碱激发胶凝材料及其固化Pb^2＋的试验研究

对碱激胶凝材料（碱-偏高岭土、碱-矿渣和碱-粉煤灰）与水-水泥体系固化Ph^2＋进行了试验研究，其中水-水泥体系为对比样。结果表明：对于相同稠度的碱激发胶凝材料，即使Pb^2＋含量达到2．4％，除了碱-粉煤灰的抗压强度略低外，其他都达到30MPa以上，满足填埋或做建筑基材的使用要求；与水泥相比，碱激发胶凝材料能显著降低重金属离子（Ph^2＋）浸出浓度，其规律性与其NH4交换容量大小的规律性一致，与其固化体的抗压强度的大小没有相关性。     

碱激发胶凝材料及其固化Pb2+的试验研究

对碱激胶凝材料（碱-偏高岭土、碱-矿渣和碱-粉煤灰）与水-水泥体系固化Pb²⁺进行了试验研究，其中水-水泥体系为对比样。结果表明：对于相同稠度的碱激发胶凝材料，即使Pb²⁺含量达到2.4%，除了碱-粉煤灰的抗压强度略低外，其他都达到30 MPa以上，满足填埋或做建筑基材的使用要求；与水泥相比，碱激发胶凝材料能显著降低重金属离子（Pb²⁺）浸出浓度，其规律性与其NH⁺₄交换容量大小的规律性一致，与其固化体的抗压强度的大小没有相关性。     

页岩气井油基钻屑固化处理技术

针对页岩气井油基钻屑安全处置的难题,采用无机胶凝材料辅以界面改性剂KX对其进行了固化处理,考察了PC32.5水泥、粉煤灰和活性增强材料对固化效果的综合影响,利用X射线衍射仪、扫描电镜和压汞仪等测试技术,探索了固化材料对油基钻屑的固化机制。结果表明:水泥、粉煤灰和活性增强材料对14 d无侧限抗压强度线性效应显著,水泥和粉煤灰、水泥和活性增强材料对14 d无侧限抗压强度交互作用显著;得出了固化材料CS在14 d的最佳质量比。确定了油基钻屑固化配方为:油基钻屑+20%CS+2.2%KX,处理后油基钻屑固化体7 d无侧限抗压强度为960 k Pa,浸出液成分达到国家《污水综合排放标准》(GB 8978-1996)I级要求。同时处理后油基钻屑固化体中生成了C—S—H凝胶和少量AFt,使其结构更为致密,降低了固化体中污染物的浸出。     

铜渣基磷酸铁化学键合材料固化重金属Pb

铜渣堆积会造成资源浪费和环境污染等问题,利用铜渣与磷酸盐反应制备铜渣基磷酸铁化学键合材料(CBIPCs),并用其固化重金属Pb。研究铜渣与磷酸二氢铵(m(CS)/m(P))配比、缓凝剂以及硝酸铅掺量对CBIPCs固化重金属Pb的影响。结果表明:随着硝酸铅掺量的增加,固化体抗压强度降低,Pb毒性浸出浓度略增大;在m(CS)/m(P)=3:1和硼砂掺量为2%的条件下,当硝酸铅掺量为12%,固化体自然养护28 d的抗压强度仍达到24.5 MPa,Pb毒性浸出浓度为0.086 mg·L~(-1),远低于《危险废物鉴别标准浸出毒性鉴别》(GB 5085.3-2007)要求的最高限值5.0 mg·L~(-1)。XRD和SEM/EDS分析表明,固化体中生成了PbHPO_4、Pb_3(PO_4)_2、Pb_5(PO_4)OH等铅类磷酸盐产物,并被胶凝相物质紧密包裹。铜渣与磷酸盐反应制备的铜渣基磷酸铁化学键合材料(CBIPCs),可通过化学键合和物理固封双重作用实现对重金属Pb的稳定固化。     

