Supercritical water oxidation (SCWO) is a promising technique for the treatment of organic wastes.
超临界水氧化法是一种处理有机废水的新兴氧化技术。
Supercritical water oxidation process is a state - of - the - art technology for waste water treatment.
超临界水氧化是一门新兴的废水处理技术。
In this paper, the catalytic supercritical water oxidation of phenolic wastewater from bisphenol Aplant was investigated.
本文针对双酚a生产过程产生的含酚废水,对其在超临界水中的催化氧化过程进行了研究。
This paper trys to provide some information and evidence for recycling of waste tire using supercritical water oxidation method.
本文尝试利用超临界水氧化法处理废旧轮胎,为其有效回收利用和降解处理提供基本依据和必要信息。
Supercritical water oxidation (SCWO) is an effective method of destroying organic compounds contained with an aqueous waste stream.
超临界水氧化法是一种有效处理有机废水的方法。
The supercritical water oxidation is an innovative technology for fast, complete and efficient destruction of organics in wastewater.
超临界水氧化技术是一种快速彻底降解废水中有机物质的新型处理技术。
Wastewater containing acrylic acid was treated by supercritical water oxidation (SCWO) technology in a continuous transpiring wall reactor.
采用超临界水氧化(SCWO)技术在连续蒸发壁式反应器内处理高浓度丙烯酸废水。
Developing from the 80s of the 20th century, the supercritical water oxidation (SCWO) is a promising and effective method for environment protection.
超临界水氧化(SCWO)是20世纪80年代兴起的一项具有高效环保特征的废水处理技术。
Manganese oxide is an efficient catalyst which can enhance the degradation of waste water containing phenol in supercritical water oxidation reaction.
二氧化锰是超临界水氧化反应中的良好催化剂,它能有效地加速含酚废水的彻底降解。
Using supercritical water oxidation process to treat RDX wastewater, the influences of reaction temperature, time and pressure on the treatment effect were discussed.
用超临界水氧化法处理黑索今(rdx)废水进行了试验研究,探讨了反应温度、时间和压力等因素对处理效果的影响。
Meanwhile some new non-incinerating disposal technology of medical wastes which are still being researched are also introduced, such as Supercritical Water Oxidation.
文章最后还介绍了几种新型的有待完善的医疗废弃物非焚烧处理新技术,如超临界水氧化技术、气相化学还原技术等。
Wet air oxidation (WAO) and supercritical water oxidation (SCWO) as innovative wastewater treatment technologies have received considerable research attention in recent years.
湿式空气氧化法(WAO)和超临界水氧化法(SCWO)废水处理技术近年已有广泛研究。
The technology of ultra-microparticle by SCF, enzyme catalysis in supercritical fluid and supercritical water oxidation were introduced, their applications were also elaborated.
结果已在生物工程领域应用的超临界流体技术有 超临界流体酶催化、 超临界流体发酵、超临界流体灭菌和细胞破碎技术等。
This paper introduces the physical and chemical characteristics of supercritical water, and its use of cellulose hydrolysis, supercritical water oxidation and superfine granulation.
介绍了超临界水的物理化学性质以及它在纤维素水解、废水处理和超细造粒等方面的作用。
The basic theory, process and research status of supercritical water oxidation are introduced. Some key issues in its applications and the measures of improving the technique are also analyzed.
介绍了超临界水氧化技术的基础理论、工艺流程,综述了超临界水氧化技术的研究及应用现状,并分析了该技术目前存在的一些问题及其对策。
The review begins with a brief summary of supercritical water oxidation and an overall introduction is made to the technology including reaction mechanism, application and its exiting questions.
文章在总结超临界水的性质和优点的基础上,着重介绍了最新的超临界水氧化反应机理、应用状况及其存在的问题,同时展望了这种新兴技术的应用前景。
The thermal technologies included high temperature over-burning, infrared destruction, plasma arc pyrolysis, molten salt destruction, supercritical water oxidation, in situ vitrification, and etc.
二口恶英治理的热技术包括高温过燃烧技术、红外脱毒技术、等离子体高温分解技术、熔盐脱毒技术、超临界水氧化技术、原位玻璃化技术等;
The features of supercritical water oxidation process with supercritical water as reactive medium and its application in the treatment of organic hazardous wastes such as PCB and dioxin are reported.
分析了机电行业工程项目的特点,并对机电行业主要危险废物的处理技术进行了探讨,以给机电行业进行环境影响评价及企业环境治理作参考。
The corrosion of equipment and catalyst stability during oxidation in supercritical water have been investigated.
研究了超临界水氧化中设备的腐蚀和催化剂的稳定性。
The oxidation efficiency and influence factor of this two kinds of organic compound contain nitrogen in supercritical water were investigated.
研究了这两种含氮有机物在超临界水中的分解氧化效率及其影响因素。
The oxidation efficiency and influence factor of this two kinds of organic compound contain nitrogen in supercritical water were investigated.
研究了这两种含氮有机物在超临界水中的分解氧化效率及其影响因素。
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