Numerical Models and Methods of Atmospheric Parameters Originating in the Formation of the Earth’s Climatic Cycle

Atmospheric models are physical equations based on the ideal gas law. Applied to the atmosphere, this law yields equations for water, vapor (gas), ice, air, humidity, dryness, fire, and heat, thus defining the model of key atmospheric parameters. The distribution of these parameters across the entire planet Earth is the origin of the formation of the climatic cycle, which is a normal climatic variation. To do this, the Earth is divided into eight (8) parts according to the number of key parameters to be defined in a physical representation of the model. Following this distribution, numerical models calculate the constants for the formation of water, vapor, ice, dryness, thermal energy (fire), heat, air, and humidity. These models vary in complexity depending on the indirect trigonometric direction and simplicity in the sum of neighboring models. Note that the constants obtained from the equations yield 275.156˚K (2.006˚C) for water, 273.1596˚K (0.00963˚C) for vapor, 273.1633˚K (0.0133˚C) for ice, 0.00365 in/s for atmospheric dryness, 1.996 in2/s for humidity, 2.993 in2/s for air, 1 J for thermal energy of fire, and 0.9963 J for heat. In summary, this study aims to define the main parameters and natural phenomena contributing to the modification of planetary climate. .

Effects of preparation parameters on growth and properties of β-Ga_(2)O_(3) film

The Ga_(2)O_(3) films are deposited on the Si and quartz substrates by magnetron sputtering, and annealing. The effects of preparation parameters(such as argon–oxygen flow ratio, sputtering power, sputtering time and annealing temperature)on the growth and properties(e.g., surface morphology, crystal structure, optical and electrical properties of the films) are studied by x-ray diffractometer(XRD), scanning electron microscope(SEM), and ultraviolet-visible spectrophotometer(UV-Vis). The results show that the thickness, crystallization quality and surface roughness of the β-Ga_(2)O_(3) film are influenced by those parameters. All β-Ga_(2)O_(3) films show good optical properties. Moreover, the value of bandgap increases with the enlarge of the percentage of oxygen increasing, and decreases with the increase of sputtering power and annealing temperature, indicating that the bandgap is related to the quality of the film and affected by the number of oxygen vacancy defects. The I–V curves show that the Ohmic behavior between metal and β-Ga_(2)O_(3) films is obtained at 900℃. Those results will be helpful for the further research of β-Ga_(2)O_(3) photoelectric semiconductor.

Investigation of influence factors on CO_(2) flowback characteristics and optimization of flowback parameters during CO_(2) dry fracturing in tight gas reservoirs

CO_(2) dry fracturing is a promising alternative method to water fracturing in tight gas reservoirs,especially in water-scarce areas such as the Loess Plateau.The CO_(2) flowback efficiency is a critical factor that affects the final gas production effect.However,there have been few studies focusing on the flowback characteristics after CO_(2) dry fracturing.In this study,an extensive core-to-field scale study was conducted to investigate CO_(2) flowback characteristics and CH_(4) production behavior.Firstly,to investigate the impact of core properties and production conditions on CO_(2) flowback,a series of laboratory experiments at the core scale were conducted.Then,the key factors affecting the flowback were analyzed using the grey correlation method based on field data.Finally,taking the construction parameters of Well S60 as an example,a dual-permeability model was used to characterize the different seepage fields in the matrix and fracture for tight gas reservoirs.The production parameters after CO_(2) dry fracturing were then optimized.Experimental results demonstrate that CO_(2) dry fracturing is more effective than slickwater fracturing,with a 9.2%increase in CH_(4) recovery.The increase in core permeability plays a positive role in improving CH_(4) production and CO_(2) flowback.The soaking process is mainly affected by CO_(2) diffusion,and the soaking time should be controlled within 12 h.Increasing the flowback pressure gradient results in a significant increase in both CH_(4) recovery and CO_(2) flowback efficiency.While,an increase in CO_(2) injection is not conducive to CH_(4) production and CO_(2) flowback.Based on the experimental and field data,the important factors affecting flowback and production were comprehensively and effectively discussed.The results show that permeability is the most important factor,followed by porosity and effective thickness.Considering flowback efficiency and the influence of proppant reflux,the injection volume should be the minimum volume that meets the requirements for generating fractures.The soaking time should be short which is 1 day in this study,and the optimal bottom hole flowback pressure should be set at 10 MPa.This study aims to improve the understanding of CO_(2) dry fracturing in tight gas reservoirs and provide valuable insights for optimizing the process parameters.

