Mechanism of sulfur capture during coal briquette combustion

The mechanisms of sulfur capturing during coal briquette combustion was discussed. Various factors affecting sulfur removal efficiency have been studied. Characterization of the slag left after combustion has been carried out by using X ray diffraction (XRD), Messbauer spectroscopy (MS), scanning electron microscopy (SEM), energy dispersion X ray analysis (EDAX), and electron spectroscopy for chemical analysis (ESCA). No other sulfur containing species besides CaSO 4 was found. Small amount of CaFe 3(SiO 4) 2OH, some complexes of CaO SiO 2 Fe 2O 3 and vitreous iron oxides were identified on the surface of CaSO 4 grains. This might explain the mechanism of sulfur fixation during coal briquettes combustion.

Fe-Si promoter for sulfur capture during coal briquette combustion

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Reaction characteristics investigation of CeO_(2)-enhanced CaSO_(4) oxygen carrier with lignite

Calcium sulfate(CaSO_(4))has been verified as a promising oxygen carrier(OC)in the chemical looping combustion(CLC)for its high oxygen capacity,abundant reserve and low cost,but its low reactivity and deleterious sulfur species emission from the side reactions of CaSO_(4) should be well considered for its wide application in CLC.In order to promote the reactivity of CaSO_(4) and increase its potential to inhibit the gaseous sulfur emission,a CeO_(2)-enhanced CaSO_(4) OC mixed OC of core–shell structure was prepared using the combined template synthesis method.Reaction characteristics of the prepared CaSO_(4)-CeO_(2) mixed OC with a typical lignite was first conducted and systematically investigated,and an improved reactivity of the prepared CaSO_(4)-CeO_(2) mixed OC was demonstrated than its single component CaSO_(4) or CeO_(2) due to the fast transfer and exchange of oxygen from the CaSO_(4) substrate to coal via the doped CeO_(2).Furthermore,the solid products formed from the mixed CaSO_(4)-CeO_(2) OC with the selected coal were collected and analyzed.Especially,evolution and redistribution of the sulfur species of different forms were focused.At the latter reaction stage of YN reaction with the CaSO_(4)-CeO_(2) mixed OC,the SO_(2) emitted from the side reactions of CaSO_(4) was greatly diminished and the doped CeO_(2) was proven effective to directionally fix the SO_(2) released to turn into different solid sulfur compounds,which were determined as Ce_(2)O_(2)S,Ce_(2)S_(3) and Ce_(2)(SO_(4))_(3)·5H_(2)O and formed through the different pathways.In addition,good regeneration of the reduced CaSO_(4)-CeO_(2) mixed OC could be reached in spite of the unavoidable interaction between the included minerals in coal and the reduced mixed OC.Overall,the combined template method-made CaSO_(4)-CeO_(2) mixed OC reported herein was not only endowed with enhanced reactivity for coal conversion,but also owned the potential to directionally fix the gaseous sulfur emission,which is quite applicable as OC for simultaneous decarbonatization and desulfurization in the real CLC process.

洗选过程中硫元素迁移的影响与燃烧释放特性分析

分析煤炭洗选过程硫元素的迁移和燃烧释放特性。以产自山西的某煤炭作为原料,经过加热洗选获得煤炭产品后,分析洗选时间、洗选温度对于硫元素迁移影响,并对比洗选前后硫元素迁移特性。以未经洗选的原始煤炭、洗选后的精煤和矸石作为对象,分析温度、时间等因素对于硫元素燃烧释放特性影响。结果显示,随着洗选温度增加煤炭洗选后黄铁矿硫的脱出率最高,洗选温度升高降低煤炭含硫量,且对比来看,洗选之后硫元素出现降低迁移变化。燃烧释放试验显示,升高试验温度会导致硫释放量增加,高温环境反应20 min以后硫元素几乎完全释放。

长广煤燃烧硫析出动态特性研究

报道了长广煤燃烧过程中硫动态析出特性的试验结果 ,试验表明 ,煤中硫析出有两个明显的峰值 ,其析出过程与煤中硫赋存形态有很大关系 ,温度对硫析出影响很大 ,它能促进煤中更多的硫提前释放 ,此外 ,钙基添加剂对煤燃烧硫析出有抑制作用 ,但要根据煤中硫赋存形态选择不同的添加剂。

不同气氛下煤燃烧固硫化学反应机理研究进展

针对煤高温下燃烧脱硫技术的效率较低这一现状 ,对钙基固硫剂在流化床燃烧条件下还原性气氛和交变气氛下的固硫反应机理以及煤粉炉燃烧过程中氧化性和还原性气氛下固硫化学反应机理的研究现状进行了详细的评述 ,并在前人研究的基础上提出了不同气氛下流化床和煤粉炉燃烧条件下石灰石固硫化学反应机理研究的若干趋势 .