锡冶炼含砷烟尘低温陶瓷固化技术

以锡冶炼过程中排放的含砷烟尘为研究对象,对浸出特性和低温陶瓷胶凝材料对其的固化效果进行了研究。结果表明,含砷烟尘As、Cu和Zn毒性浸出浓度分别为6 783、167和224 mg/L,严重超过国家毒性浸出鉴别标准值。其经低温陶瓷胶凝材料固化处理,当含砷烟尘掺量小于40%,自然养护3 d,As、Cu和Zn毒性浸出浓度急剧降低,且低于国家标准值。XRD和SEM分析表明,低温陶瓷胶凝材料在复合化学激发剂作用下,反应生成类沸石水化铝硅酸盐矿物(Al-O-Si);固化体中Ca-Fe-As-O盐是As固化的主要矿物相。Cu2+、Zn2+替换铝硅酸盐聚合物结构中的Na+、K+保持平衡电荷。胶凝材料水化产物填充于材料颗粒间,使其连接成一致密整体,有效降低了有害物质的毒性浸出浓度。     

锰尾矿基胶凝材料配方优化及水化机理分析

为研究低品位锰尾矿胶凝活性,将生石灰、氢氧化钠、水玻璃和石膏等激发剂添加到湖南永州低品位碳酸锰尾矿中,采用正交实验研究不同激发剂及掺量对锰尾矿基胶凝材料抗压强度和软化系数的影响,探究其潜在胶凝活性激发的最佳配方。实验结果表明,当生石灰、水玻璃、石膏掺量分别为10%、1.5%和4%时,胶凝材料净浆试体的各个龄期抗压强度最大,其中28 d抗压强度达到4.91 MPa,软化系数达到0.74。XRD、DTA和SEM微观实验发现:锰尾矿基胶凝材料主要水化产物为钙矾石和水化硅酸钙凝胶,随龄期持续增多并相互交织搭接,使试体内部结构逐渐致密,缝隙减少,提高了试体抗压强度和软化系数,因此,该激发剂可有效激发锰尾矿潜在胶凝活性。     

垃圾焚烧飞灰中Cd、Pb、Zn的螯合稳定与水泥固化处理

采用有机硫稳定剂(DTCR)与水泥对城市垃圾焚烧飞灰进行稳定/固化处理,研究了飞灰中Cd、Pb、Zn的浸出毒性和固化体的抗压强度,比较了螯合稳定与水泥固化对Cd、Pb、Zn的处理效果、养护时间对固化体抗压强度的影响,并对飞灰的结构形貌进行了分析。结果表明,在稳定固化过程中飞灰中发生了复杂的螯合、水化反应,重金属形态由不稳定态向稳定态转变,螯合稳定对Cd的处理效果最好,水泥固化更适用于Pb、Zn。固化时间大于7 d后,飞灰中的重金属以及固化体的抗压强度已较为稳定。螯合稳定协同水泥固化的处理效果优于单一的稳定或固化方法,飞灰在固化7 d后可同时达到重金属浸出毒性和抗压强度标准,满足安全填埋要求。     

低品位锰尾矿基胶凝材料配方优化

为了探究尾矿胶凝活性,将生石灰、氢氧化钠、水玻璃和石膏等激发剂添加到湖南永州低品位氧化锰尾矿中,通过正交实验研究不同激发剂掺量对锰尾矿胶凝活性的激发效果。实验结果表明:当生石灰、氢氧化钠、水玻璃、石膏掺量分别为10%、2%、1.5%、6%时,锰尾矿基胶凝材料净浆试样的各个龄期抗压强度最大,28 d抗压强度可达到6.64 MPa,软化系数可达到0.81。SEM分析发现:低品位氧化锰尾矿基胶凝材料主要水化产物为钙矾石和水化硅酸钙凝胶,随着龄期延长,水化产物持续增加并相互交织搭接,内部缝隙减少,内部结构致密,提高了试样抗压强度和软化系数。     

