空调冷凝热热回收技术研究现状及发展趋势

界定了空调冷凝热热回收系统的分类,总结了国内外空调冷凝热热回收技术的研究现状,提出了空调冷凝热热回收技术的发展趋势。     

基于实际换热的ORC亚/跨临界综合评价

本文以有机朗肯循环(ORC)跨临界与亚临界工质换热特性最新研究成果为基础,采用热力学指标热源回收(火用)效率,以及经济学中的净现值(NPV)概念,结合换热面积分析,建立了考虑实际换热情况的热力学及经济性模型,更合理、更全面地对亚临界循环与跨临界循环的热力学性能和经济性进行了统一分析,为工程实际中亚临界和跨临界的选择提供...     

氦气回收纯化系统的设计与应用

为实现激波风洞试验尾气氦气(氦含量>80%)的回收和循环利用，研制了一套氦气回收与纯化系统。该系统采用三塔真空变压吸附的技术将试验尾气中的氮气等杂质气体去除，得到纯度大于98%的氦气。系统采用开式纯化和闭式纯化相结合的工艺方式，将氦气的回收率提高到97%。系统调试结果表明，研制的氦气回收纯化系统在常温条件下实现了风洞试验尾气的回收、纯化和循环使用，有效地降低了风洞运行和维护成本，同时也节约了氦气资源。     

石墨烯负载的氧配位钴单原子稳定金属锂负极

Lithium (Li)-based batteries are the dominant energy source for consumer electronics, grid storage, and electrified transportation. However, the development of batteries based on graphite anodes is hindered by their limited energy density. With its ultrahigh theoretical capacity (3860 mAh∙g⁻¹), low redox potential (−3.04 V), and satisfactorily low density (0.54 g∙cm⁻³), Li metal is the most promising anode for next-generation high-energy-density batteries. Unfortunately, the limited cycling life and safety issues raised by dendrite growth, unstable solid electrolyte interphase, and "dead Li" have inhibited their practical use. An effective strategy is to develop a suitable lithiophilic matrix for regulating initial Li nucleation behavior and controlling subsequent Li growth. Herein, single-atom cobalt coordinated to oxygen sites on graphene (Co-O-G SA) is demonstrated as a Li plating substrate to efficiently regulate Li metal nucleation and growth. Owing to its dense and more uniform lithiophilic sites than single-atom cobalt coordinated to nitrogen sites on graphene (Co-N-G SA), high electronic conductivity, and high specific surface area (519 m²∙g⁻¹), Co-O-G SA could significantly reduce the local current density and promote the reversibility of Li plating and stripping. As a result, the Co-O-G SA based Li anodes exhibited a high Coulombic efficiency of 99.9% at a current density of 1 mA∙cm⁻² with a capacity of 1 mAh∙cm⁻², and excellent rate capability (high current density of 8 mA∙cm⁻²). Even at a high plating capacity of 6 mAh∙cm⁻², the Co-O-G SA electrode could stably cycle for an ultralong lifespan of 1300 h. In the symmetric battery, the Co-O-G SA based Li anode (Co-O-G SA/Li) possessed a stable voltage profile of 18 mV for 780 h at 1 mA∙cm⁻², and even at a high current density of 3 mA∙cm⁻², its overpotential maintained a small hysteresis of approximately 24 mV for > 550 h. Density functional theory calculations showed that the surface of Co-O-G SA had a stronger interaction with Li atoms with a larger binding energy, −3.1 eV, than that of Co-N-G SA (−2.5 eV), leading to a uniform distribution of metallic Li on the Co-O-G SA surface. More importantly, when matched with a sulfur cathode, the resulting Co-O-G SA/lithium sulfur full batteries exhibited a high capacity of 1002 mAh∙g⁻¹, improved kinetics with a small polarization of 191 mV, and an ultralow capacity decay rate of 0.036% per cycle for 1000 cycles at 0.5C (1C = 1675 mA∙g⁻¹) with a steady Coulombic efficiency of nearly 100%. Therefore, this work provides novel insights into the coordination environment of single atoms for the chemistry of Li metal anodes for high-energy-density batteries.     