煤在不同O_2/CO_2气氛下燃烧硫析出特性研究

研究了煤在不同氧体积分数、混有CO2气氛下燃烧硫析出特性,结果表明,煤在低氧、混有CO2气氛下燃烧,SO2和H2S析出速率曲线均呈现双峰结构,H2S析出率明显增大,硫析出时间延长;在高氧气氛下,SO2和H2S析出速率曲线均呈现单峰结构,硫析出时间缩短。煤在低氧体积分数、混有CO2气氛下燃烧能够改善煤灰自固硫能力,降低硫的最终析出率;煤在高氧体积分数、混有少量CO2气氛下燃烧与空气气氛下燃烧相比,硫的最终析出率无明显变化。

添加剂对燃煤电石渣固硫的促进作用

The high sulfur coal Hunan Meitanba was used as the experiment sample.The carbide slag was added based on the Ca/S mol ratio of 1.5. K2CO3,Al2O3,Fe2O3 and rare earth minerals(weight of rare earth oxides above 58%) about 1.0% were added in the coal respectively.The promotion effects of the additives and catalytic mechanism on carbide slag sulfur capture were studied.The results show that 4 additives have good promotion effects on sulfur capture by carbide slag between 800 ℃ and 1 100 ℃.Adding K2CO3 has the best sulfur capture result at about 1 100 ℃.Decomposition temperature of carbide slag and utilization efficiency of Ca are improved to increase sulfur capture ratio when Al2O3 is added.Fe2O3 has a good effect on sulfur capture,and the effect weakens with increasing temperature.Rare earth element has particular electronic shell structure which makes especial catalysis impact on sulfur capture.Al2O3 is the best among the 4 additives and it makes sulfur capture ratio reach above 70%,and rare earth minerals is the second.

石灰石在煤燃烧过程中固硫反应机理研究进展

对石灰石在煤燃烧过程中固硫反应的机理和模型研究进展进行了较为详细的评述，指出碳酸钙的硫酸化作用主要有四种不同的机理， 并且提出了若干石灰石炉内脱硫的研究方向．

超细化煤粉低温燃烧的NO_x、SO_2生成特性研究

在实验室水平管式电炉上 ,在较低温升速率和低温燃烧 (30 0℃— 5 5 0℃ )的条件下 ,分别对经过超细粉碎的合山高硫煤和晋城煤 4种不同粒度煤样的燃料NOx、有机硫分的SO2 和CO生成特性进行了试验研究 .分析了以CO为主的还原性气氛在超细化煤粉燃烧过程中对固氮和固硫所产生的影响 .

不同煤种在一维火焰燃烧过程中硫污染物排放特性研究

试验研究了不同煤种在一维火焰燃烧过程中硫污染物的排放特性,发现不同煤种在相同工况下燃烧硫污染物排放特性差别很大.燃烧温度、二次风温度、煤粉细度和过量空气系数对硫析出产物形式、浓度有较大影响.对锅炉燃烧调整,控制硫污染物排放,防止水冷壁高温腐蚀有一定的指导意义.

煤燃烧过程中硫析出行为的研究

以高有机硫北宿烟煤、高黄铁矿山家林烟煤、高钙基组分杨庄烟煤和阳泉无烟煤为研究对象。利用改进的自动定硫仪对煤燃烧时硫的析出行为进行了研究，其研究结果可对煤燃烧中固硫剂的选择提供依据。

超细化煤粉燃烧硫释放的特性

在德国NETZSCH公司生产的STA 4 0 9C型热天平联合德国BRUKE公司生产的EQUINOX5 5傅里叶红外光谱仪上 (TGA FTIR) ,对合山高硫煤 4种不同粒径煤样的硫释放特性进行了燃烧实验研究 ,重点研究了超细化煤粉 ( 0～ 2 0 μm)的自脱硫特性及加入脱硫剂CaO时的脱硫特性 .结果表明不加脱硫剂时 ,超细化煤粉 (hs1 0 90 )燃烧生成的SO2 气体总量比其它较大颗粒的煤粉燃烧生成的SO2 气体的总量小 .以CaO作脱硫剂钙硫摩尔比(Ca/S)为 3的情况下 ,超细化煤粉 (hs1 0 90 )燃烧生成的SO2 气体总量比其它较大颗粒的煤粉燃烧生成的SO2 气体的总量小得多 .

