~C and a simulated coal gas used in this work was composed of CO （33 vol%）, H2 （39 vol%）, H2S （300 ppm in volume）, and N2 （balance）. Experimental results show that the pore structure of the SC support can be improved effectively and ZnO active component can be uniformly dispersed on the support, with the small particle size of 10-500 nm. Sorbents prepared using high-pressure impregnation have better desulfurization capacity and their active components have higher utilization rate. P20-ZnSC sorbent, obtained by high-pressure impregnation at 20 atm, has the best desulfurization ability with a sulfur capacity of 7.54 g S/100g sorbent and a breakthrough time of 44 h. Its desulfurization precision and efficiency of removing H2S from the middle temperature gases can reach 〈 1 ppm and 〉99.7%, respectively, before sorbent breakthrough.

Effects of ultrasound on the desulfurization performance of hot coal gas over Zn-Mn-Cu supported on semi-coke sorbent prepared by high-pressure impregnation method

Zn-Mn-Cu/SC（U） sorbent was hydrothermally synthesized by ultrasound-assisted high-pressure impregnation method with semi-coke（SC）as support and the mixed solution of zinc nitrate,manganese nitrate and copper nitrate as active component precursors.The desulfurization performances of hot coal gas on the prepared sorbent at a mid-temperature of 500°C were tested in fixed-bed reactor.Morphology and pore structure of the prepared sorbent were also characterized by TEM,N2adsorption/desorption isotherms and XRD.For comparison,the sorbent of Zn-Mn-Cu/SC prepared by conventional high-pressure impregnation was also evaluated and characterized in order to study the effects of ultrasound treatment.Zn-Mn-Cu/SC（U） sorbent prepared by high-pressure impregnation under ultrasound-assisted condition showed a better desulfurization performance than Zn-Mn-Cu/SC.It could remove H2 S from 1000×10-6m3/m3 to 0.1×10-6m3/m3 at 500°C and maintained for 12.5 h with the sulfur capacity of 7.74%,in which both the breakthrough time and sulfur capacity were about 32% and 51% higher than those of Zn-Mn-Cu/SC sorbent.The introduction of ultrasound during high-pressure impregnation process greatly improved the morphology and pore structure of the sorbent.The ultrasonic treatment made particle size of active components smaller and made them more evenly disperse on semi-coke support,which provided more opportunities to contact with H2S in coal-based gases.However,there were no any difference in compositions and existing forms of active components on the Zn-Mn-Cu/SC and Zn-Mn-Cu/SC（U） sorbents.

Effects of process parameters on pore structure of semi-coke prepared by solid heat carrier with dry distillation

The semi-coke was prepared by solid heat carrier with dry distillation in single factor method. The pore structures of raw coal and semi-coke were characterized by Brunauer-Emmett-Teller (BET) and scanning electron microscope (SEM). The results show that the adsorption and desorption isotherm of semi-coke are not coincident. There was a wide pore distribution on the semi-coke, in which mesopores and micropores account for a considerable proportion. Also there are many more secondary pores. With the increase of the final temperature of heat carrier and constant temperature, as well as the decrease of volume ratio of coal and hot carrier reactor, specific surface area and pore volume of semi-coke increased rapidly first and then decreased and finally increased, along with the rapidly reduction of average pore size. SEM photos show that the surface of semi-coke becomes increasingly rough and glossy.

Semi-LC/MS技术快速定量分析黄芪样品中黄芪甲苷含量

为了测定黄芪中的黄芪甲苷含量,应用半高效液相色谱-质谱串联技术(Semi-LC/MS),以薯蓣皂苷为内标化合物,仅用一段色谱保护柱分离掉大部分干扰性成分,同时使目标化合物富集,采用Waters公司的多反应监测(MRM)扫描模式检测。结果表明:黄芪甲苷在2.85～57.0mg/L的范围内线性关系良好,稳定性和重复性实验RSD<3%,样品回收率达98.9%。Semi-LC/MS方法可以对黄芪样品中黄芪甲苷进行快速定量分析,是一种黄芪甲苷的简单、高效、灵敏的定量检测方法。