Recent advances in titanium carbide MXene-based nanotextures with influential effect of synthesis parameters for solar CO_(2)reduction and H_(2)production:A critical review

Photocatalytic solar to energy conversion is considered an attractive approach for overcoming energy crises and environmental concerns.Recently,titanium carbide(Ti_(3)C_(2))MXenes have been recognized as promising cocatalysts based on their metallic conductivity,excessive active reaction sites,and enlarged surface area.The current review focuses on the properties and applications of Ti_(3)C_(2)MXenes useful in the field of photocatalysis.More specifically,surface modification of Ti_(3)C_(2)MXenes by varying synthesis parameters to get pure materials and also composites with the role of functional groups towards solar energy conversion applications is highlighted in this review.The effect of etching and oxidizing pathways to get an efficient cocatalyst has been discussed in detail.Considering the significant effect of parameters,optimum synthesis conditions such as etchant type,concentration,time and type of intercalant in both the Ti_(3)C_(2)synthesis approaches for improved photoactivity are discussed.Additionally,the surface modification of Ti_(3)C_(2)through oxidation for TiO2growth on its surface is deliberated with a detailed discussion on etchant type,concentration,etching time,and environmental factors.The optimum oxidation condition,including temperature,time,and environment for thermal treatment of Ti_(3)C_(2),were also included.Lastly,the review summarizes the conclusion and future perspectives for solar energy conversion applications.

Sentinel-2遥感影像在盘锦水稻米质监测中的应用研究

本研究基于水稻孕穗期、抽穗期、灌浆期和成熟期4个生育期的Sentinel-2遥感数据,分析各生育期内卫星遥感光谱参数与稻米品质指标的关系,建立基于各生育期卫星光谱信息的水稻品质指标预测模型。将5种稻米品质指标分别与4个生育期内的光谱参数进行皮尔逊相关性分析,结果表明,5项品质指标在4个生育期内均与光谱参数有不同程度相关性。然后筛选出相关性效果显著的光谱参数,用于建立各品质指标的预测方程,建模结果表明,基于卫星遥感光谱信息解释率由大到小的稻米品质指标依次是精米率>长宽比>蛋白质含量>直链淀粉含量>糙米率;卫星遥感光谱反演稻米各品质指标所在的最佳生育期不同,糙米率和精米率的最佳生育期为抽穗期,其建模决定系数(Coefficient of Determination,R^(2))分别为0.461和0.893;长宽比的最佳生育期为成熟期,R^(2)为0.878;直链淀粉含量和蛋白质含量的最佳生育期为灌浆期,R^(2)分别为0.646和0.647;基于卫星遥感光谱信息的稻米品质模型验证效果较好,解释率为51%~74%。可见,利用卫星遥感技术能够实现大范围水稻品质指标定量监测与评估。