碱激发电解锰渣制备水泥掺合料

电解锰渣是湿法冶炼金属锰的残渣,为降低其对环境的浸出毒性影响并提高其在水泥产品中的掺入量,利用碱激发技术处理电解锰渣制备水泥掺合料是一种可行的方法。主要研究了碱激发剂种类、掺量对电解锰渣的激发效果,并将碱激发电解锰渣用作水泥掺合料与水泥按不同比例混合研究对水泥抗压强度和浸出毒性的影响。结果表明:碱激发电解锰渣活性显著提高,NaOH中Na_2O当量为10%时试件M-SH10的3、7、28 d抗压强度最高,分别为7.15、9.46、10.03 MPa;将此条件下激发的电解锰渣按质量比取15%与85%的水泥混合制得的掺合料其抗压强度较净水泥试件有一定程度的提高;浸出毒性结果显示Cd、Cr、Pb、Ni、Mn和Zn浓度均下降,且低于GB 8978-1996限值。     

预处理垃圾焚烧飞灰作为碱胶凝材料混合材的研究

试验分析了垃圾焚烧飞灰的主要化学成分及矿物组成,探讨了预处理垃圾焚烧飞灰作为碱胶凝材料混合材的可能性.研究表明,垃圾焚烧飞灰主要由黏土类矿物组成,飞灰直接作为混合材参与水化过程会产生明显膨胀现象,加入30%(质量分数)飞灰制成的矿渣/飞灰试块在成型1 d脱膜时膨胀率达到15.7%,标准养护28 d后无侧压抗压强度只有12.4 MPa.对飞灰进行热活化预处理,900℃条件下活化效果最佳,同样的飞灰掺量下,试块在标准养护28 d后无侧压抗压强度达到46.0 MPa,膨胀现象消失,且碱胶凝材料中重金属稳定性良好.     

Seizure modeling of Pb(II) and Cd(II) from aqueous solution by chemically modified sugarcane bagasse fly ash: isotherms, kinetics, and column study

Heavy metal pollution is a common environmental problem all over the world. The purpose of the research is to examine the applicability of bagasse fly ash (BFA)—an agricultural waste of sugar industry used for the synthesis of zeolitic material. The zeolitic material are used for the uptake of Pb(II) and Cd(II) heavy metal. Bagasse fly ash is used as a native material for the synthesis of zeolitic materials by conventional hydrothermal treatment without (conventional zeolitic bagasse fly ash (CZBFA)) and with electrolyte (conventional zeolitic bagasse fly ash in electrolyte media (ECZBFA)) media. Heavy metal ions Pb(II) and Cd(II) were successfully seized from aqueous media using these synthesized zeolitic materials. In this study, the zeolitic materials were well characterized by different instrumental methods such as Brunauer–Emmett–Teller, XRF, Fourier transform infrared spectroscopy, powder X-ray diffraction, and scanning electron microscopic microphotographs. The presence of analcime, phillipsite, and zeolite P in adsorbents confirms successful conversion of native BFA into zeolitic materials. Seizure modeling of Pb(II) and Cd(II) was achieved by batch sorption experiments, isotherms, and kinetic studies. These data were used to compare and evaluate the zeolitic materials as potential sorbents for the uptake of heavy metal ions from an aqueous media. The Langmuir isotherm correlation coefficient parameters best fit the equilibrium data which indicate the physical sorption. Pseudo-second-order and intra-particle diffusion model matches best which indicates that the rate of sorption was controlled by film diffusion. The column studies were performed for the practical function of sorbents, and breakthrough curves were obtained, which revealed higher sorption capacity as compared to batch method. Synthesized zeolitic material (CZBFA and ECZBFA), a low-cost sorbent, was proven as potential sorbent for the uptake of Pb(II) and Cd(II) heavy metal ions.     

The leachability and chemical speciation of selected trace elements in fly ash from coal combustion and refuse incineration

A laboratory leaching test has been used to predict the potential mobility of As, Se, Pb and Cd in landfilled fly ash produced by coal combustion and refuse incineration. These waste residues also formed the basis of a speciation study in which the valency states of As and Se and the chemical forms of Pb and Cd have been determined. Selenium displayed the greatest leachability in each ash type, despite being present at relatively low concentrations in both materials. Substantial amounts of other trace elements were also leached, particularly Pb and Cd from refuse ash and As from coal ash. Chemical associations of Pb and Cd were examined by a sequential extraction procedure. In coal fly ash, both elements were mostly present in the residual fraction, while in refuse ash these elements were mainly associated with the exchangeable fraction. Water-soluble extracts of coal fly ash contained As exclusively as As(V); high background interference prevented the detection of water-soluble As in refuse ash. Selenium was present largely as Se(IV) in aqueous extracts of both ash types. The value of speciation techniques and leaching tests as predictors of environmental behaviour is discussed in conjunction with results of routine trace element determinations and plant uptake studies.     

