Effect of N_(2) partial pressure on comprehensive properties of antibacterial TiN/Cu nanocomposite coating

Foreign body reactions to the wear debris and corrosion products from the implants,and bacterial infections are the main factors leading to the implant failures.In order to resolve these problems,the antibacterial TiN/Cu nanocomposite coatings with various N_(2) partial pressures were deposited on 304 stainless steels(SS)using an arc ion plating(AIP)system,named TiN/Cu-x(x=0.5,1.0,1.5 Pa).The results of X-ray diffraction analysis,energy-dispersive X-ray spectroscopy,and scanning electron microscopy showed that the N_(2) partial pressures determined the Cu contents,surface defects,and crystallite sizes of TiN/Cu nanocomposite coatings,which further influenced the comprehensive abilities.And the hardness and wear resistances of TiN/Cu coatings were enhanced with increase of the crystallite sizes.Under the co-actions of surface defects,crystallite sizes,and Cu content,TiN/Cu-1.0 and TiN/Cu-1.5 coatings possessed excellent corrosion resistance.Besides,the biological tests proved that all the TiN/Cu coatings showed no cytotoxicity with strong antibacterial ability.Among them,TiN/Cu-1.5 coating significantly promoted the cell proliferation,which is expected to be a novel antibacterial,corrosion-resistant,and wear-resistant coating on the surfaces of medical implants.

Carbon dioxide partial pressure and its diffusion flux in karst surface aquatic ecosystems:a review

Carbon dioxide(CO_(2))emissions from aquatic ecosystems are an important component of the karst carbon cycle process and also a key indicator for assessing the effect of karst carbon sinks.This paper reviewed the CO_(2)partial pressure(pCO_(2))and its diffusion flux(FCO_(2))in karst surface aquatic ecosystems,mainly rivers,lakes,and reservoirs,and their influencing factors summarized the methods for monitoring CO_(2)emissions in karst aquatic ecosystems and discussed their adaptation conditions in karst areas.The pCO_(2)and FCO_(2)decreased in the order of rivers>reservoirs>lakes,and the values in karst lakes were eventually significantly lower than those in global lakes.The pCO_(2)and FCO_(2)of karst aquatic ecosystems had patterns of variation with diurnal,seasonal,water depth and hydrological cycles,and spatial and temporal hetero-geneity.The sources of CO_(2)in karst waters are influenced by both internal and external sources,and the key spatial and temporal factors affecting the CO_(2)emissions from karst rivers,lakes,and reservoirs were determined in terms of physicochemical indicators,biological factors,and bio-genic elements;additionally,the process of human activity interference on CO_(2)emissions was discussed.Finally,a conceptual model illustrating the impacts of urban devel-opment,agriculture,mining,and dam construction on the CO_(2)emissions at the karst surface aquatic ecosystem is presented.Meanwhile,based on the disadvantages existing in current research,we proposed several important research fields related to CO_(2)emissions from karst surface aquatic ecosystems.

Thermokinetic and conductivity analyzes of the high CO2 chemisorption on Li5AlO4 and alkaline carbonate impregnated Li5AlO4 samples:Effects produced by the use of CO2 partial pressures and oxygen addition

The effect of COpartial pressure was evaluated during the COchemisorption in penta lithium aluminate（LiAlO）, using different COand Opartial pressures in the presence or absence of alkaline carbonates. Results showed that using low PO（0.1） did not affect the kinetic and final COchemisorption process. Moreover, small additions of oxygen（PO= 0.05） into the mixture flue gas, seemed to increase the COchemisorption. Additionally, the presence of alkaline carbonates modified the COcapture temperature range. COchemisorption kinetic parameters were determined assuming a double exponential model where direct COchemisorption and COchemisorption controlled by diffusion processes are considered.Finally, ionic diffusion was analyzed by ionic conduction analysis, where all the gravimetric and ionic measurements were in good agreement showing different diffusion processes depending on temperature.Finally, the oxygen and alkaline carbonate additions have positive effects during the COchemisorption process in LiAlO, and a possible reaction mechanism is presented.

