煤与生物质混烧灰荷电特性研究

对玉米秸分别与两种煤以不同比例混烧生成的混烧灰进行了荷电特性研究。利用法拉第杯荷电量检测系统和静电低压撞击器(ELPI)测量了混烧灰的总体荷质比及分级荷质比,并借助于成分分析及形貌分析结果讨论了其影响机理。结果表明,随着生物质掺入量在混烧燃料中的增加,混烧灰的成分组成发生变化,使得其介电常数变大,比电阻增大,表面吸附能力增强,从而使混烧灰的总体荷质比有一定的上升趋势。对混烧灰的分级荷质比测量结果表明,排除灰样粒径的影响,生物质的掺入使得混烧灰的荷电能力得以增强,但影响相对较小,颗粒粒径是影响混烧灰荷电能力的主要因素。     

水热污泥与煤在混燃过程中的协同效应特性研究

以城市污泥衍生的水热污泥(SS-derived hydrochar)为对象,结合傅里叶红外光谱分析(FT-IR)、X射线荧光光谱分析(XRF)和X射线衍射分析(XRD)等对比研究了水热污泥与三种不同品阶煤(褐煤、烟煤和无烟煤)在有机/无机结构与燃料特性上的异同;同时,通过热重(TG)与偏差分析(Deviation)考察水热污泥与各阶煤在不同混合比例条件下的协同燃烧行为及其作用机制。结果表明,污泥经过水热处理后其有机结构和燃烧行为均提升至与煤相似的水平,该过程不仅改善污泥的燃烧特性,并增强其与煤之间的协同燃烧效应。水热污泥中适量的轻质组分与(碱)碱土金属能在混合燃烧过程中加速煤的失重速率,其对三种煤的促进作用可达4.4%-16.1%(褐煤)、1.9%-9.4%(烟煤)和4.8%-12.1%(无烟煤)。总体而言,水热污泥与褐煤混合而成的燃料在燃料性能上具有较大的优势,并且其混合比例以30%(水热污泥):70%(褐煤)与50%(水热污泥):50%(褐煤)为宜。     

城市生活垃圾与煤矸石混烧特性及其HCl排放特性研究

利用热重分析仪对城市生活垃圾与煤矸石单独及混合燃烧特性进行了研究,并采用高温管式炉燃烧装置考察了PVC、NaCl及MSW与煤矸石混烧过程中HCl的排放规律。结果表明,在煤矸石中掺烧部分MSW可有效改善煤矸石的燃烧特性,尤其是脱挥发分和着火特性。综合考虑燃烧特性变化,建议MSW掺混比例为20%。PVC与NaCl掺混比较低时,煤矸石可抑制PVC燃烧过程中HCl的析出,会显著促进NaCl中HCl的析出;当掺混比增大时,上述作用逐渐减弱。MSW与煤矸石混烧时,会促进HCl的析出,增大烟气中HCl的浓度。当掺混比为10%时,HCl排放浓度达到56.22 mg/m~3,已超过中国国家标准,必须采取相应脱氯措施。     

Thermochemical and Toxic Element Behavior during Co-Combustion of Coal and Municipal Sludge

The thermochemical and kinetic behavior of co-combustion of coal, municipal sludge (MS) and their blends at different ratios were investigated by thermogravimetric analysis. Simulation experiments were performed in a vacuum tube furnace to determine the conversion behavior of toxic elements. The results show that the combustion processes of the blends of coal and municipal sludge are divided into three stages and the combustion curves of the blends are located between those of individual coal and municipal sludge samples. The DTG_max of the sample with 10% sludge addition reaches a maximum at the heating rate of 20 °C/min, indicating that the combustion characteristics of coal can be improved during co-combustion. Strong interactions were observed between coal and municipal sludge during the co-combustion. The volatilization rates of toxic elements decrease with an increasing proportion of sludge in the blends during co-combustion, which indicates that the co-combustion of coal and sludge can effectively reduce the volatilization rate of toxic elements. The study reflects the potential of municipal sludge as a blended fuel and the environmental effects of co-combustion of coal and municipal sludge.     

