混合加热反应器内Ca(OH)_(2)/CaO热化学储能体系实验

热化学储能(thermochemical energy storage,TCES)技术是未来可再生能源社会最具前景的技术之一。Ca(OH)_(2)/CaO TCES体系因其储能密度较高、环境友好、廉价等特点受到人们的广泛关注。本工作建立了一个直接与间接混合加热的固定床反应器实验平台,进行了空气氛围下的储/释热实验,探究了混合加热反应器内的储热特性与限制因素,并在此基础上探究了在反应器尺度改善循环性能的可行方案。实验研究表明,采用直接与间接混合加热的方式,使得反应呈现向心推进与逐层推进相结合的形式,增进了储能反应的速率;反应性能随着循环次数增多逐渐下降,5次循环后的储能反应最大转化率降低了5.6%,10次循环相较于5次循环的反应最大转化率降低了3.8%。TG实验与粒径测试结果表明,空气中CO_(2)是造成循环性能下降的主要因素;提高脱水温度可以有效恢复循环性能,650℃时所提供的过余温度可以有效降低反应物中CaCO_(3)的含量。

粒度和温度对纳米Ca(OH)_(2)溶解行为的影响

以微米级到纳米级的Ca(OH)_(2)粉末作为原料,采用pH玻璃电极的测试方法分析粉末粒度和溶解温度对Ca(OH)_(2)溶解过程的影响。研究表明:溶解过程在表面反应控制条件下,拟合得到的表观溶解速率常数随着粒度的减小而增大,当溶解温度由25℃增加到55℃、平均粒度由3.81μm降低到56.47 nm时,Ca(OH)_(2)的表观溶解速率常数从6.17×10^(-4)mol/(L·s)增加到了2.01×10^(-3)mol/(L·s),Ca(OH)_(2)的表观溶解反应级数为1.78;当温度分别为25℃、35℃、45℃、55℃时,粒度与表观溶解速率常数呈函数关系。利用Arrhenius方程回归获得平均粒度为3.81μm、0.82μm、78.90 nm、56.47 nm的Ca(OH)_(2)粉末在25~55℃条件下的表观溶解活化能分别为31.99 kJ/mol、31.73 kJ/mol、27.55 kJ/mol、17.80 kJ/mol。纳米Ca(OH)_(2)溶解能够在更短的时间达到较高的pH值,有提高根管消毒效率的可能。

Halogen chlorine triggered oxygen vacancy-rich Ni(OH)_(2) with enhanced reaction kinetics for pseudocapacitive energy storage

Two-dimensional (2D)Ni(OH)_(2) nanosheets can theoretically expose their active sites of 100%.Whereas,their intrinsic easy accumulation and low conductivity lead to weak and unsustainable reaction kinetics.Herein,we propose a novel halogen chlorine-triggered electrochemical etching strategy to controllably manage the reaction kinetics of 2D Ni(OH)_(2) nanosheets(EE/Cl-Ni(OH)_(2)).It is found that halogen chlorine doping can adjust the interlamellar spacing flexibly and promote the lattice oxygen activation to achieve controlled construction of superficial oxygen defects at the adjustable voltage.The optimal EE/Cl-Ni(OH)_(2) electrode exhibits a high rate capability and excellent specific capacity of 206.9 mA h g^(-1) at 1 A g^(-1) in a three-electrode system,which is more than twice as high as the pristine Ni(OH)_(2).Furthermore,EE/Cl-Ni(OH)_(2) cathode and FeOOH@rGO anode are employed for developing an aqueous Ni-Fe battery with an excellent energy density of 83 W h kg^(-1),a high power density of 17051 W kg^(-1),and robust durability over 20,000 cycles.This strategy exploits a fresh channel for the ingenious fabrication of highefficiency and stable nickel-based deficiency materials for energy storage.

