中国农业机械化科学研究院集团有限公司 主管

北京卓众出版有限公司 主办

太阳能−生物质联合沥青加热蓄热系统试验研究

Experimental study on solar-biomass combined asphalt heating and thermal storage system

  • 摘要: 为解决传统沥青加热方式存在能耗高、污染大问题,构建一种由槽式太阳能集热器、熔融盐蓄热罐和生物质锅炉组成的多能协同沥青加热蓄热系统。试验结果表明,沥青加热蓄热系统可持续稳定满足沥青生产温度需求(>150 °C),平均供能效率76.85%,熔融盐蓄热罐小时热损失率<0.6%;提高搅拌器转速和导热油流速,使沥青平均温升速率提升75%,缩短了生产沥青所需时间。试验验证了太阳能−生物质联合沥青加热蓄热系统在沥青加热领域的可行性,该系统兼具节能、环保与稳定供热的优点,为绿色交通基础设施建设提供了有益参考。

     

    Abstract: To address problems of high energy consumption and heavy pollution associated with traditional asphalt heating methods, a multi-energy synergy asphalt heating and thermal storage system was developed, consisting of parabolic trough solar collectors, molten salt thermal storage tanks, and a biomass boiler.Test results have indicated that asphalt heating and thermal storage system can continuously and stably meet temperature requirement for asphalt production(>150 °C), with an average energy supply efficiency of 76.85%, and an hourly heat loss rate of molten salt thermal storage tank of <0.6%.By increasing agitator speed and heat transfer oil flow rate, average asphalt temperature rise rate was improved by 75%, thereby reducing asphalt production time.Feasibility of solar-biomass hybrid asphalt heating and thermal storage system in field of asphalt heating has been experimentally validated.Featuring advantages such as energy conservation, environmental friendliness, and stable heat supply, valuable insights for green transportation infrastructure construction have been provided.

     

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