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1.
朱丹丹  许雄文  刘金平  卢炯 《化工学报》2021,72(5):2528-2546
采用聚四氟乙烯纳米颗粒涂料在50 mm×100 mm铜基表面构造超疏水表面以及条纹图案混合润湿性表面。为探究条纹倾角对冷凝换热的影响,条纹与铜板宽度方向分别成90°与60°的混合润湿性表面被应用于实验中。实验结果表明,超疏水表面传热系数hdwc与混合润湿性表面冷凝传热系数hhybrid随换热温差ΔTsub增大而增大。同时,hdwchhybrid与冷凝液的脱落频率存在强相关关系,脱落频率越高,hdwchhybrid越大。超疏水表面冷凝液脱落频率低,hdwc在0~20 K的换热温差范围内始终低于膜状凝结。混合润湿性表面能有效强化超疏水表面的冷凝换热,条纹倾角为60°的表面在ΔTsub为11.3 K时测得最高传热系数16.64 ?kW/(m2?K),是超疏水表面传热系数的2.14倍;而条纹倾角为90°的表面在ΔTsub为13.8 K时测得最高冷凝传热系数13.63 kW/(m2?K),是超疏水表面传热系数的1.68倍。  相似文献   

2.
Feammox系统内氮素转化途径的研究   总被引:2,自引:0,他引:2       下载免费PDF全文
吴悦溪  曾薇  刘宏  李健敏  彭永臻 《化工学报》2020,71(5):2265-2272
铁氨氧化(anaerobic ammonium oxidation coupled to Fe(Ⅲ) reduction,Feammox)是指在厌氧条件下,氨氮氧化耦合三价铁还原的一种新型污水生物脱氮工艺。为确定Feammox反应系统中存在的氮转化的途径,在厌氧条件下接种普通活性污泥驯化培养Feammox,探究了不同途径对氨氮转化的贡献率并进行了相关性分析。研究结果表明:在厌氧间歇反应器ASBR中,经过120 d的富集培养,NH4+-N最大去除率达53.8%,最大去除量约26.9 mg/L,其中Feammox反应途径对NH4+-N去除的贡献率为57.7%,厌氧氨氧化(Anammox)约占42.3%。在典型周期分析发现,在0~7 h内对NH4+-N去除量为14.74 mg/L,Anammox反应速率较快,起主导作用;7~24 h 对NH4+-N去除量为12.16 mg/L,以Feammox反应为主;在整个运行周期内铁盐反硝化(nitrate-dependent Fe(Ⅱ) oxidizing,NDFO)去除NO3--N约5 mg/L。由相关性分析可得,NH4+-N浓度与Fe(Ⅲ)、NO2--N浓度呈显著性正相关(PFe<0.05、PNO2<0.01),而NO3--N与Fe(Ⅲ)呈负相关(P<0.5)。实验结果表明在Feammox、Anammox以及NDFO共同作用下,该系统实现了污水自养型脱氮。  相似文献   

3.
三元混合气体燃料爆炸特性实验研究   总被引:1,自引:0,他引:1       下载免费PDF全文
利用定容燃烧弹爆炸实验平台结合高速纹影摄像技术,系统研究了组分浓度和当量比对氢气/二甲醚/甲烷三元混合气体燃料爆炸特性的影响。结果表明:平均火焰传播速度Sa随氢气浓度XH2的增加单调递增,随二甲醚浓度XDME和甲烷浓度XCH4的增加单调递减。压力峰值pmaxXH2的关系受到当量比φ的强烈影响,当φ=0.8、1.0和1.2时,pmaxXH2先缓慢线性增加然后快速增加;而当φ=0.6、1.4和1.6时,pmax始终线性增加;同时,pmaxXCH4线性递减,而随XDME的变化可分为两个时期。XH2与最大压力上升速率(dp/dt)max呈正相关关系,XCH4与之呈负相关关系,而XDME对(dp/dt)max的影响不大。燃烧时间tcXH2XCH4存在线性关系;而XDMEtc的影响较为复杂,与φ有关。  相似文献   