Experimental and numerical studies of Ca(OH)_(2)/CaO dehydration process in a fixed-bed reactor for thermochemical energy storage

The Ca(OH)_(2)/CaO thermochemical energy storage(TCES)system based on calcium looping has received extensive attention owing to its high energy storage density,prolonged energy storage time,and environmental friendliness.The heat storage process of the Ca(OH)_(2)/CaO TCES system in a mixed heating reactor was evaluated in this study,by employing a combination of direct and indirect heating modes.The dehydration process was studied experimentally,and a numerical model was established and verified based on the experimental results.The dehydration behavior of 500 g of Ca(OH)_(2) powder was investigated in a fixed-bed reactor with mixed heating.The experimental and simulation results indicated that mixed heating causes combined centripetal and horizontal propulsion.Heat input is the main limiting factor in the heat storage process,because the radial advance of the reaction is hindered by the low thermal conductivity of the solid reactant particles.Heat transmission partitions were added to enhance the performance of the reactor.The performance of the modified reactor was compared with that of a conventional reactor.The radial heat transmission partitions in the modified reactor effectively enhance the energy storage rate and reduce the reaction time by 59.5%compared with the reactor without partitions.

Experimental study on the desulfurization and evaporation characteristics of Ca(OH)_(2) droplets

The experiments were conducted to focus on the desulfurization and evaporation characteristics of lime slurry droplets at 298-383 K. We designed an evaporation-reaction chamber with quartz glass windows.The monodisperse slurry droplet stream was injected into the evaporation reaction chamber, and the inlet gas components(air, air + SO_(2)) were introduced into the chamber. We applied the magnified digital in-line holography to measure the droplet parameters and calculated the evaporation rate. The effects of temperature, droplet concentration, and SO_(2) concentration on the evaporation rate of Ca(OH)_(2) droplets were discussed. Moreover, the Ca(OH)_(2) droplets under different experimental conditions were sampled,and the droplets were observed and analyzed using an off-line microscope. The evaporation rate of the Ca(OH)_(2) droplet increased at first, and then decreased during the falling process, and remained constant at last. The average evaporation rate of the Ca(OH)_(2) droplets increased significantly with the temperature increasing.

Ca(OH)_2预处理对水稻秸秆沼气产量的影响(英文)

生物质材料经碱预处理后的发酵效率和甲烷产气量明显增加。为了提高预处理技术的经济效益及简化其工艺流程,利用自行设计的可控性恒温发酵装置,以秸秆为发酵原料,研究发酵沼液以及Ca(OH)2预处理对于水稻秸秆厌氧发酵产气量的影响。结果表明,与对照相比,沼液和Ca(OH)2预处理后的水稻秸秆木质素、半纤维素和纤维素含量显著降低,产气量明显提高。其中,Ca(OH)2预处理的产气量高于沼液预处理,8%浓度的Ca(OH)2下的秸秆产气量最高,为14374mL,比对照增加100.91%。该研究认为采用Ca(OH)2预处理水稻秸秆不仅简洁方便,成本低廉,而且具有较高的沼气产量,因此,可作为提高户用沼气产气效率的方法。

改性CaCO_3代替Ca(OH)_2高温净化烟气中HCl气体的研究

在分析CO2对Ca（OH）2吸收HCl气体影响的基础上，研究了CaCO3类吸收剂替代Ca（OH）2在高温下吸收HCl气体的可行性．研究表明：Ca（OH）2在高温干式净化HCl的过程中，很大一部分是以CaCO3的形式反应的．与普通CaCO3相比，经NaOH溶液改性的CaCO3具有更高的反应活性，在550～650℃的高温段内的反应率甚至优于Ca（OH）2，且在600℃下对应的HCl平衡体积分数与Ca（OH）2相当或更低；因此，可以替代Ca（OH）2用作焚烧烟气中HCl气体吸收剂．600℃是改性CaCO3取代Ca（OH）2的合适反应温度．

H_2O_2/Ca(OH)_2浆液同时脱硫脱硝的热力学研究

烟气同时脱硫脱硝技术是当前大气污染防治领域的研究热点,其中氧化剂液相吸收法极有可能率先实现产业化。利用化学热力学原理计算了H2O_2/Ca(OH)_2浆液同时脱硫脱硝的摩尔反应吉布斯函数、摩尔反应焓变、化学反应平衡常数以及化学反应达到平衡时的SO_2和NO的分压力。结果表明:利用H2O_2/Ca(OH)_2浆液同时脱硫脱硝是可行的,且几乎可以100%地脱除烟气中的SO_2和NO。

