Effects of Temperature and Liquid Nitrogen(LN2)on Coal’s Mechanical and Acoustic Emission(AE)Properties

Liquid nitrogen has shown excellent performances as a good fracturing medium in the extraction of unconventional natural gas,and its application in coalbed methane extraction is currently a research hotspot.This study focuses on the acoustic emission properties of coal specimens treated utilizing liquid nitrogen with varying initial temperatures in a three-point bending environment.Through examination of the load-displacement curves of the considered coal samples,their mechanical properties are also revealed for different initial temperatures and cycling frequencies.The findings demonstrate a gradual decline in the maximum load capacity of coal rock as the temperature rises.Similarly,when subjected to the same temperature,an escalation in the cycling frequency leads to a reduction in the peak load of coal rock.This suggests that both temperature and cycling frequency exert a notable impact on the fracturing efficacy of liquid nitrogen.Freeze-thaw cycling treatments and exposure to high-temperature conditions can activate preexisting damage in the coal rock,and,accordingly,influence its mechanical properties.In particular,throughout the progressive loading of coal rock samples,the failure mechanisms are predominantly characterized by the occurrence of tensile cracks,succeeded by the development,spread,and fracture of shear fissures.

Exploration and Practice of Nitrogen Addition Process for LF Refining Ladle Bottom Blowing Nitrogen Steel Liquid

This article discusses and analyzes the law of nitrogen increase in liquid steel and the main factors affect-ing the nitrogen increasing of molten steel,through the way of adding nitrogen to molten steel by bottom blowing nitrogen gas in LF refining process.It is considered that the main factors affecting the nitrogen increasing instability of molten steel are the initial temperature of LF refining,nitrogen relative element,surface active elements[O]and[S]of steel liquid,and bottom blowing rate of ladle.The large-scale production practice shows that T[O]not more than 50×10-6 and[S]is not more than 0.020 in LF refining at the initial temperature of not less than 1570.The liquid steel nitrogen enrichment test is carried out by ladle bottom blowing nitrogen gas after 20 min of refining,the flow rate is set as(6.0~7.0)NL/min per ton,and it is turned to 2 NL/min at 6 min before the end of refining,the nitrogen increasing rate of liquid steel is basically stable at(5~6)×10-6 per minute.

Experimental Investigation on Fracturing Behaviors after Liquid Nitrogen Pre-Injection in High-Temperature Sandstone

The fracturing process of sandstone is inherently complex due to its loose internal structure and deformation adaptability.Liquid nitrogen pre-injection has emerged as a promising approach to damage reservoir rocks,effectively reducing fracture pressure and establishing intricate fracture networks,thus offering a potential solution for reservoir reconstruction.To unravel the fundamental mechanisms governing sandstone fracturing behaviors following liquid nitrogen pre-injection,sandstone fracturing experiments were conducted under varying durations of liquid nitrogen injection,rock temperature,and in-situ stress conditions.The experiments showcased the evolution of injection pressure and fracture characteristics under different testing conditions,complemented by electron microscope analysis to elucidate the factors driving the complex fracture characteristics of sandstone.The findings revealed a significant decrease in fracture pressure after liquid nitrogen pre-injection,accompanied by a notable increase in the complexity of the fracture network and the roughness of the fracture surface.Moreover,prolonging the duration of liquid nitrogen injection and elevating reservoir temperature further contributed to reducing fracture pressure,consequently enhancing fracture complexity and surface roughness.Conversely,the application of confining pressure amplified fracture pressure while intensifying the degree of fracturing.Notably,the investigation highlighted the increased presence of microcracks in sandstone resulting from liquid nitrogen preinjection,facilitating fluid diffusion during fracturing and yielding lower fracture pressures,thereby enhancing the effectiveness of sandstone reservoir reformation.The research results can provide theoretical guidance for geothermal reservoir reconstruction.