4.
采用氧化铝为载体的铜基复合催化剂在固定床与无梯度组合反应器上考察了氯化氢催化氧化制氯气的反应行为。在反应温度T=360~400℃、进料摩尔配比nHCl/nO2=1~4、HCl空速W/FHCl0=0.01~60h-1以及常压条件下考察了反应温度、进料摩尔比、HCl空速等工艺条件对HCl转化率与反应速率的影响。结果表明:在到达化学平衡以前,HCl转化率和反应速率随着反应温度的升高或反应气体摩尔配比nHCl/nO2的降低而升高;随着反应空速FHCl0/W的降低,HCl转化率先逐渐升高,而HCl反应速率逐渐降低。在达到化学平衡以后,转化率随着反应温度的升高或反应气体摩尔配比nHCl/nO2的升高或反应空速FHCl0/W的降低而降低,反应速率为零。控制反应温度在390~400℃范围内,原料气摩尔比nHClnO2为(4∶3)~(4∶2),HCl空速W/FHCl0在2.5h-1左右,此时的HCl转化率可达到60%~70%,且HCl反应速率保持在(0.2~0.25)mmol/(g·min)。本文采用的联合实验装置对于化学平衡前后的反应行为均能较好地考察,为考察与研究同类反应的反应行为开辟了新思路。  相似文献   

5.
生物法降解高氯酸盐(ClO4-)作为一种经济、高效、二次污染小的技术,在处理ClO4-方面取得了显著的效果。本文综述了高氯酸盐还原菌还原ClO4-的主要机理、不同菌株的来源及特性、降解过程中其他因素(如电子受体、电子供体、pH、温度、盐度和重金属等)对高氯酸盐还原菌性能的影响并对高氯酸盐还原菌的应用现状进行了概述。指出高氯酸盐还原菌广泛存在于环境中,可通过一系列还原酶将ClO4-还原为Cl-,但是不同菌株的还原机理可能存在一定差异需进一步研究。同时操作参数和环境因子均会对高氯酸盐还原菌降解ClO4-性能产生或正或负的显著影响。电子供体的额外投加作为生物法的缺点,使得其在实际工程中的应用非常有限。因此,寻找经济性较好的电子供体并将其应用在实际工程中是未来生物法降解ClO4-研究的热点。本文就电子供体的投加策略及未来高氯酸盐降解研究方向提供了一些见解,以期实现生物法更经济、高效地应用在实际ClO4-污染水体处理中。  相似文献   

6.
污水厂排水中硝酸盐氮(NO3-N)浓度偏高,难利用常规生物脱氮工艺实现NO3-N的深度脱除。以铁基质高效催化脱氮载体为污水中NO3-N的脱除材料,探究不同铁基质催化活性、pH和NO3-N浓度等对污水中NO3-N去除的影响及机制。研究结果表明:添加催化剂D的铁基质高效催化脱氮载体可脱除92.23%的NO3-N,调节污水为酸性至中性条件时,其NO3-N去除率均可达到92.09%以上,且氨氮(NH4+-N)积累量先升高后降低;当污水为碱性条件时,NO3-N的去除率亦可达86.13%以上,且在碱性条件时无NH4+-N积累;原水中NO3-N的浓度变化(20~70 mg·L-1)对铁基质高效催化脱氮载体的脱氮性能影响较小,NO3-N去除率均达到96.11%以上。与催化剂A、B和C相比,添加催化剂D的铁基质高效催化脱氮载体脱氮速率最快,NO3-N降解反应过程符合一级反应动力学方程,反应速率常数k=0.0170 min–1。  相似文献   

7.
以L-苏氨酸和香兰素为起始原料,设计并合成了9种新型光催化材料C24H28K2N2O10Sn、C24H28FeK2N2O10、C24H36FeK2N4O10、C24H28Cl2K2N2NiO10、C24H28K2N4NiO16、C24H28K2N2O10Zn、C28H34K2N2NiO14、C24H28CoK2N2O10和C24H28BaK2N2O10,通过IR、MS(EI)、荧光分析和元素分析等对形成的希夫碱及其金属衍生物进行表征,推断其可能的化学结构,用紫外漫吸收研究光催化性质, 预测是一类潜在的环保性光催化材料。  相似文献   

