SCALABLE MICROWAVE WASTE-TO-FUEL CONVERSION

Proceedings 17th International Conference on Microwave and High Frequency Heating Pub Date : 2019-10-15 DOI:10.4995/ampere2019.2019.9839

Megan C. Robinson, Z. Popovic

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Abstract

This paper presents an efficiency study for scalable microwave waste management. When waste with carbon content is subjected to volume power densities on the order of 0.25W/cm3 at GHz frequencies, it converts to solid coke fuel with oil and gas bi-products that can further be processed for fuel, leaving no trace. For an efficient process, a well-controlled uniform RF field should be maintained in a non-uniform and time-variable material. We are developing a 2.45-GHz active microwave cavity with solid-state (GaN) spatially power combined sources for lower volumes, Fig.1. In the energy balance calculations, the input energy into the system consists of the waste chemical energy and the DC electrical energy used to obtain the RF power with an efficiency that can reach 70% for kW power levels. The efficiency of RF power conversion to heat in the waste mass is calculated from full-wave simulations for typical waste mixtures and ranges from 10 to 90% depending on the material and cavity filling. The output energy estimates are collected from various pyrolysis process descriptions, e.g. [1], with the total energy being that of the solid fuel (35MJ/kg) and oil caloric values, e.g. 40MJ/kg for plastics and about 10-15MJ/kg for nonplastics [2]. A byproduct is flue gas which can be converted to Syngas [3]. The total worse-case carbon footprint balance (0.3-3) calculations will be presented. Fig. 1. Block diagram of active microwave cavity for waste to fuel conversion. References D. Czajczyńska, “Potential of pyrolysis processes in the waste management sector,” Thermal Science and Engineering Progress, vol. 3, p. 171. Sept., 2017. J.A. Onwudili, “Composition of products from the pyrolysis of polyethylene and polystyrene in a closed batch reactor: effects of temperature and residence time,” Journal of Analytical and Applied Pyrolysis, vol. 86 p. 293–303. Nov., 2009. S. Chunshan, "Tri-reforming of methane: a novel concept for synthesis of industrially useful synthesis gas with desired H2/CO ratios using CO2 in flue gas of power plants without CO2 separation." Prepr. Pap.-Am. Chem. Soc., Div. Fuel Chem 49, no. 1 (2004): 128.

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可扩展的微波废物转化为燃料

本文介绍了可扩展微波废物管理的效率研究。当含碳废物在GHz频率下受到0.25W/cm3量级的体积功率密度时，它会转化为固体焦炭燃料，并产生石油和天然气副产品，这些副产品可以进一步加工为燃料，不留痕迹。对于一个有效的过程，一个控制良好的均匀射频场应该保持在一个非均匀和时变的材料。我们正在开发一种2.45 ghz有源微波腔，采用固态(GaN)空间功率组合源，体积更小，如图1所示。在能量平衡计算中，输入系统的能量由废弃的化学能和用于获得射频功率的直流电能组成，其效率在kW功率级可达到70%。射频功率在废物堆中转换为热量的效率是根据典型废物混合物的全波模拟计算出来的，根据材料和空腔填充的不同，其范围从10%到90%不等。输出能量估算来自各种热解过程描述，例如[1]，总能量为固体燃料(35MJ/kg)和油热值，例如塑料为40MJ/kg，非塑料[2]约为10-15MJ/kg。副产品是可转化为合成气[3]的烟气。将给出最坏情况下的总碳足迹平衡(0.3-3)计算。图1所示。用于废物转化为燃料的有源微波腔框图。参考文献D. Czajczyńska，“热解过程在废物管理部门的潜力”，热科学与工程进展，第3卷，第171页。9月,2017年。J.A. Onwudili，“封闭间歇式反应器中聚乙烯和聚苯乙烯热解产物的组成:温度和停留时间的影响”，《分析与应用热解学报》，第86卷，第293-303页。2009年11月。春山，“甲烷三重整:利用电厂烟气中CO2合成具有理想H2/CO比的工业合成气的新概念”。Prepr。Pap.-Am。化学。Soc。燃料化学第49课，no。1(2004): 128。

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Proceedings 17th International Conference on Microwave and High Frequency Heating

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