Effect of N_2-Gas Partial Pressure on the Structure and Properties of Copper Nitride Films by DC Reactive Magnetron Sputtering

Copper nitride thin films were deposited on glass substrates by reactive direct current （DC） magnetron sputtering at various N2-gas partial pressures and room temperature. Xray diffraction measurements showed that the films were composed of Cu3N crystallites and exhibited a preferential orientation of the [111] direction at a low nitrogen gas （N2） partial pressure. The film growth preferred the [111] and the [100] direction at a high N2 partial pressure. Such preferential film growth is interpreted as being due to the variation in the Copper （Cu） nitrification rate with the N2 pressure. The N2 partial pressure affects not only the crystal structure of the film but also the deposition rate and the resistivity of the Cu3N film. In our experiment, the deposition rate of Cu3N films was 18 nm/min to 30 nm/min and increased with the N2 partial pressure. The resistivity of the Cu3N films increased sharply with the increasing N2 partial pressure. At a low N2 partial pressure, the Cu3N films showed a metallic conduction mechanism through the Cu path, and at a high N2 partial pressure, the conductivity of the Cu3N films showed a semiconductor conduction mechanism.

CO_(2)分压对S135钢在CO_(2)/H_(2)S共存体系中腐蚀行为的影响

为了给井下油气管材的选择和腐蚀预测模型的建立提供理论依据,利用高温高压反应釜进行S135钢在CO_(2)/H_(2)S共存体系中的腐蚀模拟试验,采用失重法、恒载荷法、X射线衍射(XRD)、扫描电镜(SEM)、能谱(EDS)、三维轮廓扫描仪等手段研究了CO_(2)分压对S135钢在温度100℃、CO_(2)/H_(2)S共存体系中腐蚀行为的影响及规律。结果表明,随CO_(2)分压升高,S135钢的腐蚀速率增大,屈服强度损伤加剧,CO_(2)分压为5,10,15,20 MPa时,其屈服强度(σs)损伤率分别为1.4%、3.6%、4.5%和15.9%;抗拉强度(σb)损伤率分别为1.2%、3.4%、5.2%和15.4%。S135钢在低CO_(2)分压下发生全面腐蚀,随CO_(2)分压增大发展为以全面腐蚀为主,辅以局部腐蚀。应力腐蚀裂纹在萌生阶段以局部阳极溶解作用(点蚀)为主,随CO_(2)分压增大应力腐蚀裂纹更易生长,应力腐蚀敏感性增加,加剧了基体的腐蚀进程。

一种新型材料固井水泥石的抗高CO_(2)分压腐蚀性能评价

井下高温、高CO_(2)含量条件使水泥环长效封固周期寿命缩短,水泥环完整性保障难度增大,由于在较高的压力环境下CO_(2)呈现低黏度、高扩散性和高压缩性的超临界特性,会加剧水泥石的腐蚀。本文与常见的6种防腐材料进行防腐性能对比测试,研发了可用于井下高温、高CO_(2)分压环境中的一种新型防腐材料。室内实验结果表明,新型火山灰混合材料由于二次水化反应消耗Ca(OH)_(2)提高水泥石长期强度,且电镜下微观观察分析,新型火山灰混合材料水泥石渗透率更低,CO_(2)环境中养护30 d后水泥石表面仍存在CaSiO_(3),表明侵蚀仍在表层进行。新型火山灰混合材料的水泥石具有30 d腐蚀深度1.17 mm、抗压强度衰退率2.6%、渗透率变化率2.1%更好的抗CO_(2)腐蚀能力,且具有良好的综合施工性能。

新型环保绝缘气体C_(4)F_(7)N/CO_(2)的制备及检测研究

为了进一步探究C_(4)F_(7)N/CO_(2)混合气体在高压电气设备中的应用潜能,本研究搭建C_(4)F_(7)N/CO_(2)混合气体制备系统,采用分压法制备了C_(4)F_(7)N体积分数不同的C_(4)F_(7)N/CO_(2)混合气体。建立了气相色谱-氢火焰离子化检测器(GC-FID)检测方法,针对C_(4)F_(7)N/CO_(2)混合气体制备过程中检测质量难以控制的问题,基于流体力学及有限元分析,开展不同C_(4)F_(7)N/CO_(2)混合气体的热驱动扩散模拟实验。结果表明:C_(4)F_(7)N体积分数为2%、5%、10%时C_(4)F_(7)N/CO_(2)气体浓度扩散平衡的时间分别为4775、6600、8800 s,C_(4)F_(7)N气体浓度扩散平衡的时间分别为94、122、158 min。3种C_(4)F_(7)N/CO_(2)混合气体分别在配制100、125、160 min后进行质量检测及应用,可达到良好的质量控制效果。