钾对秸秆混煤燃烧特性影响的研究

选用经酸洗法脱灰的煤和秸秆制得实验样品。采用TG/DTG/DTA技术研究了不同秸秆含量下碱金属钾对秸秆与煤混合燃烧特性的影响。研究结果表明,KOH促进脱灰煤和脱灰混合样品的着火燃烧,使其最大燃烧速率温度及燃尽温度降低,但提高了脱灰秸秆的着火温度。秸秆混煤燃烧反应符合一级反应模型,KOH的添加对混煤燃烧具有催化作用,使混合燃烧反应活化能降低10kJ/mol。     

生物质与煤混燃灰的比电阻特性实验研究

以玉米秸、麦秸、锯末纯燃并以不同比例与煤混燃,利用DR型高压粉尘比电阻实验台对灰样比电阻R进行测量, 以AAS对灰样化学成分进行分析。结果表明,纯生物质燃料灰R值为10⁸Ω·cm~10¹0Ω·cm,属于中比电阻。混燃灰样的R值均为10⁸Ω·cm~10¹2Ω·cm。麦秸与煤的混燃灰中,掺混率R_t对比电阻R的影响不明显;玉米秸与煤的混燃灰中,在110℃以下,R_t越高,R越低;在110℃以上,R_t越高,R越大。生物质与煤的混燃改变了燃料的燃烧特性及熔融特性,使灰的物理特性和化学成分、含量发生变化,造成混燃灰比电阻与煤灰比电阻的规律存在一定的差异。     

酸洗污泥与煤共燃烧过程中重金属的迁移分布研究

采用高温管式炉系统进行酸洗污泥与煤共燃烧实验。对共燃烧后As、Cr、Ni、Cd、Cu、Mn、Pb、Zn、Sb、Se重金属元素在烟气、飞灰及炉渣中的分配率进行分析。结果表明,Cd、Se、Zn是易挥发重金属,主要分布在烟气和飞灰中。Cd在烟气中的最大分配率为61%;Se在烟气中的分配率为38.58%~94.612%;Zn在低、高温段分别主要分布在烟气和飞灰中。As、Cu、Pb、Sb是半挥发重金属,Pb在炉渣中的分配率较稳定,分配率为42.67%~64.76%,在烟气和飞灰中的分配率波动较大,其分配率分别是14.176%~45.79%和9.78%~32.55%;Sb在烟气中的最大分配率为37.64%;温度升高反而会抑制As、Cu挥发,这与高温下As、Cu易与矿物质反应生成络合物有关。Ni、Cr、Mn属于难挥发重金属,绝大部分残留在炉渣中,且分配率对温度变化不敏感。赋存于炉渣中的Cr、Ni分别超过95%和97%;随着温度升高,Mn在炉渣中的分配率由71.46%增加到96.89%。     

Thermogravimetric investigation on combustion characteristics of oil shale and high sulphur coal mixture

Co-combustion experiments of mixture of Huadian oil shale and Heshan coal with high sulphur content have been conducted using a thermogravimetric analyzer. The effects of five different Ca/S mol ratios on the combustion characteristics of mixture fuel are analyzed using TG and DTG curves. The results show that the initial temperature of combustion of mixture fuel is decreased with an increase in the oil shale content of mixture fuel. The combustion characteristic of mixture fuel is superior to that of Heshan coal. Adding about 20 mass% Huadian oil shale into Heshan coal is feasible for desulfurization of mixture fuel during combustion.     

工业、生活污泥与煤混合燃烧的灰熔特性研究

针对煤粉锅炉掺烧污泥后污泥对混合燃料灰熔特性的影响行为,利用矿物三元相图、XRD等分析手段,研究了不同特性污泥(生活污泥、工业污泥)与煤掺混燃烧过程中不同矿物组分的相互作用机制及灰渣的灰熔融特性变化特征。结果表明,三元相图能够有效预测煤和污泥掺混后灰熔融温度的变化趋势;低含量的氧化铁形成低温共熔体以及透辉石、钙长石会降低煤和污泥混合后的灰熔融温度;而钙镁橄榄石、莫来石和单体形式存在的氧化铁能提高煤和污泥混合后的灰熔融温度。工业污泥中的高硫组分在混烧过程中易形成硫酸盐的低温共融体。生活污泥中磷对灰熔点的影响与氧化铝及碱金属的比例有关,当氧化铝的含量占主要成分时,磷的存在趋向于降低灰熔点,而当碱金属占主要成分时,磷的存在趋向于提高灰熔点。     

Simultaneous thermogravimetric-mass spectrometric study on the co-combustion of coal and sewage sludges

To combust coal together with a small percentage (<10%) of sewage sludge may be an option for the management of these wastes. Combustion of two different sewage sludge, one semianthracite coal and several sludges-coal blends (containing different dried mass% of each of the two sewage sludges) were studied by simultaneous TG/MS dynamic runs carried out at 5°C min^–1 in the temperature range 100–800°C. No interactions have been observed between coal and sludge during the blends combustion. Neither the combustion process, neither the studied emissions have changed appreciably for the mass% of sludge in the blends considered in this work.