2型糖尿病老年病人心肌纤维化T1-Mapping与左心室应变参数的相关性分析

目的探究2型糖尿病(T2DM)老年病人心肌纤维化T1-Mapping参数与左心室应变参数之间的相关性。方法以2019年8月至2022年8月在孝感市中心医院就诊的T2DM病人82例为研究对象,根据病人的病程分为短期T2DM组40例(病程<5年)和长期T2DM组42例(病程≥5年),以同期招募的健康志愿者40例为对照组。比较各组间左心室应变参数及T1-Mapping参数。采用多元线性逐步回归法分析T1-Mapping参数的影响因素。采用相关性分析T1-Mapping参数与左心室应变参数的相关性。结果短期T2DM组病人左室周向峰值舒张应变率(PDSR)[1.25(0.95,1.50)1/s比1.40(1.20,1.70)1/s]较对照组降低(P<0.05),细胞外体积(ECV)[31.00(29.00,33.50)%比29.00(27.00,32.00)%]较对照组升高(P<0.05)。与对照组比较,长期T2DM组病人左室纵向峰值应变(PS)[−14.50(−12.38,−16.50)%比−16.15(−14.60,−18.30)%]、径向PDSR[(−2.58±0.83)1/s比(−3.32±0.88)1/s]、周向PDSR[0.90(0.70,1.20)1/s比1.40(1.20,1.70)1/s]、纵向PDSR[0.70(0.58,0.90)1/s比1.10(0.80,1.38)1/s]降低(P<0.05),ECV[34.00(32.00,35.00)%比29.00(27.00,32.00)%]升高(P<0.05)。与短期T2DM组比较,长期T2DM组病人左室纵向PS[−14.50(−12.38,−16.50)%比−16.15(−14.45,−18.38)%]、径向PDSR[(−2.58±0.83)1/s比(−3.61±0.76)1/s]、周向PDSR[0.90(0.70,1.20)1/s比1.25(0.95,1.50)1/s]、纵向PDSR[0.70(0.58,0.90)1/s比1.10(0.80,1.30)1/s]降低(P<0.05),ECV[34.00(32.00,35.00)%比31.00(29.00,33.50)%]升高(P<0.05)。多元线性回归分析结果示,糖尿病病程是T2DM病人ECV的独立影响因素(β=0.29,P<0.05)。Spearman相关性分析结果示,T2DM病人ECV与左室纵向PS(r_(s)=0.35,P<0.05)、纵向峰值收缩应变率(PSSR)(r_(s)=0.31,P<0.05)呈显著正相关,与左室周向PDSR(r_(s)=−0.29,P<0.05)、纵向PDSR(r_(s)=−0.43,P<0.05)呈显著负相关。结论心脏磁共振T1-Mapping可能发现T2DM病人早期心肌纤维化,T1-Mapping参数与左心室应变参数显著相关。

高速S-CO_(2)向心透平几何参数优化及变工况特性分析

透平是热力循环中实现热功转换的核心设备,优化透平几何参数以改善气动性能,是提升系统热效率的关键。该文以面向某船舶主机烟气余热利用的超临界二氧化碳布雷顿循环透平设计参数为基础,给出向心透平主要几何参数,采用耦合CO_(2)真实物性参数的CFX仿真方法,分析几何参数动、静叶包角以及叶轮出口几何角对透平性能的影响规律并进行参数优化,进一步研究非设计工况下的透平运行特性。结果表明:增大静叶包角会使动叶前缘出现扰动涡流并减少余速损失,增大叶轮出口几何角,动叶包角对透平效率的影响规律不变,但效率峰值点会沿动叶包角减小的方向移动;动、静叶包角和叶轮出口几何角分别为49°、21.5°、25°时透平设计点总-静等熵效率高达87.99%,相比优化前,提高0.54个百分点;透平偏离设计点±20%工况下等熵效率大于80%。结果可为超临界二氧化碳高速向心透平设计提供一定参考。

基于m×2正则化交叉验证的神经网络超参数调优方法

超参数调优是神经网络建模的关键问题。针对传统的超参数调优方法存在的问题,该文提出了一种基于m×2正则化交叉验证的超参数调优方法。目的是给出一种适用于复杂模型、大数据集背景下的计算开销较小且稳健的超参数调优方法。该方法的思想是从完整的数据集上选取少部分数据进行调优,避免模型在数据集较大时非常耗时的超参数调优难题;在m×2交叉验证的基础上设置正则化条件均衡训练集与验证集之间的分布差异,从而减少分布不一致带来的性能波动;使用信噪比作为调优的优化目标,从而可以综合考虑模型性能评价指标的均值和方差;并采用正交设计选择相关性较低的超参数组合以提高调优效率。以命名实体任务为例进行实验,在CoNLL 2003数据集上的实验结果显示,提出的调优方法能够选到和网格搜索性能上没有显著差异的超参数组合,且调优时间可显著降低约66%。

38 mm型CO_(2)致裂器内部参数对致裂器做功能力影响

为快速获得液态CO_(2)致裂器内部参数对致裂器做功能力的影响特征,优化提高液态CO_(2)致裂器做功能力,提高煤层瓦斯抽采效率,设计液态CO_(2)致裂器做功能力快速评估试验装置。使用煤矿用38 mm型致裂器进行4水平3因素的9组正交试验,分析液态CO_(2)致裂器发热管内部装药量、主管内液态CO_(2)填充量、泄能片厚度以及泄能头释放口径对于致裂器做功能力的影响主次顺序;进一步对其中最重要的影响因素进行固定变量试验,分析最重要影响因素对液态CO_(2)致裂器做功能力的影响特征。结果表明:对于煤矿用38 mm型CO_(2)致裂器,泄能片厚度对于液态CO_(2)致裂器做功能力的影响最大,发热管内部装药量次之,主管内液态CO_(2)填充量及泄能头释放口径影响最弱;液态CO_(2)致裂器做功能力随着泄能片的厚度增加而增加,但当泄能片厚度增加到一定程度时,液态CO_(2)致裂器做功能力增幅不够明显,达到一定厚度泄能片不会破裂,当38 mm型致裂器内部参数设置为CO_(2)质量0.33 kg、释放口径18 mm、装药量60 g、泄能片厚度2.0 mm时致裂器做功能力对应三硝基甲苯(TNT)当量为0.202 kg,相对当前工地使用参数做功能力提升21.9%。