8.
刚柔组合桨强化软锰矿浸出过程的反应动力学特性   总被引:1,自引:0,他引:1       下载免费PDF全文
在软锰矿湿法浸出过程中,采用传统搅拌桨反应器,容易出现流体“打旋”现象,导致传质效果差,进而降低反应效率。因而,本研究将刚柔组合桨应用于软锰矿的还原浸出过程,强化浸出过程的传质行为,提高锰矿浸出率。结果表明,在黄铁矿与软锰矿质量比为0.20,硫酸浓度为1.5 mol/L,液固比为10,温度为363 K下,软锰矿中锰的浸出率达到90.12%,与传统桨叶相比,锰浸出率提高5.5%。同时,研究发现浸出过程遵循核收缩模型且受表面化学反应控制,黄铁矿与软锰矿质量比、初始硫酸浓度、液固比的反应级数分别为1.2679、0.4182、1.1959,反应动力学方程为1- (1-X1/3=0.96×103mFeS2/mMnO21.2679 [H2SO4]0.4182(L/S)1.1959exp(-41.75 ×103/RTt,浸出反应的表观活化能为41.75 kJ/mol。刚柔组合桨体系下的软锰矿浸出反应表观活化能相比传统搅拌体系下的软锰矿浸出反应表观活化能的文献报道值降低4.515~20.54 kJ/mol。  相似文献   

9.
过氧单硫酸盐(PMS)及过二硫酸盐(PDS)在工业污染场地修复中应用广泛,通过活化作用能够产生氧化性更强的·SO4-自由基,从而更好地氧化降解有机污染物。本文比较了几种典型活化方式,包括紫外(UV)、碱、过渡金属、热以及含碳物质,并分析了它们的优缺点及适用条件;讨论了过硫酸盐活化机理及动力学过程;分析了无机阴离子(Cl-HCO3-/CO32-NO3-NO2-HPO42-H2PO4-)与·SO4-自由基相互作用及其对有机污染物氧化降解的影响;针对活化过硫酸盐在工业污染场地修复领域的应用,对过硫酸盐活化方法的发展趋势进行了展望。理论研究和实践表明,过硫酸盐不同活化方式为工业污染场地修复提供了多样选择,多种活化方式协同作用将是过硫酸盐高效活化氧化降解有机污染物的发展方向。由于Cl-HCO3-/CO32-抢夺·SO4-的能力较强,认为这些无机盐与有机物复合的污染场地或土壤采用PDS修复需格外谨慎选择活化方法。  相似文献   

10.
磷是一种不可再生资源。为解决现有磷污染以及磷资源流失等问题,通过油浴与热化学还原相结合的方法,成功制备出一种NiFe-LDH/rGO电活性杂化膜材料。使用电化学方法,在氧化还原电位的控制下,Ni、Fe(Ⅱ/Ⅲ)双金属发生核外电子的跃迁,高价态的Ni、Fe(Ⅲ)与PO43-发生内球络合作用,实现PO43-的选择性置入-置出。实验获得270 mg·g-1的高PO43-吸附容量及85%以上的再生效率。此外,该杂化膜材料在共存离子存在的复杂水体中,对PO43-具有优异的选择性,为磷石膏渗滤液以及各种含磷废水污染等问题的解决提供有效的理论技术支撑,具有广阔的应用前景。  相似文献   

11.
With the development of microreaction technology and the key issues of liquid-liquid batch bromination process for the synthesis of 4-bromo-3-methylanisole, a modular microreaction system was constructed by taking microreactor and microbead-packed bed as the major functional microdevice units to intensify the bromination of methylanisole. And in this modular microreaction system, the liquid-liquid heterogeneous continuous bromination of 4-bromo-3-methylanisole was studied. The following optimized conditions were obtained, concentration of Br2 (xBr2): 17.5 wt%, molar ratio of Br2 to methylanisole (nBr2/nM): 1.01, initial reaction temperature (T): 0℃, residence time (τ): 0.78 min, with yield of 4-bromo-3-methylanisole more than 98%, and percentage of polybrominated side product less than 1%. Comparing with the conventional batch process, the continuous microreaction technology has obvious advantages. For example, it can change the traditional batch process to a continuous one with a significant increase of productivity (space time yield: 6.5×104 kg/(m3·h)). Besides, since this process is mainly controlled by mass transfer, the modular microreaction system with excellent mass transfer could reduce 50% of polybrominated side product. The study might provide a good foundation for the continuously controllable synthesis of 4-bromo-3-methylanisole in safety.  相似文献   