Investigations of ash topography/morphology and their relationship with heavy metals leachability

The leachability of heavy metals such as chromium (Cr), lead (Pb) and cadmium (Cd) from the ash material obtained from waste combustion was studied. The effects of ash surface topography and morphology on the leachability of these elements were examined using atomic force microscopy (AFM) and scanning electron microscopy (SEM). The AFM (scan size 10 x 10 microns) and SEM images of the simulated ash pellet obtained at various operating temperatures (1000, 1400 and 1500 degrees C) showed significant microstructural and topographical changes. Ash pellets treated at 1000 degrees C contain porous and non-continuous surface. On the other hand, the ash pellet obtained at higher temperature (1500 degrees C) was found to contain a smooth, continuous and non-porous surface. The AFM height profile studies indicated that the top surface variation of the ash pellet at 1000, 1400 and 1500 degrees C were found to be -40.0 to 25.5, -3.7 to 4.7 and -0.10 to 0.66 nm respectively. The SEM analyses also confirmed the presence of smooth, non-porous outer surface of ash formed at 1500 degrees C. In addition, it also showed the presence of compact and rigid interior for the same ash pellet. The leachability of the heavy metals was determined using standard toxicity characteristic leaching procedure (TCLP) test and the samples were analysed using atomic absorption spectroscopy. The results showed that the TCLP leaching ratios of the heavy metals were Cr = 0.30, Pb = 0.05 and Cd = 0.09 at 1000 degrees C. However, the ash obtained at 1400 degrees C showed negligible heavy metals leaching ratio while at 1500 degrees C no leachability was detected (TCLP concentration dropped to nondetectable levels). The use of high temperature treatment enabled the immobilization of heavy metals in the ash preventing their leaching. Such ash can be considered as a non-hazardous material for reuse or safe disposal.     

Immobilization of heavy metals in polluted soils by the addition of zeolitic material synthesized from coal fly ash

The use of zeolitic material synthesized from coal fly ash for the immobilization of pollutants in contaminated soils was investigated in experimental plots in the Guadiamar Valley (SW Spain). This area was affected by a pyrite slurry spill in April 1998. Although reclamation activities were completed in a few months, residual pyrite slurry mixed with soil accounted for relatively high leachable levels of trace elements such as Zn, Pb, As, Cu, Sb, Co, Tl and Cd. Phytoremediation strategies were adopted for the final recovery of the polluted soils. The immobilization of metals had previously been undertaken to avoid leaching processes and the consequent groundwater pollution. To this end, 1100 kg of high NaP1 (Na6[(AlO2)6(SiO2)10] .15H2O) zeolitic material was synthesized using fly ash from the Teruel power plant (NE Spain), in a 10 m3 reactor. This zeolitic material was manually applied using different doses (10000-25000 kg per hectare), into the 25 cm topsoil. Another plot (control) was maintained without zeolite. Sampling was carried out 1 and 2 years after the zeolite addition. The results show that the zeolitic material considerably decreases the leaching of Cd, Co, Cu, Ni, and Zn. The sorption of metals in soil clay minerals (illite) proved to be the main cause contributing to the immobilization of these pollutants. This sorption could be a consequence of the rise in pH from 3.3 to 7.6 owing to the alkalinity of the zeolitic material added (caused by traces of free lime in the fly ash, or residual NaOH from synthesis).     

