Pd/activated carbon sorbents for mid-temperature capture of mercury from coal-derived fuel gas

Higher concentrations of Hg can be emitted from coal pyrolysis or gasification than from coal combustion, especially elemental Hg. Highly efficient Hg removal technology from coal-derived fuel gas is thus of great importance. Based on the very excellent Hg removal ability of Pd and the high adsorption abilities of activated carbon（AC） for H2 S and Hg, a series of Pd/AC sorbents was prepared by using pore volume impregnation, and their performance in capturing Hg and H2 S from coal-derived fuel gas was investigated using a laboratory-scale fixed-bed reactor. The effects of loading amount, reaction temperature and reaction atmosphere on Hg removal from coal-derived fuel gas were studied. The sorbents were characterized by N2 adsorption, X-ray diffraction（XRD） and X-ray photoelectron spectroscopy（XPS）. The results indicated that the efficiency of Hg removal increased with the increasing of Pd loading amount, but the effective utilization rate of the active component Pd decreased significantly at the same time. High temperature had a negative influence on the Hg removal. The efficiency of Hg removal in the N2-H2S-H2-CO-Hg atmosphere（simulated coal gas） was higher than that in N2-H2S-Hg and N2-Hg atmospheres, which showed that H2 and CO, with their reducing capacity, could benefit promote the removal of Hg. The XPS results suggested that there were two different ways of capturing Hg over sorbents in N2-H2S-Hg and N2-Hg atmospheres.     

活性炭催化过氧化氢去除荧光增白剂

研究了活性炭(activated carbon,AC)吸附、改性活性炭(activated carbon modified,ACM)吸附、过氧化氢(H2O2)氧化、AC催化H2O2等方法对水体中荧光增白剂VBL的处理效果,并通过自由基俘获剂叔丁醇、催化过程气体分析等探讨了AC催化H2O2分解VBL的机制.结果表明,经硝酸铁[Fe(NO3)3]改性过的ACM对VBL的吸附去除率高于未改性的AC.活性炭催化H2O2对VBL的去除效果明显,但未改性AC催化去除率高于ACM.60 min时,AC催化氧化去除率即可达到95%以上,而ACM仅为58%.叔丁醇的加入降低了AC和ACM催化氧化对VBL的去除率,表明AC催化H2O2氧化能促进H2O2形成羟基自由基(·OH)和原子氧参与反应.AC催化H2O2分解及释放气体分析表明,AC能催化H2O2形成氧气并放热,且ACM明显快于AC.结合催化H2O2去除VBL效率的结果分析,ACM催化反应时活性中间物(自由基和原子氧等)产生速率快于AC,活性中间物自身消耗形成氧气,而不是用于分解VBL.催化反应中活性中间产物的形成速率与反应物供给速率的不匹配可能是导致ACM催化效果弱于AC的重要原因.     

An isolated AC module for photovoltaic energy conversion

In this paper, an isolated ac module with pseudo dc-link and galvanic isolation is proposed for photovoltaic energy conversion. The studied grid-tie ac module can individually extract the maximum solar power from each photovoltaic panel and transfer to ac utility system. It consists of an interleaved active-clamping single-ended primary-inductive circuit (SEPIC) with a secondary voltage doubler, a full-bridge polarity selector operating under line frequency to achieve high efficiency. For the studied topology, key features such as reduced input current ripple, zero-voltage switching (ZVS) of primary switches, low reverse-recovery current of the output diodes, and lower switch voltage stress are obtained. Also, to reduce input current ripple, an interleaved control strategy is adopted. A simple control strategy is proposed to generate a rectified sinusoidal waveform voltage at the pseudo dc-link capacitors and achieve the high maximum power point tracking (MPPT) accuracy. The operation principles and design considerations of the studied ac module are analyzed and discussed. A prototype with 25–60 V dc input, 110 V/60 Hz ac output and 150 W power rating has been constructed for verifying the feasibility of the proposed ac module.     

不同塔型交流输电线路的电磁环境分析

选择500 kV同杆双回紧凑型线路、500 kV同杆双回常规线路、500 kV单回紧凑型线路、500 kV单回常规线路、220 kV同杆双回线路和220 kV/110 kV同杆4回线路进行不同塔型交流线路的电磁环境测量.通过测试和计算分析,给出了被测试线路的电磁环境水平.     

活性焦负载MnO2对气态Hg0的吸附脱除研究

研究了活性焦(AC)及负载MnO2的活性焦(MnO2/AC)对气态Hg0的吸附脱除,发现负载MnO2到AC明显提高了其对Hg0的吸附脱除能力.考察了MnO2负载量、温度、Hg0浓度和烟气成分等对MnO2/AC吸附脱除Hg0的影响.结果表明,MnO2/AC对Hg0的吸附脱除能力随MnO2负载量的增加而增强;在120～200℃的温度范围内,随着温度升高,MnO2/AC对Hg0的吸附脱除能力增强;O2和HCl对MnO2/AC吸附脱除Hg0具有促进作用,而SO2和H2O具有抑制作用.SEM-EDX和逐级化学提取结果证实,MnO2将Hg0催化氧化为HgO并吸附在AC上,这是MnO2/AC具有较高的吸附脱除Hg0能力的原因.     

