Thermal energy storage via reversible chemical reactions is proposed for the assisting cogeneration in nuclear power plants (NPP) for district heating or middle-temperature industrial processes. Thermal energy at 350-400°C from NPP can be stored or released by operating reversible dehydration of magnesium hydroxide (Mg(OH)2) and the hydration of magnesium oxide (MgO). The packed beds can be transported to a different site for reutilization of heat. Expanded graphite (EG) was utilized as thermal conductivity enhancer for Mg(OH)2 and MgO. Composites of Mg(OH)2 and EG, named EM8 and EM4, were obtained by mixing Mg(OH)2 to EG with different mass mixing ratio [g of Mg(OH)2 : g of EG], respectively 8:1 and 4:1. EM8 and EM4 were compressed in figure of tablets (diameter of 10 mm, thickness 6 mm). Heat storage/output experiments were conducted on a packed bed reactor (diameter 48 mm, height 48 mm). Dehydration in a packed bed of EM4 tablets resulted faster than in a bed of EM8 ones, but a larger amount of thermal energy could be stored in the EM8 packed bed (in 60 min, 467 MJ m _(bed)~(-3) for EM8 bed, 379 MJ m _(bed)~(-3) for EM4 bed). The effect of thermal conductivity enhancement was investigated numerically. Finally, the volumes of packed beds of EM8 and EM4 tablets required for thermal energy storage from a nuclear power plant were estimated.
展开▼
机译:提出了通过可逆化学反应的热能储存,用于核发生厂(NPP)的核发电机(NPP)进行地区加热或中温工业过程。通过操作可逆脱水的氢氧化镁(Mg(OH)2)和氧化镁(MgO)的水合,可以储存或释放来自NPP的350-400℃的热能。包装的床可以被运输到不同的部位以进行热量的再利用。扩增的石墨(例如)用作Mg(OH)2和MgO的导热率增强剂。通过将Mg(OH)2混合至例如具有不同质量混合比[Mg(OH)2:g的不同的质量混合比,分别为8:1,通过将Mg(OH)2和Em8和EM4的复合物,例如以不同的质量混合比[G 4:1。 EM8和EM4在片剂图中被压缩(直径为10mm,厚度为6mm)。在填充床反应器(直径48mm,高度48mm)上进行蓄热/输出实验。在EM4片剂的填充床中脱水导致em8床中的速度快,但是较大量的热能可以储存在EM8填充床上(在60分钟内,467 MJ M _(床)〜(-3)对于EM8床,379 MJ M _(床)〜(-3)为EM4床)。在数值上研究了导热率增强的效果。最后,估计了从核电站热能储存所需的EM8和EM4片剂的叠加床的量。
展开▼