Emission of heavy metals from animal carcass incinerators in Taiwan

The metal emissions from three incinerators burning different feedstock in Taiwan were characterized in this study. It was found that the Incinerators A and B, treating pig carcasses and animal (including pigs) carcasses, respectively, had much higher metal concentrations in stack flue gases than Incinerator C that combusted medical wastes. However, Incinerator A obtained relative lower metal contents in fly ash and bottom ash than the other two incinerators, mainly because the former used a much lower feedstock rate (although burning at a lower temperature) than the latter. For all the incinerators, (1) Fe, Ni, Pb, and Zn were dominant in both the fly ash and bottom ash while most of the Cd and Pb (more volatile) were present in the fly ash; (2) Fe emission factor was the highest and Zn/Pb/Ni/Cr emission factors were greater than those of Mn/Cd/Cu; (3) the Cu emission factors in bottom ash were relatively higher in comparison with those in fly ash; and (4) indicatory metals were the same (Fe, Zn, Pb, and Cu). The metal emission factors obtained from the livestock incinerators were much higher than those reported from MSW incinerators. Likewise, crematories that burn human cadavers must create similar pollution issues since metal supplements are part of human's normal diets. This causes an environmental concern and this work has important ramifications both in technical and regulatory decisions.     

垃圾焚烧飞灰对染料（亚甲基蓝）的吸附性能

以垃圾焚烧飞灰为吸附剂对亚甲基蓝进行了吸附脱色实验。主要探讨了飞灰粒径、用量、温度、pH值和初始浓度等因素对亚甲基蓝吸附的影响,同时分析了吸附上清液中重金属Pb和Cr的浸出毒性。研究结果表明,在25—45℃、pH值2～12、飞灰用量1～5g范围内,经过180min吸附,亚甲基蓝的脱色率都达75％以上,最高可达99．46％。实验还得出,除重金属Pb外,吸附上清液中重金属的浸出量远远低于《危险废物鉴别标准浸出毒性鉴别》的限定值。因此,若能降低重金属Pb的浸出,飞灰将具有应用于处理染料废水的巨大潜力。     

CaCl2高温热处理垃圾焚烧飞灰中重金属的挥发特性

以深圳市某垃圾焚烧厂飞灰为原料,采用高温管式电阻炉,研究了在0．6L／minN,气氛下,CaCl2在不同添加量、处理温度及处理时间下对飞灰中重金属Pb、Cd、Zn和Cu挥发特性的影响,并对收集到的二次飞灰进行成分及物相分析。结果显示,X射线衍射仪和EDS分析表明,二次飞灰主要是由NaCl、KCl和部分SiCl4组成,zn主要以K2ZnCl4形式挥发,而Pb则主要以氧化物PbO和Pb3SiO5的形式挥发。最终得到CaCl2热处理飞灰的最佳二次气化条件：以0．6L／minN,为载气,添加14wt％的CaCl2,在1100℃高温下处理2．5h。经CaCl2热处理后的剩余飞灰,其浸出毒性达到了《生活垃圾填埋场污染控制标准》要求。     

Solidification/stabilization of municipal solid waste incineration fly ash using uncalcined coal gangue–based alkali-activated cementitious materials

Environmental Science and Pollution Research - The proper disposal of municipal solid waste incineration fly ash (MSWI FA) is necessary due to the presence of hazardous metals (Cu2+, Zn2+, Pb2+ and...     

Leaching Dynamics Studies of Municipal Solid Waste Incinerator Ash

Abstract

An assessment of the short- and long-term hazards from municipal solid waste incinerator (MSWI) ash is made through the elemental analysis of 40 to 50 elements in the ash and leachates produced by several leaching procedures. The ash was analyzed using neutron activation analysis (NAA) and x-ray fluorescence (XRF). The leachates were analyzed using NAA and inductively-coupled plasma atomic emission spectroscopy (ICP). The leaching dynamics of an ash monofill were modelled with a series of extractions using simulated acid rain. An initial spike of the metals Ag, Ba, Be, Cr, Cu, Mo, Pb, Sr, and Zn in the leachates appears to be the greatest hazard posed by MSWI ash monofills. The elements As, Cd, Cu, Hg, Pb, S, and Zn were identified as potential long term hazards utilizing a sequential extraction procedure which approximates the total amount of the elements available over the lifetime of the monofill.

The pH of the resulting leachate is the single greatest factor governing the concentration of metals in solution, more important than the concentration of the element in the ash. These results are applied to an assessment of the suitability of the Toxicity Characteristic Leaching Procedure (TCLP) in measuring leaching potential of an MSWI ash monofill.