拖拉机排气余热板翅式蒸发器热力性能分析与参数优化
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国家自然科学基金(51605182);现代农业产业技术体系(CARS-24-D-02);农业农村部长江中下游农业装备重点实验室开发课题(2662020GXPY016)


Thermal performance analysis and parameter optimization of a tractor exhaust waste heat plate-fin evaporator
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    摘要:

    利用拖拉机排气余热能够有效降低燃油消耗,其中基于有机朗肯循环(Organic Rankine Cycle, ORC)的余热能量转换效率最高。该研究根据拖拉机实际空间尺寸,试制了一种板翅式蒸发器用以回收柴油机排气余热。基于移动边界法建立排气与工质对流传热数值模型,结合台架试验数据验证模型有效性,并定量分析了柴油机全工况下蒸发器热力性能。为提高蒸发器传热量和适用范围,采用CFD仿真和BP神经网络进一步分析非设计工况时蒸发器传热特性,并对结构与工质参数进行优化。结果表明:1)蒸发器热力性能随转速和负载增大而提高,最大传热量为69.89 kW,在中低转速负载工况下,蒸发器出现传热不稳定现象;2)增加接管倒角和改变翅片形状,在蒸发器尺寸不变条件下传热量可提高5.2%,传热面积增大0.19 m2;3)通过优化流道、工质流量和进口温度,能够改善中低负载工况热力性能,如柴油机1 500 r/min时,工质流量可在0.03~0.08 kg/s范围变化,最大传热量可达19.46 kW。研究结果可为蒸发器实际应用于拖拉机及与柴油机工况匹配提供参考。

    Abstract:

    The fuel efficiency of the engine is only 15%-35% while the tractor is working in the field, and the exhaust energy accounts for 38%-45% of the energy released by the fuel. The recovery and reuse of exhaust heat energy could help improve fuel efficiency and reduce emissions. Studies have shown that the exhaust waste heat energy based on the Organic Rankine Cycle (ORC) is the highest. The evaporator is a key component of the ORC system, analyzing its thermal performance under limited space conditions of the tractor could provide a theoretical basis for the optimal design of evaporator parameters, thereby effectively improving the utilization of exhaust heat. This study according to the actual size of the tractor, a plate-fin evaporator was trial-produced to recover diesel exhaust waste heat. A numerical model of convective heat transfer between evaporator exhaust and working fluid based on moving boundary method was established and was verified the validity by combining with bench test data, the thermal performance of the evaporator under full operating conditions of the diesel engine was quantitatively analyzed; meanwhile in order to improve the heat transfer and scope of application of the evaporator, CFD simulation and BP neural network methods were used to further analyze the heat transfer characteristics of the evaporator under off-design conditions, the structure and working fluid parameters were optimized. The results showed that: 1) the evaporator had better thermal performance under medium and high speed load conditions, and the heat transfer reached a maximum of 69.89 kW under 4 000 r/min full load conditions, and the heat transfer of the evaporator would be unstable under medium and low speed load conditions due to the lower exhaust heat capacity flow rate, heat transfer coefficient, and a larger working fluid mass flow rate, resulting in the flow was difficult to ensure that the working fluid was transformed into superheated steam, so that the heat transfer in the two-phase zone and the superheat zone was zero within the evaporator. 2) in order to improve the distribution and turbulence of the fluid in the flow channel, increasing the pipe chamfer and adopting the corrugated fin shape to promote forced heat exchange, the CFD simulation showed the entire high-temperature area moved forward to the inlet of the nozzle to make the flow channel utilization rate higher and heat transfer more. With the optimized structure of the evaporator, the working fluid had a higher degree of overheating under the condition of the same overall size, the maximum heat transfer increased by 5.2%, the heat transfer area increased by 0.19 m2, and the volume only increased by 0.002 m3. 3) combined with the BP neural network algorithm, the evaporator flow channel length, working fluid flow and inlet temperature were optimized parameters, and the thermal performance of the evaporator under off-design working conditions was further analyzed, and the parameter range under the medium and low speed load conditions is determined. Thus, the selection range of the working fluid flow rate at different speeds was proposed, which effectively improving the thermal performance of the evaporator under low-to-medium speed load conditions, and providing a reference for the selection of the transmission ratio of the booster pump and the output speed of the diesel engine and the selection of the transmission device. For example, when 1 500 r/min was under a medium and high load, the flow rate could be changed from 0.03 kg/s to 0.08 kg/s and the maximum heat transfer up to 19.46 kW; at the same time, the transmission ratio could be set to 0.78-1.88 at 1 500 r/min. The results of the study are of great significance and present the fluid flow and heat transfer characteristics of the evaporator, which provide a reference for the actual use of the evaporator in tractors and matching with diesel engine operating conditions.

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涂鸣,张国涛,夏晨,胡大伟,曾荣,周勇.拖拉机排气余热板翅式蒸发器热力性能分析与参数优化[J].农业工程学报,2021,37(19):7-17. DOI:10.11975/j. issn.1002-6819.2021.19.002

Tu Ming, Zhang Guotao, Xia Chen, Hu Dawei, Zeng Rong, Zhou Yong. Thermal performance analysis and parameter optimization of a tractor exhaust waste heat plate-fin evaporator[J]. Transactions of the Chinese Society of Agricultural Engineering (Transactions of the CSAE),2021,37(19):7-17. DOI:10.11975/j. issn.1002-6819.2021.19.002

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  • 收稿日期:2021-08-16
  • 最后修改日期:2021-09-26
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  • 在线发布日期: 2021-11-16
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