基于氮气吸附-扫描电镜的构造煤孔隙特征研究

煤的孔隙结构特征与瓦斯的吸附和运移密切相关,构造煤的孔隙结构特征由于受到构造应力的破坏而趋于复杂,因此开展构造煤孔隙发育的研究是提升瓦斯治理水平的重要方向。以西山煤田南部东于煤矿三组构造煤和一组原生煤为研究对象,采取低温液氮吸附法和扫描电子显微镜(SEM),联合观测构造煤与原生煤的孔隙特征。研究表明:三组构造煤的氮气吸附量为原生煤的2.04倍、1.49倍和2.90倍,三组构造煤的孔容为原生煤的2.08倍、1.53倍和2.96倍;三组构造煤的孔容大部分由微孔和小孔提供均达到69.71%以上,孔比表面积大部分由微孔提供均达到了79.04%以上;原生煤的孔容大部分由微孔和小孔提供达到了89.38%,孔比表面积微孔占比93.97%;三组构造煤的孔隙结构相比原生煤更加复杂,具有更大的分形维数(2.6985~2.7106);三组构造煤(10000倍)表面分形维数分别为1.962、1.979、1.947均大于原生煤1.945,构造煤与原生煤相比有更为发育的孔隙特征;分形维数D1与总孔比表面积、微孔比表面积成正比;挥发分含量在一定范围内与总孔比表面积、微孔比表面积、小孔比表面积成正比。

基于压汞-低温液氮联孔与核磁共振分析的煤中孔径分布对比研究

煤中孔隙结构测量常用压汞法、低温液氮法和核磁共振法,因不同方法的原理和测试范围不同,导致结果无法统一使用,且压汞法中基质压缩效应会造成较大误差;为解决该问题,以沁水盆地晋城和长治矿区的3个高阶煤样为例,利用压汞、低温液氮吸附及核磁共振驰豫法分别测试煤样的孔隙结构,通过对压汞数据进行压缩性校正,与低温液氮数据在衔接孔径处拼接,对煤的孔隙结构进行了联合表征,并结合核磁共振对比分析了煤的孔径分布特征。结果表明:压汞数据校正后孔体积与低温液氮的结果更接近,偏差值在22.40%~38.51%;不同煤样采用联孔法进行孔隙结构分析的联孔位置在75~89 nm之间;联孔法煤样孔容积为0.00136~0.00458 cm^(3)/g,不同孔径孔容比例表现为过渡孔>大孔>中孔>微孔;与单一测试方法相比,联孔法与核磁共振法孔径分布更为接近,但同时也存在差异,联孔法表征的微孔、过渡孔、中孔和大孔平均分布比例分别为8.68%、45.58%、20.54%和25.20%,核磁法微孔、过渡孔、中孔和大孔平均分布比例分别为10.64%、64.21%、14.23%和10.92%,结果差异原因可能主要与压汞法、低温液氮法加压改变了煤的孔隙结构有关;通过核磁共振结果对比,联合校正后的压汞与低温液氮数据可提高煤中孔径分布测试结果的准确性。

高温加热-液氮冷冲击处理后花岗岩声发射演化特征及损伤本构模型

通过液氮(LN_2)压裂在储层中形成大规模裂隙网络,可以有效提高干热岩储层的热能提取效率。为研究液氮冷冲击作用对不同温度储层的压裂机理和致裂效果的影响,对经过高温加热(25℃~400℃)和液氮冷冲击处理后的花岗岩试样进行单轴压缩试验,分析了花岗岩力学强度及声发射等多项参数的演化特征,并进一步构建了考虑声发射参数的损伤本构模型,用于评价和预测高温加热-液氮冷冲击处理后花岗岩的变形和强度特征。结果表明:高温和液氮冷冲击的联合作用显著劣化了花岗岩力学性能,峰值强度逐渐降低,最大降幅达到32.8%。同时随着加热温度的升高,不同矿物颗粒之间的热膨胀变形存在差异,导致矿物颗粒之间变形不协调。随着初始加热温度的升高,声发射最大b值平均值显著上升,最大增幅达到32.2%,且声发射振铃计数的初始静默阶段对应的应变量大幅度降低,最大降幅达到54.3%。随着加热温度的升高,液氮冷冲击作用使得微裂纹的生长更为密集,花岗岩在外部荷载作用下,微裂隙不断扩展贯通,更容易形成剪切变形,发生剪切破坏的起始应力水平逐渐下降,最大降幅达到62.3%,同时RA-AF散点值在剪切区域占比增加,最大增幅达到29.5%。此外,本文以声发射振铃累计计数为变量构建了考虑声发射参数的损伤本构模型,能够描述不同高温和液氮冷冲击处理后花岗岩各力学参量在变形破坏过程中的演化特征。