煤燃烧过程中硫析出影响因素的正交实验研究

采用管式炉正交实验研究了煤燃烧过程中硫析出的主要影响因素与影响规律。结果表明:在煤燃烧过程中,气态硫化物的生成不仅与燃烧条件有关,而且与煤质特性和煤中硫的赋存形态有关。在确定的燃烧条件下,煤在炉内停留时间的影响最大,燃烧温度的影响次之,燃烧气氛的影响较小。正交实验结果所揭示的影响硫析出的各种因素的影响重要度及影响趋势,为考察各单因素对煤燃烧过程中硫析出的影响提供了理论与实验研究方法上的依据。

不同混煤燃烧过程中硫污染物释放特性试验

为了降低电厂燃用高硫贫煤硫污染物的排放,在高硫贫煤中分别掺入低硫贫煤和低硫烟煤组成混煤.利用一维燃烧试验台,对不同混煤的硫析出特性进行研究.结果表明:在贫煤-贫煤混煤燃烧过程中,各单煤SO2析出基本没有相互影响,H2S析出较复杂;在贫煤-烟煤混煤燃烧过程中,随着烟煤掺入比例的加大,SO2析出也随之提前.

利用添加剂改善煤粉固硫性能和燃烧特性的研究

对实验用新汶原煤进行了工业分析 ,确定Ca(OH) 2 为固硫剂 ,在实验温度 1 0 0 0℃、Ca S为 1 5的条件下 ,研究几种固硫添加剂对Ca(OH) 2 固硫能力的影响。实验结果表明 :部分添加剂的加入改善了Ca(OH) 2 的固硫能力 ,提高了固硫效果 ,尤其以 2 # 添加剂为最佳 ,不但降低了原煤的着火点 ,燃尽后的残余量也较小 ,且其固硫率较高。

煤中砷与硫洗选过程迁移和燃烧过程释放特性

以宁武煤田两个洗煤厂原煤及洗选产物为研究对象,采用微波消解与氢化物发生-原子荧光光谱相结合方法考察了洗煤过程硫和砷迁移规律,采用砷质量平衡验证的逐级化学提取法探讨了原煤、精煤、矸石、洗中煤和煤泥燃烧后硫和砷形态转化与释放特性及其依赖性。原煤中20%−28%硫和砷迁移至精煤中,46%−61%迁移至矸石中,Pearson相关系数结果表明,样品中无机矿物质是硫和砷迁移的控制因素。精煤中有机硫和砷提高至30%−50%,而矸石中无机硫和砷占比达90%以上,说明原煤及洗选产物中砷与硫赋存形态具有一定相关性。精煤中较多的有机硫和砷在500℃以下伴随水分和挥发分析出呈现明显释放特征,矸石中以无机态为主的砷则主要在500−1000℃伴随黄铁矿和硫酸盐等矿物质分解与硫一起释放,体现了原煤及洗选产物燃烧时硫与砷释放的同步性。精煤中硫和砷释放速率最快,300和200 s分别达到最大释放率80%−95%和60%−75%;矸石中最慢,300 s时砷达到最大释放率40%−45%,而硫600 s时仍未达最大释放率;洗中煤和原煤介于精煤和矸石之间,样品燃烧时硫和砷赋释放速率差异是由其固有赋存形态差异所致。

煤燃烧中硅酸盐A的高温固硫促进作用

研究了硅酸盐A在不同含量、不同温度下对碳酸钙固硫性能的影响。发现在1200℃高温下,碳酸钙固硫剂中添加一定量的硅酸盐A,固硫率从16％提高到33％,提高率达106％。若添加碳酸钾与硅酸盐A的复合添加剂,则固硫率为36％,提高率为125％。用含硅酸盐A的钙基固硫剂与煤制成型煤,在实际锅炉中于1250℃试烧,其固硫率达47％。

西曲矿8^#高硫煤燃烧固硫试验研究

西曲矿 8# 高硫煤的硫分特点是有机硫含量高 ,当原煤粒度小于 0 .0 5 mm时 ,有机硫含量占总硫的 89.89% .针对其硫分特点 ,进行了燃烧固硫试验研究 .结果表明 ,对 8# 煤使用固硫剂Ca( OH) 2 的效果好于 Ca O,而加入适当的添加剂后 ,可明显提高其固硫效率 ,当燃烧温度为 1 1 5 0℃时 ,固硫效率可达 45 .99% .

贫煤和无烟煤及混煤燃烧硫析出特性研究

实验研究了贫煤、无烟煤及其混煤燃烧时硫析出的动态特性 .结果表明 :贫煤 HZ,YQ及进行实验的各种混煤燃烧时 SO2 动态析出速率曲线呈现典型“双峰”结构 ,而无烟煤 FF呈现出较平坦的单峰结构 .二元或三元混煤实测硫析出速率曲线与按质量配比加权计算硫析出速率曲线相比存在较大差异 .混煤硫析出速率曲线的实测第一峰对应时间比加权计算对应时间有所延迟 .多种煤混烧有促进中低温硫析出的作用 ,随掺配煤种数目增加作用越明显 .混煤燃烧实测硫的最终析出率低于、接近或高于加权计算最终析出率与组分煤的最终析出率。