澜沧江梯级水库水化学特征及其对水-气界面CO_(2)通量的影响

由温室气体排放所造成的气候变化已成为人们最为关注的问题之一,而目前对梯级水库温室气体的源-汇关系及其影响因素的系统研究相对较少。为厘清梯级水库水化学特征及其对水体CO_(2)分压(pCO_(2))及通量的影响,于2019年5~11月对澜沧江6个梯级水库进行定点采样,测定水体理化参数并计算水体离子来源、CO_(2)分压及释放通量(FCO_(2))。结果表明,澜沧江流域水体中的主要离子来源于碳酸盐岩、硅酸盐和蒸发岩的风化,而大气输入的贡献比例相对较低;澜沧江流域梯级水库pCO_(2)的大小受到多方面因素的影响,主要包括生物新陈代谢作用、水动力学条件以及水库库龄等。澜沧江梯级水库FCO_(2)范围为-12.99 mmol/(m2·d)至334.08 mmol/(m2·d)之间,平均值为43.38 mmol/(m2·d),总的来说澜沧江梯级水库是一个大气CO_(2)源。与pCO_(2)值类似,FCO_(2)值也呈现出明显的空间变化与季节性变化,具有较强的时空异质性。

亚热带珊瑚礁海域枯水季pCO_(2)的分布特征及CO_(2)汇源转换机制——以深圳杨梅坑海域为例

由于存在极高的初级生产和高效的碳代谢速率,珊瑚礁海域二氧化碳(CO_(2))的汇/源属性仍存有争议。为明晰中国典型珊瑚礁海域CO_(2)的汇源属性及驱动因素,作者基于2022年11月(秋季)和2023年2月(冬季)在深圳杨梅坑海域的调查结果并结合室内培养实验所获得的数据,探究了枯水季节典型亚热带珊瑚礁海水二氧化碳分压(pCO_(2))的分布特征及主要控制机制。结果表明,调查期间pCO_(2)的变化较大,其范围为233.3~465.3μatm。秋季表现为大气CO_(2)的汇,CO_(2)吸收通量为1.66±0.41 mmol C/(m^(2)/d);冬季表现为大气CO_(2)的弱源,其释放通量为0.36±0.17 mmol C/(m^(2)/d)。调查期间(枯水季)杨梅坑海域受淡水输入的影响较小,季节性温度影响下的生物过程是驱动pCO_(2)变化的关键因素,其贡献pCO_(2)总变化量的73.6%(表层)和66.5%(底层)。其中,浮游植物光合作用的季节差异是导致海水CO_(2)汇源转变的主要成因,而微生物呼吸作用的影响甚微。相比较,物理过程(CO_(2)海-气交换、温度和盐度变化)对pCO_(2)的影响相对较小,其作用结果远低于生物过程。此外,珊瑚的代谢活动对杨梅坑局部海域pCO_(2)分布产生一定影响,造成礁区pCO_(2)值高于非礁区。因此,海气CO_(2)通量估算中不能忽视局部海域珊瑚代谢作用的影响。

20钢在油气田中CO_(2)与H_(2)S共存环境下的腐蚀行为及机理

利用高温高压动态反应釜模拟油气田CO_(2)和H_(2)S共存环境的实际工况,通过腐蚀试验分析了20钢在不同CO_(2)分压(0.01,0.05,0.21,0.50 MPa)和H_(2)S分压(0.0003,0.003,0.01,0.05 MPa)下的腐蚀行为以及CO_(2)和H_(2)S分压对均匀腐蚀和点蚀的影响程度。结果表明:在H_(2)S分压为0.003 MPa条件下,当CO_(2)分压为0.01,0.05 MPa时,20钢主要发生均匀腐蚀,随着CO_(2)分压的继续增大,点蚀越来越严重;在CO_(2)分压为0.05 MPa条件下,当H_(2)S分压为0.0003 MPa时,20钢表面腐蚀轻微,随着H_(2)S分压的增大,腐蚀加剧,但仍主要发生均匀腐蚀;H_(2)S和CO_(2)分压对20钢的均匀腐蚀速率和点蚀速率均具有十分显著的影响,H_(2)S分压对均匀腐蚀的影响程度较大,而CO_(2)分压对点蚀的影响程度较大。