Enhance liquid nitrogen fracturing performance on hot dry rock by cyclic injection

Producing complex fracture networks in a safe way plays a critical role in the hot dry rock (HDR) geothermal energy exploitation. However, conventional hydraulic fracturing (HF) generally produces high breakdown pressure and results only in single main fracture morphology. Furthermore, HF has also other problems such as the increased risk of seismic events and consuption of large amount of water. In this work, a new stimulation method based on cyclic soft stimulation (CSS) and liquid nitrogen (LN2) fracturing, known as cyclic LN2 fracturing is explored, which we believe has the potential to solve the above issues related to HF. The fracturing performances including breakdown pressure and fracture morphology on granites under true-triaxial stresses are investigated and compared with cyclic water fracturing. Cryo-scanning electron microscopy (Cryo-SEM) tests and X-ray computed tomography (CT) scanning tests were used for quantitative characterization of fracture parameters and to evaluate the cyclic LN2 fracturing performances. The results demonstrate that the cyclic LN2 fracturing results in reduced breakdown pressure, with between 21% and 67% lower pressure compared with using cyclic water fracturing. Cyclic LN2 fracturing tends to produce more complex and branched fractures, whereas cyclic water fracturing usually produces a single main fracture under a low number of cycles and pressure levels. Thermally-induced fractures mostly occur around the interfaces of different particles. This study shows the potential benefits of cyclic LN2 fracturing on HDR. It is expected to provide theoretical guidance for the cyclic LN2 fracturing application in HDR reservoirs.

Development of liquid-nitrogen-cooling friction stir spot welding for AZ31 magnesium alloy joints

A liquid-nitrogen-cooling friction stir spot welding(C-FSSW) technology was developed for welding AZ31 magnesium alloy sheets. The liquid-nitrogen cooling degraded the deformability of the welded materials such that the width of interfacial cracks increased with increasing cooling time. The grain size of the stirred zone(SZ) and the heat-affected zone(HAZ) of the C-FSSW-welded joints decreased, whereas that of the thermomechanically affected zone(TMAZ) increased with increasing cooling time. The maximum tensile shear load of the C-FSSW-welded joints welded with a cooling time of 5 or 7 s was larger than that of the friction stir spot welding(FSSW)-welded joint, and the tensile shear load decreased with increasing cooling time. The microhardness of the C-FSSW-welded joints was greater than that of the FSSW-welded joint. Moreover, the microhardness of the SZ and the HAZ of the C-FSSW-welded joints increased, whereas that of the TMAZ decreased, with increasing cooling time.

Liquid-nitrogen cryopreservation of three kinds of autotrophicbioleaching bacteria

Three kinds of autotrophic bioleaching bacteria strains,including mesophilic and acidophilic ferrous ion-oxidizing bacteria Acidithiobacillus ferrooxidans(A.ferrooxidans),mesophilic and acidophilic sulfur-oxidizing bacteria Acidithiobacillus thiooxidans(A.thiooxidans),and moderately thermophilic sulfur-oxidizing bacteria.4cidianus brierleyi,were cryopreserved in liquid nitrogen and their ferrous ion-or sulfur-oxidizing activities were investigated and compared with the original ones.The results revealed that ferrous ion/sulfur oxidation activities of the strains were almost equal before and after cryopreservation.Glycerin was used as cryoprotective agent.In conclusion,liquid-nitrogen cryopreservation is a simple and effective method for autotrophic bioleaching microorganisms.

