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机译:吸附热泵母材和复合吸附剂特异性热容量的实验研究
Kyushu Univ Dept Mech Engn Nishi Ku 744 Motooka Fukuoka Fukuoka 8190395 Japan;
Kyushu Univ Int Inst Carbon Neutral Energy Res WPI I2CNER Nishi Ku 744 Motooka Fukuoka Fukuoka 8190395 Japan;
Kyushu Univ Int Inst Carbon Neutral Energy Res WPI I2CNER Nishi Ku 744 Motooka Fukuoka Fukuoka 8190395 Japan;
Kyushu Univ Int Inst Carbon Neutral Energy Res WPI I2CNER Nishi Ku 744 Motooka Fukuoka Fukuoka 8190395 Japan;
Kyushu Univ Int Inst Carbon Neutral Energy Res WPI I2CNER Nishi Ku 744 Motooka Fukuoka Fukuoka 8190395 Japan;
Univ Indonesia Dept Mech Engn Fac Engn Depok 16424 Indonesia;
Kyushu Univ Dept Mech Engn Nishi Ku 744 Motooka Fukuoka Fukuoka 8190395 Japan;
Composite adsorbent; Expanded graphite; Graphene nanoplatelets; Maxsorb III; Specific heat capacity;
机译:吸附热泵母材和复合吸附剂特异性热容量的实验研究
机译:用于吸附热泵应用的碳基吸附剂的比热容
机译:Cuo-石蜡纳米复合材料热能储能材料的热管传热性能实验研究
机译:使用差示扫描量热法对Al 6061-SiC-Gr混合金属基复合材料的特定热容量和焓的实验研究
机译:固体吸附剂热驱动热泵的分析和设计。
机译:具有高蒸气吸收能力和强大的循环稳定性的Y型沸石吸附剂可用于高级吸附热泵中
机译:沸石Y吸附剂具有高蒸气吸收能力和强大的循环稳定性,适用于先进吸附式热泵的潜在应用