Fe(NO_(3))_(3)-水蒸气催化活化制备兰炭基活性炭及吸附焦化废水的应用研究

以兰炭末为原料,Fe(NO_(3))_(3)为催化剂,采用Fe(NO_(3))_(3)-水蒸气催化活化法制备了兰炭基活性炭(semi-coke based activated carbon,SAC),并将其应用于焦化废水的吸附研究。考察了催化剂溶液浓度(0 mol/L,0.4 mol/L,0.6 mol/L,0.8 mol/L,1 mol/L)和活化温度(600℃,700℃,800℃,900℃)对样品收率、孔隙结构和吸附性能的影响。使用最优活化条件下制备的兰炭基活性炭作为吸附剂,讨论了不同温度(298 K,308 K,318 K)、SAC投加量(1 g,2 g,3 g,4 g,5 g)、吸附时间(10 min,30 min,60 min,90 min,120 min,150 min,180 min)、转速(0 r/min,100 r/min,200 r/min)对焦化废水COD去除效果的影响。研究表明:当Fe(NO_(3))_(3)浓度为0.6 mol/L,活化温度为800℃,制备的Fe-0.6-800具有中孔-微孔分级多孔结构,其产率为69.21%、比表面积为587.21 m^(2)/g、总孔体积为0.383 m 3/g,亚甲基蓝吸附值达到最高(261.64 mg/g);在50 mL焦化废水中,Fe-0.6-800投加量为4 g,温度为318 K,转速为100 r/min,吸附时间为120 min的最佳工艺条件下,焦化废水COD的去除率最高可达91.12%;该吸附过程同时受物理吸附和化学吸附作用,符合准二级动力学模型,最大理论吸附值为60.82 mg/g,且吸附反应的自发性随温度升高而增加。

Ni-B催化剂下兰炭焦粉石墨化

兰炭(半焦)是神府地区低磷、低硫、低挥发分煤经低温干馏得到的一种煤化工产品,以兰炭焦粉为原料,研究其催化石墨化过程。采用化学还原法制备的非晶态Ni-B催化剂对脱灰半焦进行石墨化。通过对催化剂的表征得出,制备催化剂时使用溶液浓度不同,所得催化剂形貌不同;w(Ni-B催化剂)=2%,1000℃产生了部分的石墨化转化,未添加催化剂的样本则无石墨化转化,表明Ni-B是一种有效的兰炭石墨化催化剂;通过对各组石墨化产物的表征分析得出,不同形貌的催化剂催化活性不同;用石墨产物制备泡沫镍压片电极,经测试有较好的电容性能,具有潜在应用价值,为兰炭焦粉的高附加值利用提供了新思路。

Decomposition Theorems for Semi-order Fuzzy Supermartingales and Submartingales

Based on semi - order fuzzy supermaringales andsubmartingales, the semi- order fuzzy supermartingaleand submartingale theory is developed. The main resultis to generalize the Doob decomposition and the Riesz de-composition theorems of standard martingale theory tosemi - order fuzzy supermaringales and submartingales.The structure of semi - order fuzzy supermaringales andsubmartingales and the conditions of that they has Doobdecomposition (resp. Riesz decomposition) are discussedin detail.

燃煤锅炉改燃兰炭燃烧工艺及效益分析

兰炭因热值高、硫含量低的特点被广泛应用于散煤替代,燃煤锅炉改燃兰炭是实现资源合理利用、降低污染物排放和改善企业经济效益的有效途径。以河北某循环流化床锅炉改燃兰炭工程为例,燃烧系统采用掺烧灰渣的方法,解决改燃后机械未完全燃烧导致损失大和物料循环不稳定问题,确定了兰炭和灰渣的最佳掺混比为9∶1;配风系统采用控制总量并降低一次风率的方法,解决兰炭着火困难的问题,确定了最佳一次风比例为55%;换热系统采用增加锅炉尾部受热面的方法,解决因燃料热值提升较大产生的蒸汽超温和锅炉效率下降问题。改燃扩容后锅炉烟尘、SO2和NOx排放分别比原锅炉降低了73%、94%和55%,以原锅炉35 t/h的额定功率运行,每小时节约燃料成本5.51%,产吨蒸汽所需燃料成本降低6.47元。

