化学工业:2017 -热解的国内基础原料300°C和应用程序的产品——胡珊Jouhara胡珊Jouhara
全球废弃资源以惊人的速度增加。目前的技术可以治疗各种各样的这些资源。然而,大部分的废物转化方法大规模经济上不可行,有许多并发症。高温热解通常操作以热降解原料合成气,生物和生物炭。高温热解具有很高的成本和危险方面在国内层面上运作。因此,低温热解提供了热降解机制,减少成本,生产高价值的产品。化学生物原油形成于低温热解的特征相似的柴油和汽油。化学改革可能需要确保生物属性适合预期用途。由轻质烃链产生的合成气以及二氧化碳和有限公司有可取的特点形成的生物炭作为滤水器。这些特点包括大孔隙大小分布、高吸附容量和无毒的化合物,如多环芳烃的多环芳烃,形成。 The entire different product phases formed contains high heating values, enabling them to be used as fuel resources. These products can also be used as chemical feedstock for various chemical processes. Low temperature pyrolysis offers an alternative method to dispose of discarded household materials and recover valuable chemicals. The advantages of such process are low cost and the least environmental impact and a wide range of applications of its products. The by-products which arise at more elevated temperatures are discussed so that the outcomes of low temperature pyrolysis may be put into context. Our throwaway society is a globally growing issue, the continued discarding of valuable resources into landfill sites is highly undesirable due to many of these materials being non-biodegradable and some may produce toxic gases which are harmful to the environment if discarded in an uncontrolled way. Domestic and industrial sorting and transport of discarded resources result in an increase in carbon footprint as well as a high cost. Therefore, an alternative resource management method is required in order to achieve a more sustainable and less harmful method of managing these valuable resources in the future. Below 300 °C, the products of pyrolysis are generally expected largely to contain biochar, bio-oil and syngas Biography Hussam Jouhara is an Associate Professor in Brunel University London since obtaining his PhD from Manchester University in 2004. He has unique expertise in working on applied heat exchangers and energy-related research activities with direct support from research councils and various UK and international industrial partners. He has extensive expertise in designing and manufacturing various types of heat exchangers, including heat pipes and heat pipe-based heat exchangers for low, medium and high temperature applications. His work in the field of heat pipe based heat exchangers resulted in novel designs for recouperators, steam generators & condensers and flat heat pipes. These have been implemented across various industries including, but not limited to: food, electronics thermal management and low to high industrial waste heat recovery and Energy from Waste. hussam. jouhara@brunel.ac.uk
胡珊Jouhara
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