奖惩机制下闭环供应链非正规渠道社会效应研究

针对闭环供应链非正规渠道在促进资源回收再利用的同时又对环境造成二次污染的情况,给出资源回收当量指标以综合考量渠道资源回收和再造污染效应,利用数学优化和数值仿真方法对比分析存在政府奖惩机制下非正规渠道的经济效应和资源回收效应,获得了非正规渠道积极社会效应的通用定理以及不同再造回收率和奖惩强度下非正规渠道社会效应的特点,给出了政府治理非正规渠道的参考建议和分析方法。     

脱硫脱硝后V2O5/AC在含NH3气氛中的再生及硫资源化的耦合过程研究

V2O5/AC具有很好的烟气同时脱硫脱硝能力,脱硫过程包括其对烟气中SO2的吸附、吸附饱和后SO2从其上的脱附（再生）及脱附出SO2的资源化。考察了同时脱硫脱硝后的V2O5/AC在含NH3气氛中的再生和硫资源化的耦合过程。研究了NH3注入量、再生温度、再生时间和尾气循环流量对再生效率、硫回收率及二次脱硫脱硝活性的影响。结果表明,再生温度和再生时间主要影响SO2的脱附,因而影响再生效率和二次脱硫脱硝活性;NH3注入量不影响SO2的脱附,但明显影响硫回收率和二次脱硫脱硝活性;尾气循环模式是提高硫回收率的重要方法,但在研究的条件下循环流量对再生效率、硫回收率和二次脱硫脱硝活性的影响不大。     

锰离子氧化沉淀法实现锂离子电池LiNi0.8Co0.05Mn0.15O2材料的回收和利用

以浓盐酸为浸出剂,以NaOH和NH₄HCO₃为沉淀剂,利用Mn²⁺在碱性条件下的氧化反应改变离子的沉淀次序进而分步回收的方案,探究了浓盐酸酸浸处理三元正极材料LiNi_0.8Co_0.05Mn_0.15O₂的最佳条件。在分步沉淀过程中,Mn²⁺被氧化为不溶于非还原性酸的MnO （OH）₂,并在酸性条件下回收。Ni、Co则在碱性条件下利用NaOH回收,而Li则利用NH₄HCO₃回收。该方法中Mn的回收率达到85.1%,产品纯度达到98.6%; Li的回收率达到95.0%,产品纯度达到99.3%。由回收材料重新合成的三元正极组装的软包电池的首圈放电比容量达到了175 mAh·g^-1,可以以超过99.5%的库仑效率稳定循环50圈。     

醚链改性聚环氧乙烷的合成及性能研究

考察烷基磷酸铝催化剂i-Bu₃Al/H₃PO₄/DBU催化环氧乙烷(EO)、甘醇甲基缩水甘油醚(nGE)与烯丙基缩水甘油醚(AGE)二元及三元共聚合的催化性能,通过核磁共振波谱(NMR)、凝胶渗透色谱(GPC)和示差扫描量热仪(DSC)对共聚物微观结构和热性能进行表征分析。结果表明25℃甲苯溶剂中,i-Bu₃Al/H₃PO₄/DBU催化剂可以高效催化不同比例的EO、nGE和AGE共聚合,以100%收率获得组成精确可控的高分子量EO-nGE二元及EO-AGE-nGE三元无规共聚物;nGE的醚链长度对聚合性能无影响,二甘醇甲基缩水甘油醚(2GE)和四甘醇甲基缩水甘油醚(4GE)均可实现可控引入聚环氧乙烷制备醚链改性聚环氧乙烷。EO-AGE-nGE三元共聚物以1,2-乙二硫醇为交联剂制备了交联聚合物。测试醚链改性聚环氧乙烷的性能,发现醚链长度、含量及交联对聚合物电导率和力学性能有很大影响。4GE为共聚单体的聚环氧乙烷电导率高于2GE。随着醚链含量增大,聚合物电导...     

锂电池中的“锂键”效应

由于广泛存在,氢键在化学领域备受重视。“锂键”具有类似于氢键的一些性质,但锂的金属性和相对较大的原子半径,又使得“锂键”具有自己独特的一些特征。在氢键的基础上,介绍了“锂键”的概念、结构特点及其在锂电池中的应用,有助于人们深刻理解和应用“锂键”。考虑到“锂键”的新概念目前在化学教学中还较少涉及,期望今后可以适当增加“锂键”化学的相关知识,紧跟科技发展的潮流,进一步培养学生的科研创新意识。