下三横山岛养殖海域海-气界面CO_(2)交换通量的空间分布特征及影响因素

为研究下三横山岛养殖海域海-气界面CO_(2)交换通量及影响因素,从2020年7月开始,在该海域开展为期一年(4次)的监测和分析,主要剖析其温度、盐度、pH、总碱度(TA)及水体中溶解无机碳(DIC)、溶解有机碳(DOC)、颗粒有机碳(POC)分布差异,估算下三横山岛养殖海域表层海水CO_(2)分压(pCO_(2))及海-气界面CO_(2)通量(FCO_(2))值,并分析pCO_(2)的影响因素,探讨下三横山岛该养殖海域海-气界面CO_(2)交换通量。结果表明,下三横山岛海域表层海水4个季节的温度、盐度、pH、TA、DIC、DOC、POC的分布在季节上差异极显著(P<0.01)。下三横山岛海域pCO_(2)全年的变化范围为29.93~836.80μatm,FCO_(2)值的变化范围为-45.67~216.50 mmol·(m^(2)·d)^(-1)。pCO_(2)与FCO_(2)值四季变化显著(P<0.05),全年碳分布格局有较大差异,其中,仅春季为碳汇,碳汇强度为(-32.79±3.73)mmol·(m^(2)·d)^(-1),夏、秋、冬季皆为碳源,碳源强度分别为(14.74±33.35)mmol·(m^(2)·d)^(-1)、(18.39±6.63)mmol·(m^(2)·d)^(-1)、(50.34±9.27)mmol·(m^(2)·d)^(-1),其中,春、夏、秋季FCO_(2)最低值均出现在鱼类养殖区,最高值出现在贻贝养殖区。养殖区内的生物活动是影响下三横山岛海域表层海水pCO_(2)的重要因素。研究结果为下三横山岛多营养层级综合养殖的碳汇研究提供了前期数据及理论参考。

PETCO_(2)和吸入氧浓度水平与胸腔镜肺部手术单肺通气期间脑氧饱和度的关系

目的 探讨呼气末二氧化碳分压(PETCO_(2))和吸入氧浓度(FiO_(2))水平与胸腔镜肺部手术单肺通气期间脑氧饱和度(ScO_(2))的关系。方法 前瞻性选取2020年3月至2022年3月在秦皇岛市第一医院行胸腔镜肺部手术单肺通气患者180例,观察低脑氧合事件发生情况。分析发生和未发生低脑氧合事件患者临床资料,如性别、年龄、体重指数、病理类型、TNM分期、手术体位、麻醉时间、单肺通气时间、手术时间、心率、平均动脉压(MAP)、体温、pH、二氧化碳分压(PaCO_(2))、氧分压(PaO_(2))、吸入氧浓度(FiO_(2))、气道峰压(Ppeak)、PETCO_(2)、肺顺应性等差异。结果 共有66例患者发生低脑氧合事件,低脑氧合事件发生率为36.67%。发生和未发生低脑氧合事件患者性别、年龄、体重指数、病理类型等比较,差异均无统计学意义(P>0.05);发生低脑氧合事件患者动脉血PaCO_(2)、FiO_(2)和Ppeak分别为(38.43±3.34)mmHg、(72.32±8.23)%和(24.54±2.54)cmH2O,明显高于未发生低脑氧合事件患者[(37.02±3.65)mmHg、(63.20±7.56)%和(21.12±2.42)cmH2O],而PETCO_(2)为(41.43±5.32)mmHg,明显低于未发生低脑氧合事件患者[(49.32±6.10)mmHg],差异均有统计学意义(P<0.05)。FiO_(2)与ScO_(2)降低幅度呈正相关(r=0.434,P<0.05),而PETCO_(2)与ScO_(2)降低幅度呈负相关(r=-0.543,P<0.05)。Logistic回归分析,结果显示:FiO_(2)和PETCO_(2)是患者发生低脑氧合事件的影响因素(P<0.05)。结论 PETCO_(2)和FiO_(2)与胸腔镜肺部手术单肺通气期间ScO_(2)降低幅度存在相关性,是患者发生低脑氧合事件的影响因素。