12.
4-Bromo-3-methylanisole is mainly used to synthesize black fluorane dye (2-anilino-3-methyl-6- dibutylaminofluorane, ODB-2), which is one of the most important heat and pressure-sensitive dyes in the manufacture of thermal papers. Compared to the industrial heterogeneous batch process, a continuous homogeneous bromination technology in a modular microreaction system has been developed, and 4-bromo-3-methylanisole has been successfully prepared through high-selective mono-bromination of 3-methylanisole with Br2 solution in CHCl3. In optimal conditions, the content of bis-brominated byproducts can be controlled less than 0.5%, which is superior to the industrial standard with 99.5% 3-methylanisole conversion at very short residence time and mild reaction temperature.  相似文献   

13.
4-Bromo-3-methylanisole is mainly used to synthesize black fluorane dye(2-anilino-3-methyl-6-dibutylaminofluorane, ODB-2), which is one of the most important heat and pressure-sensitive dyes in the manufacture of thermal papers. Compared to the industrial heterogeneous batch process, a continuous homogeneous bromination technology in a modular microreaction system has been developed, and 4-bromo-3-methylanisole has been successfully prepared through high-selective mono-bromination of 3-methylanisole with Br_2 solution in CHCl_3. In optimal conditions, the content of bis-brominated byproducts can be controlled less than 0.5%,which is superior to the industrial standard with 99.5% 3-methylanisole conversion at very short residence time and mild reaction temperature.  相似文献   

14.
Drop size distribution(DSD) or mean droplet size(d32) and liquid holdup are two key parameters in a liquid–liquid extraction process. Understanding and accurately predicting those parameters are of great importance in the optimal design of extraction columns as well as mixer–settlers. In this paper, the method of built-in endoscopic probe combined with pulse laser was adopted to measure the droplet size in liquid–liquid dispersions with a pump-impeller in a rectangular mixer. The dispersion law of droplets with holdup range 1% to 24% in batch process and larger flow ratio range 1/5 to 5/1 in continuous process was studied. Under the batch operation condition, the DSD abided by log-normal distribution. With the increase of impeller speed or decrease of dispersed phase holdup, the d32 decreased. In addition, a prediction model of d32 of kerosene/deionized system was established as d_(32)/D = 0.13(1 + 5.9φ)We~(-0.6). Under the continuous operation condition, the general model for droplet size prediction of kerosene/water system was presented as d_(32)/D = C_3(1 + C_4φ)We~(-0.6). For the surfactant system and extraction system, the prediction models met a general model as d_(32)/D = bφ~nWe~(-0.6).  相似文献   

15.
以Na2CO3为沉淀剂,初步研究了多组分氯盐混合体系(0.6 mol MgCl2+1.1 mol LiCl+3.2 mol NaCl)中选择性沉镁的工艺规律。结果表明:在25~80 ℃,总C与总Mg物质的量比[n(CT)/n(MgT)]为 0.8~1.1时,25 ℃形成针状MgCO3·3H2O,40 ℃以上形成Mg5(CO34(OH)2·4H2O不规则片状团聚微球,其中40~50 ℃形成的片状物较为分散且粒径较小,导致固液分离困难。40 ℃时沉镁率最低。温度越高,Li2CO3越易形成,沉锂率越大。n(CT)/n(MgT)越大沉镁率和沉锂率越高。室温(25 ℃)、n(CT)/n(MgT)=1.0时,沉镁率达98%以上,且沉锂率<0.1%,镁锂分离效果最好。  相似文献   

16.
The Randles circuit well represents impedance measurements carried out with activated Pt electrodes. This enables us to study the variation of jo for redox reactions with concentration of the reactants, at constant potential, and also the variation of jo with potential, keeping constant the concentration of one of the reactants. The results thus obtained indicate that the step Br2 + e Br2 is rate-determining; it is followed or preceded by the rapid equilibria Br2 Br + Br 2Br Br2. The mechanisms proposed hitherto for the electrochemical behaviour of the halogen/halide systems at inert electrodes are discussed, and it is reasoned that the ‘reversibility’ of these systems increases in the order Cl2/Cl < Br2/Br < I2/I.  相似文献   