血清CC型趋化因子2、CC型趋化因子18与声门型喉癌患者临床病理参数和预后的关系

目的研究血清CC型趋化因子2(CC type chemotactic factor 2,CCL2)、CCL18与声门型喉癌患者临床病理参数和预后的关系。方法选择邯郸市中心医院和河北工程大学附属医院2015年8月~2018年12月收治的168例声门型喉癌患者为研究对象,受试者工作特征(ROC)曲线确定血清CCL2、CCL18最佳截点,将患者分为CCL2高表达组和低表达组、CCL18高表达组和低表达组,分析血清CCL2、CCL18水平与声门型喉癌患者临床病理参数的关系,采用Kaplan-Meier曲线和Log-Rankχ^(2)检验分析血清CCL2高表达组和低表达组、CCL18高表达组和低表达组的5年无病生存率,采用Cox回归模型分析声门型喉癌预后的影响因素,并分析血清CCL2和CCL18表达与肿瘤复发/转移的关系。结果根据ROC曲线计算得出CCL2、CCL18的最佳截点分别为100.81、218.99 pg/ml。相较于CCL2、CCL18低表达组,CCL2、CCL18高表达组T3~T4a级、N1~N3级、肿瘤低分化占比明显升高(P<0.05)。168例声门型喉癌患者随访5年失访8例,完成随访160例。67例发生复发/转移,39例因复发/转移而死亡,肿瘤复发/转移率为41.88%(67/160),无病生存率为58.13%(93/160)。Kaplan-Meier生存曲分析显示,血清CCL2、CCL18高表达组5年无病生存率均明显低于血清CCL2、CCL18低表达组(P<0.05)。Cox回归分析显示,T分级升高、颈淋巴结复发、N分级升高、咽喉部复发、CCL2高表达、CCL18高表达是声门型喉癌预后不良的危险因素(P<0.05)。分析血清CCL2和CCL18表达与肿瘤复发/转移的关系发现,CCL2和CCL18均高表达时其复发/转移率明显高于CCL2和CCL18均低表达、CCL2低表达且CCL18高表达、CCL2高表达且CCL18低表达,差异比较有统计学意义(χ^(2)=10.450,P=0.015)。结论声门型喉癌患者血清CCL2、CCL18高表达与T分级、N分级、肿瘤低分化和预后不良显著相关。

SF_(6)替代气体C_(4)F_(7)N/CO_(2)喷口灭弧性能分析

近几年,C_(4)F_(7)N/CO_(2)混合气体因为较低的温室效应和优异的绝缘性能受到广泛关注,但是C_(4)F_(7)N的电弧分断性能实验昂贵、费时,所以文中以SF_(6)和C_(4)F_(7)N/CO_(2)混合气体为研究对象,建立了在固定开距直流电源条件下的电弧模型。通过电弧累计能量和电导的计算结果分析SF_(6)和C_(4)F_(7)N/CO_(2)混合气体的灭弧性能,通过对径向温度、物性参数的分析和能量运输的计算分析SF_(6)和C_(4)F_(7)N/CO_(2)混合气体的换热机理研究。结果表明,C_(4)F_(7)N/CO_(2)混合气体的电弧特性比较接近SF_(6)气体,可以通过适当提高气压和C_(4)F_(7)N气体占比来提高C_(4)F_(7)N/CO_(2)混合气体的灭弧性能,C_(4)F_(7)N/CO_(2)混合气体的能量交换方式也和SF_(6)气体比较接近,说明C_(4)F_(7)N/CO_(2)混合气体有较好的灭弧性能,为其在SF_(6)替代气体断路器的应用提供参考。