煤制兰炭过程中挥发性有机污染物和臭氧协同处理机理

为探究低温等离子体联合催化剂载体协同处理煤制兰炭过程中产生的挥发性有机污染物及臭氧,以二甲苯作为目标污染物,选取γ-氧化铝小球为催化剂载体,考察功率、氧通量、二甲苯初始浓度、催化剂载体用量等因素对挥发性有机污染物和臭氧协同处理效果的影响。结果表明:低温等离子体放电功率越大,二甲苯的脱除效果越好;在放电功率为70 W、氧通量为15%、初始浓度为600×10^(-6)时,二甲苯的去除率为64.41%,此时臭氧的产生量为125.21×10^(-6),综合考量在该性能下的协同处理效率最高;在最优低温等离子体性能的条件下,γ-氧化铝载体粒径越小,二甲苯的去除效率越高,协同处理效果最佳,二甲苯总去除率最高可达73.93%,臭氧抑制率最高为66.45%。γ-氧化铝载体对低温等离子体协同处理挥发性有机污染物与臭氧具有一定的促进作用。研究成果可为协同处理挥发性有机污染物提供有效的参考。

不同有机肥对土壤及核桃果实品质的影响

为探究“辽宁1号”核桃较适宜的有机肥,在河北省隆尧县红沙峪生态农业科技有限公司核桃园以10年生“辽宁1号”核桃树为试验材料,利用半焦肥、鸡粪及生物菌肥3种有机肥进行施肥处理,检测不同有机肥对土壤性状、核桃产量和品质的影响。结果表明,生物菌肥(2.5 kg/株)能显著提高种仁黄酮含量;鸡粪(40 kg/株)能显著提高种仁Fe、Zn含量以及土壤速效磷、速效钾含量;5.0 kg/株半焦肥能显著提高种仁多酚、土壤有机质含量;10.0 kg/株半焦肥施肥能显著提高青果的横径,坚果的单果质量、纵径、横径、侧径,种仁的脂肪、K、Ca、Mn、Cu含量以及土壤全磷含量。10.0 kg/株半焦肥在相关果实品质方面的综合效果最好,而5.0 kg/株半焦肥的经济效益最高。

硅铁冶炼用兰炭的调控制备与工业应用试验

介绍了硅铁冶炼用兰炭的调控制备方法,考察了依据调控制备方法生产的兰炭在硅铁冶炼中的应用,通过对调控制备兰炭的质量检测和其入硅铁炉后的冶炼指标进行追踪分析,证实了调控制备方法的可行性。试验结果表明:以优选原煤、调整干馏工艺参数和入炉还原剂再优化为手段的调控制备方法可以稳定兰炭的质量,并有效降低硅铁冶炼电耗;通过对原煤热解兰炭的性能评估可预测其工业兰炭的性能,从而优选出可生产适宜硅铁冶炼用兰炭的原煤;通过优选原煤和调控干馏炉参数可生产出成分和性质稳定的高性能硅铁冶炼用兰炭。

锡林郭勒褐煤清洁利用技术适用性研究

锡林郭勒盟褐煤可采储量1 400余亿t,年采量1亿t以上,主要通过燃烧用于发电、供热,利用效率低,高效清洁利用水平有待提高。选择当地3种代表性煤样,以格金低温干馏、热解和直接液化技术为研究手段,讨论不同锡林郭勒褐煤对清洁利用技术的适用性。实验结果表明,3种煤样在不同技术方向上差异显著,结合其气液固三相产物的收率和属性进行评价,认为来自于胜利矿区的样品更适于制取半焦,乌拉盖矿区的样品更适于气化技术,来自于白音华矿区的煤炭则有成为优良直接液化用煤的潜能。结合当地资源环境特点,认为低温热解制取半焦是适宜锡林郭勒褐煤未来清洁利用的技术方向。

