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首页> 外文期刊>The Science of the Total Environment >Drying municipal sewage sludge with v-groove triple-pass and quadruple-pass solar air heaters along with testing of a solar absorber drying chamber
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Drying municipal sewage sludge with v-groove triple-pass and quadruple-pass solar air heaters along with testing of a solar absorber drying chamber

机译:使用V型槽三遍和四遍太阳能空气加热器干燥市政污水污泥,并测试太阳能吸收器干燥室

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摘要

Everyday a large amount of sewage sludge is produced in cities and proper and environmentally friendly municipal wastewater treatment is needed. Finding a convenient and affordable way for sewage sludge refinement to reduce environmental pollution or even utilization of sewage sludge will be a very attractive challenge for scientists. In the recent years, sustainable and renewable energy sources like solar energy are extensively utilized in different fields including heating, electricity generation, and drying applications. In this study, V-groove triple-pass (V-TPSAH) and V-groove quadruple-pass (V-QPSAH) solar air heaters have been designed, manufactured and tested for drying municipal sewage sludge. Also, two different types of drying chambers (DC-I: conventional, DC-II: solar absorber) have been integrated with each solar heater. Experimental and numerical methods have been applied to analyze the efficiency of developed solar air heater assisted drying systems. The system's performance has been tested in different working conditions to clarify the utilization potential of manufactured system. According to the experimental results solar air heater's average efficiency are in the range of 70.12-81.70%. In addition, obtained experimental findings are in line with numerical results. The outcomes of this study present the potential of using the developed systems in drying municipal sewage sludge to be used in multi purposes.
机译:每天,城市中都会产生大量的污水污泥,因此需要适当且环保的市政废水处理。寻找一种方便且负担得起的污水污泥精制方法,以减少环境污染,甚至减少污水污泥的利用,对于科学家来说将是一个非常有吸引力的挑战。近年来,诸如太阳能之类的可持续和可再生能源已广泛应用于不同领域,包括供热,发电和干燥应用。在这项研究中,已设计,制造和测试了用于干燥城市污水污泥的V型槽三次通过(V-TPSAH)和V型槽四次通过(V-QPSAH)太阳能空气加热器。而且,两种不同类型的干燥室(DC-I:常规干燥室,DC-II:太阳能吸收体)已与每个太阳能加热器集成在一起。实验和数值方法已被用于分析已开发的太阳能空气加热器辅助干燥系统的效率。该系统的性能已在不同的工作条件下进行了测试,以阐明制造系统的利用潜力。根据实验结果,太阳能空气加热器的平均效率在70.12-81.70%的范围内。此外,获得的实验结果与数值结果一致。这项研究的结果表明,使用开发的系统干燥市政污水污泥具有多​​种用途。

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  • 来源
    《The Science of the Total Environment》 |2020年第20期|136198.1-136198.12|共12页
  • 作者

    Ataollah Khanlari; Adrian Soezen; Faraz Afshari; Ceylin Sjrin; Azim Dogus Tuncer; Afsin Gungor;

  • 作者单位

    Mechanical Engineering. University of Turkish Aeronautical Association Ankara Turkey;

    Energy Systems Engineering Cazi University Ankara Turkey;

    Mechanical Engineering Erzurum Technical University Erzurum Turkey;

    Energy Systems Engineering Burdur Mehmet Akif Ersoy University Burdur Turkey;

    Energy Systems Engineering Burdur Mehmet Akif Ersoy University Burdur Turkey Natural and Applied Science Institute Gazi University Ankara Turkey;

    Mechanical Engineering Akdeniz University Antalya Turkey Bucak Technology Faculty Burdur Mehmet Akif Ersoy University Burdur Turkey;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Solar air heater; Triple-pass; Quadruple-pass; Sewage sludge; Drying;

    机译:太阳能空气加热器;三遍四通污水污泥;烘干;

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