The Transpiring Wall Reactor (TWR) is a promising reactor developed for the Supercritical Water Oxidation (SCWO) process in order to overcome salt deposition and corrosion problems. The TWR consists of a reaction chamber surrounded by a wall through which clean water circulates, forming a cool, protective film against corrosive agents, salt deposition and scaling and high temperatures. The University of Valladolid (UVa) has developed and tested successfully a TWR at pilot plant scale (Feeds of 20 L/h). Conversions (TOC removals) higher than 99.9% has been obtained working with residence times lower than one minute and reaction temperatures between 600 and 700°C. The TWR have been scaled up basing on the experimental results obtained and in a mathematical model carried out to reproduce the behavior of this reactor. In this paper, the new configuration of the reactor is presented and the preliminary experiments shown. The implantation of the new reactor in the demonstration scale pilot plant situated in Santovenia de Pisuerga (Valladolid, Spain) is studied. Simulations results of the behavior of the reactor working with flows of 200 kg/h and using oxygen as an oxidant, prior to their implementation in the demonstration plant are also shown.
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机译:转导壁反应器(TWR)是为超临界水氧化(SCWO)工艺开发的有前途的反应器,以克服盐沉积和腐蚀问题。 TWR由壁围绕的反应室组成,所述壁通过清洁水循环,形成凉爽,保护膜,抗腐蚀剂,盐沉积和缩放和高温。 Valladolid大学(UVA)已经成功开发并在试点植物秤上成功进行了测试(20 L / h的饲料)。已经获得了高于99.9%的转换(TOC去除),其停留时间低于1分钟,反应温度在600-700℃之间。对TWR的缩放基于获得的实验结果和在进行的数学模型中进行以再现这种反应器的行为。在本文中,提出了反应器的新配置,并显示了初步实验。研究了位于Santovenia de Pisuerga(西班牙Valladolid,西班牙)的演示规模试验工厂中的新反应堆的植入。还示出了在其在示范厂的实施之前,仿真使用200kg / h的流动与200kg / h的流量和使用氧气作为氧化剂的仿真结果。
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