17.
N, N-二甲基乙酰胺、氯化胆碱、乙二醇或丙三醇以不同的摩尔比(1:1:3, 1:1:4)合成了一系列三元低共熔离子液体(nDMA:nCC:nethylene glycol=1:1:3, 1:1:4, nDMA:nCC:nglycerol=1:1:3, 1:1:4)。在293.15~323.15 K温度下, 间隔10℃, 0~600.0 kPa压力范围内, 用等温饱和法测量了CO2在三元体系中的溶解度。CO2在体系中的溶解度随压力增大呈线性增大趋势, 随温度升高而减小。计算了亨利常数, 结果表明, CO2在由N, N-二甲基乙酰胺, 氯化胆碱, 乙二醇以摩尔比1:1:3合成的三元体系, 温度为293.15 K下, 亨利常数最小, 最小值为2.174 MPa·kg·mol-1。报道了关于CO2吸收的热动力学性质, 包括焓变、熵变、Gibbs自由能变。其中, 焓变为负值, 说明此吸收为放热过程。  相似文献   

18.
To clarify the effect of substitutional electron doping on the thermoelectric figure of merit (ZT = S2σTκ−1) of Ruddlesden–Popper phase SrO(SrTiO3)n (or Srn+1TinO3n+1), measurements were conducted for several thermoelectric parameters, e.g. electrical conductivity (σ), Seebeck coefficient (S) and thermal conductivity (κ), of (Sr1−xREx)n+1TinO3n+1 (n = 1 or 2, RE (rare earth): La or Nd, x = 0.05 and 0.1) dense ceramics prepared by a conventional solid-state reaction and hot-pressing technique. Crystal structures of the resultant ceramics were represented as (Sr1−xREx)n+1 TinO3n+1 evaluated by powder X-ray diffraction followed by the Rietveld analysis. All the ceramics exhibited electrical conductivity and the σ values simply depended on the dopant concentration, indicating that both La3+ and Nd3+ ions act as electron donors. The |S| values increased with temperature due to decrease in the chemical potential. Significant reduction of the κ values was observed as compared to cubic-perovskite SrTiO3. The ZT value increased with temperature and reached 0.15 at 1000 K for (Sr0.95La0.05)3Ti2O7.  相似文献   

19.
本文用传统高温熔融法熔制Li2O-Al2O3-SiO2系高铝玻璃,改变碱金属氧化物n(Li2O)/n(Na2O)的摩尔比,运用阿基米德排水法、热膨胀仪、DSC、傅里叶变换红外光谱和拉曼光谱等测试手段和仪器,探究了混合碱金属效应对Li2O-Al2O3-SiO2系玻璃结构和热膨胀性能的影响。结果显示:随着n(Li2O)/n(Na2O)比例增大,混合碱金属效应对Li2O-Al2O3-SiO2系玻璃的密度和热膨胀系数的影响一致,表现为先增大后减小,当R=0.25(R=n(Li2O)/[n(Li2O)+n(Na2O)],摩尔比)时,出现极值,此时密度达到最大2.447 4 g/cm3,热膨胀系数达到最大7.811 7×10-6/℃;对玻璃特征温度的影响随着温度的升高而逐渐减弱至消失;对玻璃的析晶能力有一定的提升作用;对玻璃三维骨架结构中的硅氧四面体Qn的影响也各不相同。  相似文献   

20.
郑勋  徐宇  花儿 《化工学报》2019,70(z2):85-93
通过前期实验研究,己基乙二胺-三氟甲磺酸([HHex][TFS])型质子化离子液体(protic ionic liquid,PIL)的极性部位具有两个氨基,亲水性较强,能够与水混溶90%(质量)(H2O/ PIL)以上。因此利用密度泛函理论(density functional theory,DFT),在M06-2X/6-311G(d,p)的水平下,对 [HHex][TFS]与H2O分子间形成的氢键作用进行了研究。设计了[HHex][TFS]分别与nH2O (n = 1, 2, 6) 相结合的构型,并得到了较稳定构型共8种(S1~S8),计算了其分子间的相互作用能(ΔE 0 BSSE)、分子振动频率(Δν)、二阶微扰能、电子密度(ρ c)以及Laplace值(?2 ρ c)。分析结果显示,[HHex][TFS]与水分子间形成了较强的氢键,[HHex][TFS]与H2O结合数量增加,构型中氢键相互作用增强,即S4(n=1)<S6(n=2)<S8(n=6)。  相似文献   

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