火山渣-Ca(OH)_(2)-H_(2)O系统中的火山灰反应研究

采用X射线衍射法以及TG/DSC综合热分析研究了火山渣-Ca(OH)_(2)-H_(2)O系统中的火山灰反应。结果表明,在火山渣-Ca(OH)_(2)-H_(2)O系统中,火山渣中的活性Al2O3与Ca(OH)_(2)发生反应生成了新的结晶相物质水化铝酸四钙。随着反应龄期的延长,火山渣-Ca(OH)_(2)-H_(2)O系统中Ca(OH)_(2)含量在不断下降,反应产物水化铝酸四钙的数量在不断上升。90 d龄期之前,Ca(OH)_(2)含量下降的幅度较小,180 d龄期之后Ca(OH)_(2)含量的下降的幅度较大。

内嵌加热管束反应床Ca(OH)_(2)/CaO热化学储能性能研究

热化学储能在能量密度以及能量的长期存储上较显热储能和潜热储能2种方式具有较大的优势,并且在远距离输送上具有比较小的能量损失。采用热化学储能中的Ca(OH)_(2)/CaO储能体系进行数值研究,旨在探索内嵌加热管束反应床的尺寸以及加热温度与反应床储热性能之间的关系。针对多孔反应床内的储能反应建立一个物化模型,采用数值计算的方法将反应床反应过程中的传热传质过程进行量化分析。以反应床的储能率表征反应床的储热性能并分析不同工况下的反应模式。结果表明内嵌管束加热方式比反应床外壁加热有更高的储热性能,尽管前者的加热面积远小于后者,但与后者相比,其储能率仍提高3.8%左右。另外,研究发现在不同的反应率下反应床尺寸变化对储能率的影响效果不同。对反应床的加热温度变化研究表明,不同的尺寸参数对加热温度的变化敏感程度也是不同的。对于文中反应床,当额定加热温度为863K,半径为120 mm,高650mm时反应床的储能效率达到最高。

Simultaneous CO_(2) capture and thermochemical heat storage by modified carbide slag in coupled calcium looping and CaO/Ca(OH)2 cycles

The simultaneous CO_(2) capture and heat storage performances of the modified carbide slag with byproduct of biodiesel were investigated in the process coupled calcium looping and CaO/Ca(OH)2 thermochemical heat storage using air as the heat transfer fluid.The modified carbide slag with by-product of biodiesel exhibits superior CO_(2) capture and heat storage capacities in the coupled calcium looping and heat storage cycles.The hydration conversion and heat storage density of the modified carbide slag after 30 heat storage cycles are 0.65 mol·mol^(-1) and 1.14 GJ·t^(-1),respectively,which are 1.6 times as high as those of calcined carbide slag.The negative effect of CO_(2) in air as the heat storage fluid on the heat storage capacity of the modified carbide slag is overcome by introducing CO_(2) capture cycles.In addition,the CO_(2) capture reactivity of the modified carbide slag after the multiple calcium looping cycles is enhanced by the introduction of heat storage cycles.By introducing 10 heat storage cycles after the 10th and 15th CO_(2) capture cycles,the CO_(2) capture capacities of the modified carbide slag are subsequently improved by 32%and 43%,respectively.The porous and loose structure of modified carbide slag reduces the diffusion resistances of CO_(2) and steam in the material in the coupled process.The formed CaCO_(3)in the modified carbide slag as a result of air as the heat transfer fluid in heat storage cycles decomposes to regenerate CaO in calcium looping cycles,which improves heat storage capacity.Therefore,the modified carbide slag with by-product of biodiesel seems promising in the coupled calcium looping and CaO/Ca(OH)_(2) heat storage cycles.