长岭断陷龙凤山气田致密凝析气藏CO_(2)吞吐效果评价

长岭断陷龙凤山气田致密凝析气藏产量递减快,采出程度低,为了减弱近井地带反凝析污染现象和凝析油采出困难的开发难题,通过数值模拟方法和注CO_(2)吞吐实验,分析评价CO_(2)吞吐效果,探讨提高气井产量和气藏采收率的方法。结果表明:与注干气吞吐相比,致密凝析气藏注CO_(2)吞吐更能较为有效地解除反凝析污染;气井反凝析分为反凝析初期(对生产基本无影响)、反凝析加重(对油生产有影响)、反凝析严重(对油气生产影响大)、极端反凝析(几乎不出油)共4个阶段;不同反凝析特征阶段的气井CO_(2)吞吐机理和目的不同,CO_(2)吞吐参数应当相应优化。现场实施表明,注CO_(2)吞吐的5口井在吞吐前处于不同的反凝析阶段,吞吐后取得了快速增加地层能量、解堵近井地带反凝析污染、提高注入能力、增加凝析油和天然气产量等效果。研究成果可为CO_(2)吞吐技术在致密凝析气藏的规模应用提供了经验。

CO_(2)状态方程适应性对比研究

气体状态方程被广泛应用于计算CO_(2)的各项物性参数,但CO_(2)物性参数对温度和压力较敏感,不同状态方程计算的结果有偏差。针对目前常用的状态方程开展适应性研究,基于不同温度和压力条件下CO_(2)物性参数实验值对比分析了不同状态方程的计算结果。结果表明:1)GERG对CO_(2)密度及压缩因子具有较高的计算精度。计算CO_(2)密度时蒸汽区平均相对偏差小于0.5%,气相区小于1%;2)SW方程计算CO_(2)定压比热的平均相对偏差为0.29%,计算焦汤系数的平均相对偏差为0.87%;3)Fenghour法计算的黏度最大相对偏差不超过0.5%,平均相对偏差为0.34%,计算结果误差较小;4)V-W法对CO_(2)导热系数的计算结果与实验值较吻合,其平均相对偏差仅为1.24%。研究结果为油气田开发过程中涉及的CO_(2)物性参数计算提供了一定的参考依据。

酸枣仁油的超临界CO_(2)萃取工艺及其抗氧化性研究

采用超临界CO_(2)萃取技术对酸枣仁进行油脂萃取。利用单因素实验方法考查了孔径、萃取温度、萃取压力、萃取时间四个因素对酸枣仁出油率的影响,最佳萃取条件下对酸枣仁油脂样品进行GC-MS组分分析及DPPH清除能力测定。结果表明:超临界CO_(2)萃取酸枣仁油的最佳工艺为过筛目数80目,温度为45℃,萃取压力40 MPa,时间30 min,在最佳萃取工艺条件下,出油率为29.40%。GC-MS检测结果表明酸枣仁油含有27种化合物,DPPH的清除率IC_(50)值为29.12 mg/mL。

Co_(2)Z型六角铁氧体的制备及表征开放性实验设计

开放性实验设计是培养学生的综合能力和创新意识的重要手段。本文以Co_(2)Z型六角铁氧体制备及表征的开放实验为例,从文献调研、实验方案的拟定、实验室动手操作、实验现象观察、结果分析及思考等方面,培养学生的基本实验操作能力,提升综合运用所学知识及技能,解决问题的能力,为今后从事与材料相关科学研究、技术开发和工艺设计等方面的工作奠定坚实基础。

低渗透油藏注CO_(2)混相驱及CO_(2)埋存评价

注CO_(2)开发低渗透油藏不仅能增加原油采收率,还能将CO_(2)埋存在地下,实现双赢。为了明确X低渗透油藏注CO_(2)混相驱油机理、CO_(2)在地层中的运移规律以及埋存机理,利用实验和数值模拟相结合的方法,从注CO_(2)混相特征、注CO_(2)参数优化和CO_(2)埋存评价3方面对X低渗透油藏进行研究。结果表明:地层原油注CO_(2)最小混相压力为26.03 MPa,CO_(2)有降低原油黏度和密度的作用;通过参数优化确定的推荐注采方案与衰竭开采相比,累计增油量为96.21×10^(4)t,主力开发层系X4⁃2、X4⁃3提高采收率分别为9.37百分点、6.02百分点;CO_(2)注入地层后,随着时间的推移,在平面上不断向四周扩散,在纵向上受重力分异的作用向上运移;评价区块注CO_(2)驱推荐方案预计CO_(2)埋存量为68.08×10^(4)t,其中构造埋存量、束缚埋存量、溶解埋存量和矿化埋存量分别为42.20×10^(4)、17.79×10^(4)、6.24×10^(4)和1.85×10^(4)t。研究成果为低渗透油藏注CO_(2)驱及CO_(2)埋存提供了实验和理论的借鉴意义。

