Evaluation of dynamic responses of a BFB boiler furnace by means of CFD modelling

IF 3 Q2 ENGINEERING, CHEMICAL Digital Chemical Engineering Pub Date : 2023-06-01 DOI:10.1016/j.dche.2023.100095
Marko Huttunen, Sirpa Kallio
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Abstract

In the paper, a model for dynamic CFD simulation of BFB boiler furnaces is presented. A CFD model is used in the freeboard region while the bed region is modeled by means of a 0D model. The dynamic model is then applied on a 76 MW BFB boiler furnace to analyse response times to process changes. In the paper, a validation study was first carried out by simulating a known load change situation for which measured heat transfer and oxygen concentration data were available. The model proved to correctly predict the changes. With the validated model, effects of step changes in boiler load and fuel moisture content were then evaluated. According to the model, it takes roughly 30–40 min for the bed to settle to a new steady state. The gas properties after superheaters settle in only a couple of minutes. For the heat transfer to the water and steam side, response time scale is roughly 10 min. The study shows that the developed modeling tool is applicable to analysis of time delays and response times, which are otherwise difficult to analyse in real boilers during normal operation.

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基于CFD模型的BFB锅炉炉膛动态响应评价
本文建立了BFB锅炉炉膛动态CFD仿真模型。干舷区采用CFD模型,河床区采用0D模型。将该动态模型应用于76mw BFB锅炉炉膛,分析了工艺变化的响应时间。在本文中,首先通过模拟已知的负荷变化情况进行了验证研究,其中测量的传热和氧浓度数据可用。该模型被证明能够正确地预测气候变化。利用验证过的模型,对锅炉负荷和燃料含水率阶跃变化的影响进行了评价。根据该模型,大约需要30-40分钟才能使床稳定到一个新的稳定状态。过热器后的气体特性在几分钟内就稳定下来了。对于水侧和蒸汽侧的换热,响应时间尺度大致为10 min。研究表明,所开发的建模工具适用于分析实际锅炉正常运行时难以分析的时间延迟和响应时间。
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