Experimental investigation of shale breakdown pressure under liquid nitrogen pre-conditioning before nitrogen fracturing

Cryogenic fracturing with liquid nitrogen(LN_(2))offers the benefits of reducing the water consumption and adverse environmental impacts induced by water-based fracturing,as well as potentially enhancing the fracture complexity.We performed a series of laboratory experiments to explore the key mechanisms governing the breakdown pressures of shale during cryogenic fracturing.In this study,cylindrical shale samples were pre-conditioned by exposing a borehole to low-temperature LN_(2) for a certain time period,and then,the samples were fractured using gaseous N_(2) under triaxial stress and a high reservoir temperature.The effects of various key parameters on the breakdown pressure were investigated,including the duration of the low-temperature LN_(2) treatment,the confining pressure,the reservoir temperature,and the direction of the shale bedding relative to the borehole axis.The results demonstrate that the injection of low-temperature LN_(2) as a pre-fracturing fluid into a borehole can significantly reduce the breakdown pressure of the shale during subsequent nitrogen fracturing.This reduction in breakdown pressure can be further intensified by increasing the duration of the LN_(2) pre-conditioning.Without LN_(2) pre-conditioning,the breakdown pressure initially increases and then decreases with increasing reservoir temperature.When LN_(2) pre-conditioning is applied,the breakdown pressure keeps decreasing with increasing reservoir temperature.As the confining pressure increased,the breakdown pressure increased linearly in the tests with and without LN_(2) pre-conditioning.The experimental results demonstrate that LN_(2) preconditioning before N_(2) fracturing is a promising waterless fracturing technique that reduces the breakdown pressure and enhances the fracture complexity.

Mechanism of drilling rate improvement using high-pressure liquid nitrogen jet

To address the high rock strength and low drilling rate issues in deep oil/gas and geothermal exploitation, we performed mechanical property tests on three kinds of rock samples(granite, shale and sandstone) subjected to liquid nitrogen(LN2) cooling and conducted rock-breaking experiments using LN2 jet. Rock-breaking characteristics and mechanisms of LN2 jet, heat transfer features between LN2 and rock and thermal stress evolution in rock were analyzed. A novel high-pressure LN2 jet assisted drilling method was proposed accordingly. The study results show that LN2 thermal shock can significantly reduce uniaxial compression strength and elastic modulus of rock. Rock damage and corresponding mechanical deterioration become more pronounced with increasing rock temperature. The LN2 jet has merits of high rock-breaking efficiency and low threshold rock-breaking pressure. Rock failure under LN2 jet impact is characterized by large volume breakage and the rock-breaking performance becomes more significant with increase of rock temperature. Under the impact of LN2 jet, the damage of granite is the most remarkable among the three rock samples. Thus, this method works better for high temperature granite formations. It has a good application prospect in speeding up drilling rate in deep hot dry rock geothermal reservoirs.

吡啶-氧杂二氮唑在钯离子萃取分离中的应用

高放废液中钯的萃取分离对贵金属钯资源的回收利用和核燃料循环中的玻璃固化过程都有重要意义,其关键在于高效高选择性萃取体系的开发和设计。基于氮杂环配体高效配合钯离子的特性,设计合成了一种具有吡啶-氧杂二氮唑结构的萃取剂6,6′-((4-异丁氧基吡啶-2,6-二基)双(1,2,4-氧杂二氮唑-5,3-二基))双(4-异丁氧基吡啶甲腈)(T2),用于酸性条件下钯离子的选择性萃取。以间硝基三氟甲苯为稀释剂且在1 mol/L 2-溴己酸存在下,配体T2对钯离子体现出较好的萃取能力。萃取动力学表明2 h即可萃取68%的钯进入有机相。该体系适用酸度广泛,在0.2~4 mol/L硝酸条件下均对钯展现出定量萃取,表明其优异的酸稳定性。此外,在多种阳离子共存的条件下,该体系能高选择性地分离萃取出钯离子,表明其良好的实际应用潜力。研究不仅提供了一类高效的钯萃取剂,更为其它新型钯萃取剂和萃取体系的开发提供了重要参考。

