APPLICATION OF FACTORIAL EXPERIMENTAL DESIGN TO DETERMINE THE OPTIMUM TEST PARAMETERS FOR A 36-L DUST EXPLOSION EQUIPMENT

机译：阶乘实验设计的应用确定36-L防尘设备的最佳试验参数

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In this work, we used a systematic calibration methodology to identify the operating conditions for a customized 36L dust explosion equipment to obtain results comparable to standardized equipments such as 20L or 1 m~3 vessels. The parameters considered for the equipment calibration included initial vacuum level, dust dispersion time, and ignition delay time. By employing factorial analysis for the experiment design, we determined that the dust dispersion time is the most important factor affecting the dust cloud turbulence inside the vessel, and hence the magnitude of the K_(St) values. In a more fine-tuning of the test parameters, we adjusted the ignition delay times to obtain K_(St) values that are in agreement with other standard apparatus, and that are reported in round robin tests reports. The calibration of the equipment was verified by conducting a complete dust explosive characterization of niacin samples used in calibration round robin test (CaRo 2001). The results obtained with the 36-L dust explosion equipment showed a good agreement with the reported data, which demonstrates the effectiveness of the strategy followed for the calibration.

机译：在这项工作中，我们使用了系统校准方法来识别定制的36L粉尘爆炸设备的操作条件，以获得与标准化设备相当的结果，例如20L或1M〜3血管。考虑的设备校准的参数包括初始真空水平，灰尘分散时间和点火延迟时间。通过采用实验设计的因子分析，我们确定灰尘分散时间是影响血管内部尘埃云湍流的最重要因素，因此k_（st）值的大小。在更微调测试参数中，我们调整了点火延迟时间，以获得与其他标准装置一致的K_（ST）值，并且在循环测试报告中报告。通过进行校准循环试验中使用的烟酸样品的完全粉尘表征来验证设备的校准（Caro 2001）。用36-L粉尘爆炸设备获得的结果表明，与报告的数据吻合良好，这表明校准后策略的有效性。

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《Institution of Chemical Engineers symposium on hazards》|2011年||共6页
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Diana Castellanos; Victor H. Carreto-Vazquez; Chad V. Mashuga; M. Sam Mannan;
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中图分类安全科学;
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APPLICATION OF FACTORIAL EXPERIMENTAL DESIGN TO DETERMINE THE OPTIMUM TEST PARAMETERS FOR A 36-L DUST EXPLOSION EQUIPMENT

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