北部湾东北部春、夏季表层海水CO_(2)分压的24 h变化及其调控机制研究

周日观测对掌握近海碳酸盐体系变化和海-气CO_(2)交换过程是必要的,有助于降低碳源汇评估的不确定性。针对北部湾东北部的英罗湾-安铺港海域,于2018年4月和8月利用24 h定点逐时采样观测了该区域表层海水碳酸盐体系及相关要素,分析了春、夏季的表层海水CO_(2)分压(p CO_(2))24 h逐时变化规律及其调控因子。观测结果表明,春、夏季p CO_(2)变化范围分别为530~628μatm和427~748μatm,平均海-气CO_(2)通量分别为(1.7±0.8)mmol/(m^(2)·d)和(1.2±0.8)mmol/(m^(2)·d),均表现为大气CO_(2)的弱源。其中春季p CO_(2)24 h逐时变化受温度的影响相比夏季更显著,而夏季p CO_(2)对潮汐作用以及区域内沿岸河流、地下水等淡水汇入引起的生物生产和呼吸代谢过程增强的响应更明显。海水升温主导了春季区域表层高p CO_(2)的形成,夏季咸淡水的物理混合过程中增强的生物生产对表层溶解无机碳(DIC)起到降低作用,区域内的红树林、盐沼等生态系统对淡水端的DIC添加有一定的贡献。水团DIC浓度与总碱度(TA)的比值变化可反映英罗湾-安铺港海域p CO_(2)湾内高、湾外低的总体分布格局。

252kV GIS用SF6/N_(2)混合气体局放特性研究

为了研究工频电压下SF_(6)/N_(2)混合气体的局放特性及其在GIS中的工程应用前景,文中设计了尖端、气隙两种GIS局放缺陷模型并进行了电场仿真分析,搭建了252 kV GIS局放试验样机,在绝缘等效基础上分别进行了不同气体混合比(2∶8、3∶7、4∶6)、不同气压(0.4、0.5、0.6 MPa)条件下SF_(6)/N_(2)混合气体的局放试验。仿真及试验结果表明:SF_(6)/N_(2)混合气体的局放起始电压、熄灭电压、视在放电量均小于纯SF_(6),说明SF_(6)加入N_(2)可以降低其对电场畸变的敏感程度。通过对比SF_(6)/N_(2)混合气体和纯SF_(6)之间的局放图谱,发现SF_(6)/N_(2)混合气体与同等工频绝缘强度的纯SF_(6)局放水平相当,在不改变现有GIS结构和设计原则的前提下可以替代纯SF_(6)。

54例2型糖尿病患者合并新型冠状病毒感染的死亡原因分析

目的研究2型糖尿病(T2DM)患者合并新型冠状病毒感染(COVID-19)的死亡患者的临床特点及死亡的可能影响因素。方法回顾性分析2022年12月至2023年2月扬州大学临床医学院T2DM合并COVID-19患者在住院期间发生死亡的情况,详细记录患者一般资料及实验室检查资料,并对患者入院初期的检测指标与入院终末期复查指标进行对比。结果54例死亡患者平均年龄为(74.31±10.64)岁;50例(92.6%)合并其他基础疾病,74%的患者合并2种以上基础疾病。与入院初期检查结果相比,死亡前最后一次血糖、酸碱度、红细胞计数、白蛋白、球蛋白明显下降。二氧化碳分压(PCO_(2))、乳酸、乳酸脱氢酶(LDH)、血钠、肌红蛋白、凝血酶原时间、降钙素原、C反应蛋白、D-二聚体明显升高,差异均有统计学意义(P均<0.05)。54例死亡患者中有96.3%的患者胸部CT影像学改变为双肺存在大片斑片状阴影及磨玻璃样影,81.5%的患者同时合并双肺胸腔积液。Logistic回归分析结果表明,PCO_(2)、LDH是T2DM合并COVID-19患者死亡的独立危险因素。结论T2DM合并COVID-19患者预后不佳,PCO_(2)、LDH是影响T2DM合并COVID-19患者死亡的独立危险因素。

