MIL-101微通道涂层-异丁烷吸附制冷性能研究任务书
2020-06-26 19:48:13
1. 毕业设计(论文)的内容和要求
吸附制冷是利用固体吸附剂对吸附质(制冷剂)的吸附过程而获得冷量,可用太阳能或工业余热驱动等低品位热能,具有绿色环保、结构简单、运行费用低、无噪音和应用范围广等诸多优点。
现如今,吸附制冷方面的研究,主要从吸附制冷工质对、吸附床传热传质以及系统循环及结构等方面推动吸附制冷技术的发展。
mil-101是一类新型微孔/中孔材料,具有比表面积大、孔径大小及表面基团可调等优点,是最有应用前景的 mofs 材料之一。
2. 参考文献
[1] 崔群, 陶刚, 姚虎卿. 固体吸附制冷吸附剂的研究进展[J]. 南京化工大学学报 (自然科学版), 1999, 6: 033. [2] 王如竹, 王丽伟, 吴静怡. 吸附式制冷理论与应用[M]. 科学出版社, 2007. [3] Fernandes MS, Brites GJVN, Costa JJ, Gaspar AR, Costa VAF. Review and future trends of solar adsorption refrigeration systems. Renew Sustain Energy Rev 2014;39:102-23. [4] Sharafian A, Bahrami M. Assessment of adsorber bed designs in waste-heat driven adsorption cooling systems for vehicle air conditioning and refrigeration. Renew Sustain Energy Rev 2014;30:44-51 [5] Wang R Z, Oliveira R G. Adsorption refrigeration-an efficient way to make good use of waste heat and solar energy[J]. Progress in Energy and Combustion Science, 2006, 32(4): 424-458. [6] Saha B B, Koyama S, Lee J B, et al. Performance evaluation of a low-temperature waste heat driven multi-bed adsorption chiller[J]. International Journal of Multiphase Flow, 2003, 29(8): 1249-1263. [7] Saha B B, Koyama S, Kashiwagi T, et al. Waste heat driven dual-mode, multi-stage, multi-bed regenerative adsorption system[J]. International Journal of Refrigeration, 2003, 26(7): 749-757. [8] Henninger S K, Schicktanz M, H#252;genell P P C, et al. Evaluation of methanol adsorption on activated carbons for thermally driven chillers part I: Thermophysical characterisation[J]. international journal of refrigeration, 2012, 35(3): 543-553. [9] Henninger S K, Schmidt F P, Henning H M. Water adsorption characteristics of novel materials for heat transformation applications[J]. Applied thermal engineering, 2010, 30(13): 1692-1702. [10] Zhong Y, Critoph R E, Thorpe R. Evaluation of the performance of solid sorption refrigeration systems using carbon dioxide as refrigerant[J]. Applied Thermal Engineering, 2006, 26(16): 1807-1811. [11] Jakob U. Sorption heat pumps for solar cooling applications[C]//International Symposium on Innovative Materials for Processes in Energy Systems (IMPRES2013), Fukuoka, Japan, Sept. 2013: 4-6. [12] Aristov Y I. Adsorption dynamics in adsorptive heat transformers: Review of new trends[J]. Heat Transfer Engineering, 2014, 35(11-12): 1014-1027. [13] F#233;rey G, Mellot-Draznieks C, Serre C, et al. A chromium terephthalate-based solid with unusually large pore volumes and surface area[J]. Science, 2005, 309(5743): 2040-2042. [14] Freni A, Bonaccorsi L, Calabrese L, et al. SAPO-34 coated adsorbent heat exchanger for adsorption chillers[J]. Applied Thermal Engineering, 2015, 82: 1-7. [15] Kummer H, F#252;ldner G, Henninger S K. Versatile siloxane based adsorbent coatings for fast water adsorption processes in thermally driven chillers and heat pumps[J]. Applied Thermal Engineering, 2015, 85: 1-8. [16] Kummer H, Baumgartner M, H#252;genell P, et al. Thermally driven refrigeration by methanol adsorption on coatings of HKUST-1 and MIL-101 (Cr)[J]. Applied Thermal Engineering, 2017, 117: 689-697. [17] Ma L, Yang H, Wu Q, et al. Study on adsorption refrigeration performance of MIL-101-isobutane working pair[J]. Energy, 2015, 93: 786-794.
3. 毕业设计(论文)进程安排
2018-02-26#8212;03-10 查阅国内外有关文献,做文献综述;拟订实验方案。
2018-03-11#8212;05-12 按照实验要求进行各种实验工作。
2018-05-12#8212;05-23 进行实验数据的处理,开始撰写论文。
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