高比表面积Ca(OH)_(2)应用于焦化厂烟气脱硫的研究分析

为提高Ca(OH)_(2)脱硫剂脱硫效率,制备了高比表面积(BET)Ca(OH)_(2),并在工业化装置进行了干熄焦尾气干法脱硫和焦炉烟气脱硫试验。结果表明,与普通的Ca(OH)_(2)相比,高BET Ca(OH)_(2)的理化指标和脱硫效率都有明显提升,且脱硫剂用量更少;将其直接喷入脱硫塔进行干熄焦尾气脱硫,不需要喷水加湿也能将烟气中SO_(2)质量浓度控制在30 mg/m^(3)以下,说明其脱硫活性高,可以代替干法脱硫剂NaHCO_(3)。

Ca(OH)_(2)预浸泡浓度对碳化增强再生骨料混凝土性能的影响

将产量逐年递增的建筑固废进行加工,生产再生骨料替代天然骨料,可以消耗建筑固废,减少矿产资源开采。采用CO_(2)加速碳化再生粗骨料,可提高其吸水率和压碎指标,同时还能起到固碳作用,有利于助力碳中和。为了提高碳化效率,将再生粗骨料浸泡于Ca(OH)_(2)溶液进行预处理,并研究不同浸泡浓度对再生粗骨料及其所制备的再生骨料混凝土性能的影响。结果表明:Ca(OH)_(2)溶液浸泡浓度为4 mol/kg时,碳化效果最优,再生粗骨料的吸水率和压碎指标比未处理时,分别提高了10.4%和9.4%,所制备的再生骨料混凝土的28 d抗压强度和劈裂抗拉强度则分别提高了8.4%和18.6%。

Manganese doping to boost the capacitance performance of hierarchical Co_(9)S_(8)@Co(OH)_(2) nanosheet arrays

Transition metal sulfides(TMSs)have been regarded as greatly promising electrode materials for supercapacitors because of abundant redox electroactive sites and outstanding conductivity.Herein,we report a self-supported hierarchical Mn doped Co_(9)S_(8)@Co(OH)_(2) nanosheet arrays on nickel foam(NF)substrate by a one-step metal–organic-framework(MOF)engaged approach and a subsequent sulfurization process.Experimental results reveal that the introduction of manganese endows improved electric conductivity,enlarged electrochemical specific surface area,adjusted electronic structure of Co_(9)S_(8)@Co(OH)_(2) and enhanced interfacial activities as well as facilitated reaction kinetics of electrodes.The optimal Mn doped Co_(9)S_(8)@Co(OH)_(2) electrode exhibits an ultrahigh specific capacitance of 3745 F g^(-1) at 1 A g^(-1)(5.618 F cm^(-2) at 1.5 mA cm^(-2))and sustains 1710 F g^(-1) at 30 A g^(-1)(2.565 F cm^(-2) at 45 mA cm^(-2)),surpassing most reported values on TMSs.Moreover,a battery-type asymmetric supercapacitor(ASC)device is constructed,which delivers high energy density of 50.2 Wh kg^(-1) at power density of 800 W kg^(-1),and outstanding long-term cycling stability(94%capacitance retention after 8000 cycles).The encouraging results might offer an effective strategy to optimize the TMSs for energy-storage devices.

利用电导率传感器和pH值传感器探究Ca(OH)_(2)与SO_(2)反应

Ca(OH)2溶液与SO_(2)反应在理论上是能够观察到浑浊现象的,类似Ca(OH)2溶液与CO_(2)反应,但是实际实验中并不能看到明显的浑浊现象,实验过程中有时根本就观察不到。本实验利用电导率传感器和pH值传感器探究Ca(OH)_(2)与SO_(2)反应的实验,获得滴定曲线图,让学生能够直观地看到实验反应的基本过程。

Ca(OH)_2垫底在前牙Ⅲ类洞中的临床应用

目的 探讨Ca(OH)_2对龋齿修复中预防牙髓炎的临床作用。方法 选取有2颗同名前牙Ⅲ类龋坏患者,随机选一颗牙先用Ca(OH)_2垫底再行光固化修复,另一颗直接光固化修复。结果 对照组100颗牙有8颗出现牙髓炎症状,有3颗发生继发龋,充填成功率89％;Ca(OH)_2垫底组100颗牙有1颗发生继发龋,无一颗牙髓炎症,充填成功率99％,比较有显著性差异(P<0.01)。结论 光固化复合树脂对牙髓有一定的刺激性,尤其是在年轻恒牙,而Ca(OH)_2垫底后,可以减少牙髓刺激症状。