SO2在Co—Mo／AC催化剂上的还原

本文研究了活性焦（ＡＣ）担载Ｃｏ－Ｍｏ催化剂对ＳＯ２还原的催化性能。考查了催化剂不同的预处理方法,Ｈ２／ＳＯ２摩尔比和还原温度对还原过程硫产率的影响,并就硫化后的Ｃｏ－Ｍｏ和活性焦在催化床不同的构成对硫产率的影响进行了研究。结果表明,经硫化后的催化剂在ＳＯ２＋２Ｈ２→Ｓ＋２Ｈ２Ｏ反应有较高的催化活性,在最佳反应温度３００℃,Ｈ／ＳＯ摩尔比为３,空速６０００Ｌ;ｋｇ＾－１．ｈ＾－１条件下,生成硫的产     

金刚石膜电极对有机污染物的电催化特性

研究了化学气相沉积法(CVD)制备得到的掺硼金刚石膜电极的物理性质和电化学性能.用扫描电子显微镜(SEM)法表征了金刚石膜的表面微观结构,采用循环伏安法和交流阻抗法研究了电极的电化学性质.结果表明,金刚石薄膜表面形态为复晶结构,颗粒大小均匀,掺硼后使电极具有良好的导电性能.金刚石膜电极具有很宽的电势窗口,在酸性、中性和碱性3种介质中分别为4.3V、4.0V和3.0V.同时,金刚石膜电极的背景电流非常低,为-9×10^-6～5×10^-7A.在铁氰化钾电解液中,金刚石膜电极表面在反应过程中始终保持良好的活性,在表面进行的电化学反应具有良好的准可逆性,其电极动力学主要是受扩散过程所控制.金刚石膜电极对有机污染物的催化氧化作用具有选择性.与铂电极和石墨电极相比,金刚石膜电极对苯酚、硝基苯等芳香化合物的催化氧化强烈,氧化过程较为简单、彻底.这些性质表明金刚石膜电极是一种非常适用于环保处理的新型电极.     

柱状V2O5/AC中V2O5的分布特征对烟气脱硫活性的影响

采用过量浸渍(XS)、等体积浸渍(PV)和半等体积浸渍(HPV)方法,分别制得3种柱状V₂O₅/AC催化剂,并对其脱硫能力进行评价.结果表明:尽管这3种方法制取的催化剂总w(V₂O₅)相同(均为0.5%),但V₂O₅在柱状颗粒中的分布差异却很大;其中半等体积浸渍法制备的催化剂外层w(V₂O₅)最高,等体积浸渍法的w(V₂O5)居中,过量浸渍法的w(V₂O₅)最低.脱硫前期,催化剂外层的w(V₂O₅)对脱硫活性的影响很大,外层w(V₂O₅)高的催化剂脱硫活性较高;脱硫后期,催化剂外层w(V₂O₅)对脱硫活性的影响变小,而内层w(V₂O₅)的影响变大,内层w(V₂O₅)高的催化剂脱硫活性较高.      

新型低温Fe/AC脱硫剂的研究

将活性焦担载氧化铁制得Fe/AC脱硫剂用于烟气脱硫,在最经济的烟气脱硫温度窗口(120℃～250℃)显示出高的脱硫活性.考察操作条件对其脱硫活性的影响,并借助EXAFS和TPD表征技术对其内在原因进行探讨.Fe/AC脱硫剂在排烟温度下用于脱硫,其活性明显优于活性焦和纯Fe₂O₃,且载体炭无氧化烧损.Fe/AC吸硫后形成2种含硫物质:H₂SO₄和Fe₂(SO₄)₃,H₂O和O₂的存在可增加Fe/AC对SO₂的吸附硫容.由高比表面活性焦制得的Fe/AC有更高的脱硫活性,这源于活性组分Fe₂O₃在其上良好的分散性.Fe/AC用于脱硫应在适宜空速[(800L/(kg·h)]下操作.     

负载型纳米TiO2/AC对偶氮染料的光催化降解研究

以钛酸四丁酯和粒状活性炭(AC)为主要原料,采用溶胶-凝胶-浸渍法制备出负载型纳米TiO2/AC催化剂.在流化床反应器中分别对2种典型的偶氮类染料橙黄G、活性艳红X-3B模拟废水进行了光催化降解研究,探讨了pH值、外加氧化剂对光催化降解率的影响,并对催化剂进行了回收再生利用试验.结果表明,TiO2/AC催化剂具有良好的光催化活性、吸附特性及可再生性,60 min后对2种染料反应的光催化降解率分别可达到99.71%和97 12%,反应180 min后的TOC去除率分别达到81.54%和81.99%;反应后TiO2/AC催化剂回收率大于95%,经焙烧再生后对橙黄G反应60 min的光催化降解率仍高达95.93%.