Fault plane parameters of Tancheng M81/2 earthquake on the basis of present-day seismological data

The great Tancheng earthquake of M81/2 occurred in 1668 was the largest seismic event ever recorded in history in eastern China. This study determines the fault geometry of this earthquake by inverting seismological data of present-day moderate-small earthquakes in the focal area. We relocated those earthquakes with the double-difference method and found focal mechanism solutions using gird test method. The inversion results are as follows： the strike is 21.6°, the dip angle is 89.5°, the slip angle is 170°, the fault length is about 160 km, the lower-boundary depth is about 32 km and the buried depth of upper boundary is about 4 km. This shows that the seismic fault is a NNE-trending upright right-lateral strike-slip fault and has cut through the crust. Moreover, the surface seismic fault, intensity distribution of the earthquake, earthquake-depth distribution and seismic-wave velocity profile in the focal area all verified our study result.

海上低渗油藏CO_(2)混相驱可行性实验研究

海上珠江口盆地陆丰凹陷低渗、特低渗储量丰富,水驱开发难度大,注气开发需求迫切。CO_(2)驱是提高采收率的主要技术之一,但目前海上CO_(2)综合利用方面应用较少。以陆丰凹陷L油藏为例,开展了目标油藏原油注CO_(2)驱油机理实验和长岩心CO_(2)驱油效果评价实验,重点对比CO_(2)注入前后原油相态特征的变化,并对不同开发方式驱油效果进行了对比优化研究,为目标油田CO_(2)驱可行性提供依据。实验结果表明,CO_(2)可以有效提高低渗油藏的开发效果,提高采收率幅度可以在水驱的基础上提高11.75%,交替驱可以作为后期注CO_(2)防窜和进一步提高采收率的技术手段。实验研究结果对海上低渗油藏CO_(2)注气开发提供技术支持。

吉木萨尔页岩油井区CO_(2)前置压裂工艺参数优化及现场实践

吉木萨尔凹陷芦草沟组页岩油具有原始渗透率极低,原油黏度高等特点,自然条件下无经济产能。通过现场实践,证明密切割+高强度体积压裂,是实现页岩油规模开发的最有效手段之一,但现阶段如何延缓油井递减率,提高单井采收率仍是亟待解决的问题。2019—2022年,在吉木萨尔页岩油区块,开展了CO_(2)前置压裂辅助提产技术研究和现场试验,系统地研究分析CO_(2)前置蓄能压裂和CO_(2)吞吐在吉木萨尔页岩油区块的应用效果。结果表明,超临界态CO_(2)具有混相增能、溶蚀改善储层条件、提高渗吸置换效率、提高缝网复杂程度等作用,并明确最优注入量、注入速度、注入方式等关键工艺参数,初步形成了一套页岩油藏CO_(2)前置压裂的工艺技术体系。根据生产数据预测,CO_(2)前置压裂工艺可将最终采收率提升20%左右,对实现页岩油效益开发,为其他类型页岩油藏提高开发效果提供参考。

Synthetically quantitative evaluation function of characteristic parameters on CO_2 arc welding process

The statistical probability and their variation regularity of the measurable characteristic parameters in the CO 2 arc welding droplet short circuiting transfer process have been studied. The statistical analysis shows that the sensitivity of each characteristic parameter with regard to the variation of the short circuiting transfer process is different. The sensitivity of 4 kinds among these characteristic parameters is more intense than that of the short circuiting transfer frequency. In order to take account of the synthetic influence of these characteristic parameters, by means of the characteristic parameters synthetic value, a quantitative evaluation function is built up to describe and evaluate the short circuiting transfer process of CO 2 arc welding in real time. The testing shows that the evaluation function can give a suitable synthetic valuation for the short circuiting transfer process with a variety of welding variables.