负载铈-锰活性炭对兰炭废水的吸附研究

采用自制的负载铈-锰双金属型活性炭(Ce-Mn/AC)吸附兰炭废水,通过静态吸附平衡实验研究p H值及CeMn/AC投加量对兰炭废水化学需氧量(COD)去除率的影响;通过吸附动力学、吸附等温线及吸附热力学模型方程拟合兰炭废水在Ce-Mn/AC的吸附过程,考察其吸附特性,并采用气相色谱-质谱联用仪(GC-MS)及紫外光谱仪(UV-vis)分析其可能的吸附机理。结果表明:在Ce-Mn/AC投加量为10 g·L^(-1),不调节p H值时,Ce-Mn/AC对兰炭废水的吸附量为82.9 mg·L^(-1),COD去除率为84.6%;吸附动力学符合拟二级动力学模型,Freundlich模型可更好地描述Ce-Mn/AC对兰炭废水的吸附平衡过程,△G<0,△H>0及△S>0,表明兰炭废水在Ce-Mn/AC上的吸附是自发吸热的、以化学吸附为主的过程;兰炭废水中难降解的多环芳烃及含氮杂环有机物先于单环芳烃吸附在CeMn/AC上,因而经此吸附工艺后可很大程度地减小兰炭废水后续工艺中难降解物对废水处理系统的影响,并提供了一定的基础数据及理论,吸附解吸实验表明,Ce-Mn/AC具有较优的重复使用性能。

煤基半焦对重金属土壤中铬和镉的原位钝化及作用机制分析

工业化和城市化的快速发展对土壤造成严重的重金属污染,其中由于铬、镉的毒性强,对环境的危害极大。以资源丰富的石河子煤和乌鲁木齐煤为原料经热解制得半焦,将其作为铬和镉污染土壤的钝化材料,以实现重金属污染土壤的修复和改良。利用热重分析得到两种煤样热解的特征温度;采用N_(2)等温吸附法对半焦的孔隙结构进行了表征。通过重金属浸提实验,研究了半焦钝化剂作用时间和添加量对单一污染土壤及复合污染土壤中重金属有效态含量的影响。结果表明:乌鲁木齐煤基半焦具有较适宜重金属钝化的表面特征,孔径主要集中在1.8 nm~4.0 nm,单位面积酸性官能团和碱性官能团数量较多,分别为0.0026 mmol/m^(2)和0.0164 mmol/m^(2);在其添加量为5%,粒径为300μm~500μm,与土壤作用时间为90 d的条件下,铬和镉的有效态含量分别下降了78%和21%。相比于单一污染土壤,竞争作用使得复合污染土壤中铬和镉的钝化效果略有下降。此外,土壤中添加半焦后,土壤的pH值保持在稳定的弱碱性范围内,其有机质含量和阳离子交换量均有提高,改善了土壤的理化性质,可增强土壤肥力。

兰炭燃烧特性

利用热重分析法探究兰炭的燃烧特性,考察兰炭粒径、4种助燃剂[MnO_(2)、Fe_(2)O_(3)、柠檬酸钠、Ca(OH)_(2)]、w(柠檬酸钠)对兰炭燃烧特性的影响。结果表明,减小兰炭粒径有助于改善其燃烧特性;柠檬酸钠能够有效降低兰炭的着火温度、50%有机质燃尽温度,其着火温度由461.9℃降至409.5℃、50%有机质燃尽温度由626.3℃降至584.9℃;w(柠檬酸钠)<3.0%,兰炭的着火温度、50%有机质燃尽温度下降明显,其燃烧速率也基本保持不变,但随着w(柠檬酸钠)增多,兰炭的各项特征温度下降缓慢,燃烧速率下降明显,表明适量加入柠檬酸钠有利于改善兰炭的燃烧特性。

甲醛-Fenton氧化-吸附法联用处理兰炭废水研究

采用甲醛-Fenton氧化-吸附法联用处理兰炭废水,探讨影响处理效果的各种因素,并利用FTIR、SEM对甲醛法反应滤渣及催化剂进行表征。结果表明,当反应温度为90 ℃,n甲醛∶n挥发酚=5∶1,反应时间为90 min时,挥发酚去除率最大为39.8%,CODCr去除率为38%,所得固相产物为酚醛树脂;当H2O2浓度为22.2 g/L,反应时间为90 min时,CODCr去除率最大为49.5%,挥发酚去除率为28%,催化剂可进行回收利用;当活性炭投加量为14 g/100 mL,吸附时间为24 h,挥发酚去除率为64%,CODCr去除率为46 %,活性炭对挥发酚吸附以及CODCr去除等温线符合Freundlich方程,对挥发酚的吸附过程满足准一级动力学模型,而CODCr去除过程则更好地符合准二级动力学模型。