Ca(OH)_(2)脱水过程数值研究及强化

建立了Ca(OH)_(2)/CaO反应器脱水过程的多孔介质流动换热模型,对Ca(OH)_(2)/CaO热化学储能系统的脱水过程进行了三维数值模拟研究,分析了储能系统在脱水过程中温度、反应物浓度的动态变化,并针对该反应系统设计了一系列强化传热传质措施,通过增加多种类型翅片、添加多孔通道及金属板、改变反应器高径比、采用圆台型反应器来强化传热及传质,分析了各种工况下储能系统的温度、压力变化情况。结果表明:添加翅片有利于强化反应器的传热性能,提高脱水过程速率;添加多孔通道一方面可以强化传热,另一方面多孔结构可以作为水蒸气的扩散通道,减小水蒸气扩散阻力,强化传质;在孔隙率不变的前提下,增大反应器高径比会强化反应器的传热性能,但是会增加水蒸气扩散阻力。改变反应器高径比会对反应器传热及传质性能产生影响;采用圆台型反应器时,其脱水反应的快慢取决于反应器最大截面处的反应速率大小。相比于传质,传热对圆台反应器的脱水过程起主要影响;对于研究尺寸下的反应器,强化传热对反应系统性能的提升作用优于强化传质。研究结果可为热化学储能反应器的结构优化与性能提升提供一定的参考价值。

Tailoring electron transfer with Ce integration in ultrathin Co(OH)_(2) nanosheets by fast microwave for oxygen evolution reaction

The intrinsic activity of Co(OH)_(2) for oxygen evolution reaction(OER)may be elaborately improved through the suitable valence adjustment.Ce modification at electronic level is proved to be an efficient strategy owing to the flexible transformation of Ce^(3+)/Ce4+.Herein,Ce0.21@Co(OH)_(2) with the optimized Ce doping have been fabricated to tailor the fast electron transfer for the enhanced activity and stability for OER.Firstly,the obtained core-shell structure composed of vertical loose Co(OH)_(2) sheets not only exposes a large number of active sites,but also provides channels for Ce doping.Secondly,the high pressure microwave with instantaneous heating can fast introduce Ce into Co(OH)_(2),obtaining Cex@Co(OH)_(2) with well dispersion and close integration.The intimated interaction between Ce and Co species may provide the"d-f electronic ladders"for accelerating electron transfer of the catalytic surface.Meanwhile,Ce promotes the formation of Co-superoxide intermediate and/or the release of oxygen,which is considered to be the rate-determining step for OER.The electrochemical measurements confirmed the low overpotential of 300 m V at 10 m A cm^(-2) and great stability of Ce0.21@Co(OH)_(2) for OER.This work demonstrates a meaningful approach to realize the tuned electronic structure through metal doping.

Chemical and Thermal Characterization of Cement Mortar Containing Ground Palm Oil Fuel Ash as a Partial Cement Replacement

This study investigates the influence of using ground palm oil fuel ash(G-POFA) from 10%-30% as cement replacement(by weight) on the cement mortar's pH under various curing conditions. These findings were supplemented by thermal gravimetric analysis(TGA). Moreover, the resistance of G-POFA blended cement mortars to water absorption and sorptivity was determined. Further, the k-value test was carried out to explain the pozzolanic and filler behavior of G-POFA and to support the results obtained from TGA. It was found that there was no significant impact of several curing conditions on the pH of mortars. The mortar with 10% G-POFA in replacement of cement(G-POFA-10) exhibited the best resistance against water absorption and sorptivity.

检验空气中含有CO_(2)实验的新设计

由于空气中的CO_(2)含量极低(体积含量约为0.04%),用澄清Ca(OH)_(2)溶液难以检测出空气中的CO_(2),笔者用打气筒和小试管组装成一套新装置进行实验,发现澄清Ca(OH)_(2)溶液体积越小、浓度越大时,浑浊现象越明显。