含铜危固废富氧侧吹浸没燃烧炉烟气中H2S产生机理及危害

针对江西兴南环保科技有限公司的有机胺脱硫系统存在风机振动大、解析系统堵塞严重、阻力过大等问题,对含铜危固废富氧侧吹浸没燃烧炉烟气中H_(2)S产生机理及危害进行分析,提出提高冷冻过程中Na_(2)SO_(4)·10H_(2)O晶体一、二次成核率,控制成核速率与偏析等措施,有效减少了H_(2)S的产生,实现了离子液脱硫系统整体运行平稳,符合预期。

Effect of Oxygen Partial Pressure on Phase Equilibria and Liquidus in CaO-Al_2O_3-FeO_x System

A high temperature equilibration experiment was carried out to investigate the effect of oxygen partial pres- sure on the phase equilibria and liquidus in CaO-Al2O3- FeOx system with the intermediate oxygen partial pressures of 10.13 Pa and 1.01 × 10^-3 Pa. The equilibrated phases and their compositions of the quenched samples were analyzed by using SEM/EPMA （Scanning Electron Microscope/Electron Probe Micro Analysis） and XRD （X Ray Diffraction）. The phase equilibrium results include two cases, the two phase coexistence and the three-phase coexistence in the high Al2O3 region with oxygen partial pressure of either 10.13 Pa or 1.01 × 10^-3 Pa. Effects of oxygen partial pressure and temperature on the liquidus along the primary phase fields of CaO · Al2O3 and CaO · 2Al2O3 were nota hle. With the decrease of oxygen partial pressure, the liquid area expands and the liquidus of CaO · Al2O3 and CaO · 2Al2O3 primary fields moves to the Al2O3-FeOx region. On the other hand, the liquid area of CaO Al2O3-FeOx sys tem extends extremely to the high Al2O3 region with the temperature increasing from 1 400 to 1 500℃, especially at lower oxygen partial pressure. The present experiment results are in good agreement with the calculated ones by FactSage.

夏季东海西部表层海水中的pCO_2及海-气界面通量

根据 2 0 0 1年夏季长江口及东海西部海域表层海水pCO2 的实测数据 ,结合水文、化学和生物等要素的同步观测资料 ,对该海域pCO2 分布和变化的重要影响因素进行了探讨。结果表明 ,长江冲淡水是造成东海西部海域表层海水pCO2 分布不均匀的主要原因。利用Wan ninkhof( 1 992 )提出的通量模式计算 ,长江口口门附近海域和浙江近岸海域为CO2 的源区 ,1 2 3°E以东的调查海域表现为大气CO2 的汇 ,尤其是以 1 2 3°E ,32°N为中心 ,存在着一个极强的大气CO2 汇区。就整个东海西部海域而言 ,夏季可从大气净吸收 1 5 3× 1 0 4 tC。

H_2S分压对油管钢CO_2/H_2S腐蚀的影响

采用高温高压釜 ,辅以失重法和扫描电镜 ,对不同H2 S分压下 (1 4kPa,2 0kPa ,6 0kPa ,12 0kPa)油管钢N80、P110的CO2 /H2 S腐蚀进行了研究 .结果表明 ,在试验H2 S分压范围内 ,随着H2 S分压的升高 ,两种钢的腐蚀速率先增后降 ,且都在H2 S分压为 2 0kPa时取得最大值 .

络合Ca^2＋对山羊膀胱经经穴氧分压的影响

目的:探讨Ca2+和组织氧分压与经络现象之间的联系。方法:波尔杂交母山羊10只,用盐酸氯丙嗪(0.85 mg/kg)镇静后,采用乙二胺四乙酸二钠(EDTA-Na2200μL,0.05 kg/mol)络合穴区局部组织Ca2+,用新型组织氧分压传感针检测山羊膀胱经经穴"肝俞""大肠俞""关元俞"及旁开非经穴处氧分压的变化趋势。结果:1)膀胱经经穴的Ca2+电位明显高于旁开对照点(P<0.05,0.01);2)膀胱经经穴的组织氧分压高于旁开对照点(P<0.01);3)注射EDTA-Na2后,经穴的氧分压较注射前及注射生理盐水均明显升高(P<0.01),且经穴的氧分压高于旁开对照点(P<0.01)。结论:膀胱经穴Ca2+电位明显高于各自旁开对照点;注射EDTA-Na2络合Ca2+后氧分压明显升高。