Decomposition kinetics of dimethyl methylphospate(chemical agent simulant) by supercritical water oxidation

Supercritical water oxidation （SCWO） has been drawing much attention due to effectively destroy a large variety of high-risk wastes resulting from munitions demilitarization and complex industrial chemical. An important design consideration in the development of supercritical water oxidation is the information of decomposition rate. In this paper, the decomposition rate of dimethyl methylphosphonate（DMMP）, which is similar to the nerve agent VX and GB（Sarin） in its structure, was investigated under SCWO conditions. The experiments were performed in an isothermal tubular reactor with a H2O2 as an oxidant. The reaction temperatures were ranged from 398 to 633℃ at a fixed pressure of 24 MPa. The conversion of DMMP was monitored by analyzing total organic carbon （TOC） on the liquid effluent samples. It is found that the oxidative decomposition of DMMP proceeded rapidly and a high TOC decomposition up to 99.99% was obtained within 11 s at 555℃. On the basis of data derived from experiments, a global kinetic equation for the decomposition of DMMP was developed. The model predictions agreed well with the experimental data.     

Supercritical gasification for the treatment of o-cresol wastewater

The supercritical water gasification of phenolic wastewater without oxidant was performed to degrade pollutants and produce hydrogen-enriched gases. The simulated o-cresol wastewater was gasified at 440-650℃ and 27.6 MPa in a continuous Inconel 625 reactor with the residence time of 0.42-1.25 min. The influence of the reaction temperature, residence time, pressure, catalyst, oxidant and the pollutant concentration on the gasification efficiency was investigated. Higher temperature and longer residence time enhanced the o-cresol gasification. The TOC removal rate and hydrogen gasification rate were 90.6% and 194.6%, respectively, at the temperature of 650℃ and the residence time of 0.83 min. The product gas was mainly composed of H2, CO2, CFL and CO, among which the total molar percentage of H2 and CFL was higher than 50%. The gasification efficiency decreased with the pollutant concentration increasing. Both the catalyst and oxidant could accelerate the hydrocarbon gasification at a lower reaction temperature, in which the catalyst promoted H2 production and the oxidant enhanced CO2 generation. The intermediates of liquid effluents were analyzed and phenol was found to be the main composition. The results indicate that the supercritical gasification is a promising way for the treatment of hazardous organic wastewater.     

超临界锅炉吹灰调阀改造

某电厂超临界锅炉吹灰调阀在使用过程中长期存在内漏、调节线性差、卡涩以及阀座裂纹等问题,严重影响了吹灰系统的正常运行。针对吹灰调阀存在的内漏以及阀座裂纹问题,分析了产生内漏和阀座裂纹的原因,从阀门结构、阀芯结构、阀门各部件材质、执行机构等方面进行了改造。吹灰调阀改造后,解决了原有阀门存在的内漏、调节线性差、卡涩问题,吹灰系统安全可靠性大幅提升,对同类型锅炉阀门选型及改造有参考意义。     

超超临界锅炉SCR脱硝工艺及其调试

在介绍望亭电厂超超临界锅炉脱硝系统工艺特点的基础上,重点对其调试技术进行了分析和研究,并对脱硝系统国产化提出了思路：     

废物利用——柑橘皮提取精油的工艺实验

近年来废物资源化问题日益引起人们的重视,许多国家相继制定了有关法规,科技界还提出了许多废物利用的工艺,无论废气、废液还是废渣,均可在合适条件下转化为资源。本文论述了以中国丰富的柑橘皮为原料,通过超临界CO2萃取技术（supercritical CO2 Fluid Extraction）提取精油,并进行成分分析的工艺实验过程。     

600MW超临界锅炉质量监检的实践及认识

结合两台600MW超临界锅炉质量监检工作实践,对发现问题进行了探讨。     

废弃印刷线路板中材料的资源化回收利用技术

废弃印刷线路板（WPCBs）既有污染环境的一面,又有可资源化回收利用的一面.通过机械物理法、热解、超临界流体氧化和离子液体溶解等方法对其进行分离和回收金属和非金属材料.初步分选的金属需要进一步提纯以实现高附加值.而非金属材料可以用热解法、微波处理、超临界流体技术、等离子技术等技术进行产气和能量回收,也可以通过制备建筑材料或填料和其它功能村料进行物料回收.总之,对WPCBs进行适当地处理不但可以减轻环境压力,还可以变废为宝,实现资源再生利用.     

超临界丙酮降解废弃线路板中的溴化环氧树脂简

探讨废弃线路板中溴化环氧树脂在超临界丙酮中的脱溴降解特性,重点考察了温度、反应时间和有机溶剂添加量对溴化环氧树脂降解特性的影响,确立的最佳实验条件为：温度260℃、保温时间1~2 h、丙酮添加量20~40 mL,系统压强3~6 MPa,此时溴化环氧树脂能够快速降解,脱溴率达到97.94%,降解产物主要为苯酚和异丙基苯酚,含量分别为60.99%和3.12%,降解产物中溴主要以HBr的形式存在于油相中,可以用碱液从油相中萃取脱除。线路板经超临界丙酮处理后,铜箔与玻璃纤维自动分层解离便于后续破碎回收,为废弃线路板的无害化处理和资源回收利用提供了一条新途径。     

超临界流体萃取过程与回收化学物质的品质变化

用超临界二氧化碳从活性炭或土壤等吸附捕集材料中萃取回收三氯乙烯（ＴＣＥ）、四氯乙烯（ＰＣＥ）、邻氯苯酚（ＯＣＰ）、邻硝基苯酚（ＯＮＰ）等一些难分散有机氯化学污染物质和西玛津（ＣＡＴ）等农药时,经历了吸附过程和超临界流体萃取过程的化学物质,经紫外、红外光谱分析,确认没有发生质变的化学变化,而且回收物质具有相当高的纯度,有循环利用的经济价值。     

废聚酯材料化学解聚研究进展

综述了近年来国内外废聚酯材料的酸性水解法、碱性水解法、中性水解法、甲醇醇解法、乙二醇醇解法、异辛醇醇解法、超临界水解法、超临界醇解法和离子液体环境下的废聚酯化学解聚的研究进展.对离子液体化学解聚废聚酯的前景进行了展望.