Letter to the Editor: On the Economic Utilization of Oil Shale

W. P. Krebs
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Abstract

A method and apparatus to conduct O2/CO2 combustion or oxygen-enriched combustion. The boiler exhaust gas passes through a Gas Primer Sector (GPS) combined with the boiler to effect heat transfer to the combustion gas in indirect counter-flow heat exchange. Sharply reduced gas flows result from using largely moisture-free CO2 as diluent for O2 in the combustion gas which allows long residence time at low velocity for maximum heat transfer from the exhaust gas to the combustion gas. Most particulate drops out and most moisture is condensed from the cooled mostly CO2 exhaust gas. The larger portion is blended with oxygen for the combustion gas and reheated and returned to the boiler through the integrated GPS; the smaller portion is cleaned and separated, the CO2 released or recovered. The complete exhaust gas-combustion gas cycle may be 30 to 90 seconds and preferably about 60 seconds. The high heat capacity of CO2 allows a much higher oxygen content in the combustion gas compared to open-cycle air combustion with a large nitrogen content of lower heat capacity. Efficiency is increased. Final exhaust gas separation and recovery is simplified. Condensate is processed to boiler feedwater or portable water quality. NO x is eliminated, mercury fume captured and CO2 output reduced.
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给编辑的信:论油页岩的经济利用
一种进行O2/CO2燃烧或富氧燃烧的方法和设备。锅炉废气通过与锅炉结合的燃气底火区(GPS),以间接逆流换热的方式向燃烧气体进行换热。由于大量使用不含水分的二氧化碳作为燃烧气体中O2的稀释剂,气体流量急剧减少,从而允许在低速下长时间停留,从而最大限度地从废气传递到燃烧气体。大部分颗粒脱落,大部分水分从冷却后的二氧化碳废气中冷凝。较大的部分与用于燃烧气体的氧气混合,再加热后通过集成GPS返回锅炉;较小的部分被清洗和分离,二氧化碳被释放或回收。完整的废气-燃烧气体循环可为30 ~ 90秒,最好为60秒左右。与开式循环空气燃烧相比,二氧化碳的高热容量使燃烧气体中的氧含量高得多,其中氮含量高,热容量低。效率提高了。简化了最终废气的分离和回收。凝结水经处理后为锅炉给水或输送水质。消除了nox,捕获了汞烟,减少了CO2输出。
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