Liquid nitrogen level meter for high-temperature superconductor (HTS)

Many kinds of high temperature superconductor （HTS） power machines such as HTS cable, HTS fault current limitcr and HTS magnet are cooled by liquid nitrogen. The level of liquid nitrogen should be monitored and controlled to ensure the thermal stability and the dielectric strength as well. To measure the level, capacitance method and differential pressure method are usually used. However, each method has installation difficulties and measurement errors for unsteady state operation with varying system pressure. A new liquid level meter using a 2G HTS conductor is described, which has similar structure with the liquid helium level meter with NbTi filament. The level meter is fabricated with a parallel connected heater, which helps the separation of the superconducting region and normal region, considering the critical temperature, large heat capacity of conductor and cooling characteristics. The level of liquid nitrogen can be obtained from the measured voltage signal along the 2G HTS conductor. Design, fabrication and test results of the new liquid nitrogen level meter are presented.

Ionic Liquid Assisted Extraction of Nitrogen and Sulphur-Containing Air Pollutants from Model Oil and Regeneration of the Spent Ionic Liquid

Removal of air pollutants, such as nitrogen and sulphur containing compounds from a model oil (dodecane) was studied. An ionic liquid (1-ethyl-3-methylimidazolium chloride [C2mim] [Cl]) was used as an extractant. Liquid-liquid extraction by using 1-ethyl-3-methylimidazolium chloride [C2mim] [Cl] was found to be a very promising method for the removal of N- and S-compounds. This was evaluated by using a model oil (dodecane) with indole as a neutral nitrogen compound and pyridine as a basic nitrogen compound. Dibenzothiophene (DBT) was used as a sulphur compound. An extraction capacity of up to 90 wt% was achieved for the model oil containing pyridine, while only 76 wt% of indole in the oil was extracted. The extraction capacity of a model sulphur compound DBT was found to be up to 99 wt%. Regeneration of the spent ionic liquid was carried out with toluene back-extraction. A 1:1 toluene-to-IL wt ratio was performed at room temperature. It was observed that, for the spent ionic liquid containing DBT as a model compound more than 85 wt% (corresponding 3852 mg/kg) could be removed from the oil. After the second regeneration cycle, 86 wt% of the DBT was recovered from the ionic liquid to toluene. In the case of indole as the nitrogen containing species, more than 99 wt%, (corresponding to 2993 mg/kg) of the original indole was transferred from the model oil to the ionic liquid. After the first-regeneration cycle of the spent ionic liquid, 54 wt% of the indole–in-IL was transferred to toluene. Thus, both extractions of nitrogen and sulphur model compounds were successfully carried out from model oil and the back-extraction of these compounds from the ionic liquids to toluene demonstrated the proved the concept of the regeneration point of view.

双针-板结构脉冲气泡放电等离子体固氮研究

大气压低温等离子体可以利用空气直接进行氧化固氮,具有反应条件温和、参数灵活可控、避免温室气体排放等优点.本文利用双针-板电极在水中形成气泡放电等离子体,以空气为放电气体进行了固氮研究,分析了产物浓度和固氮能耗的影响因素.研究结果表明,等离子体中含有丰富的氮原子、氧原子、氢原子、激发态氮分子等活性物种,可高效合成硝态含氮产物.研究发现,脉冲参数、电极间隙、工作气体组分对气泡放电等离子体的固氮性能有重要影响.装置最高NO~-_x合成速率为19.2μmol/min,最小能耗约为11 MJ/mol.此外还发现,电极间隙为6 mm时,固氮性能最优;空气中增加适量氧气(氧气/氮气比例为0.4)可以增强产物合成,降低能耗.

SPE-UPLC-MS/MS法同时测定花草茶中的7种吡咯里西啶类生物碱及其氮氧化物

该研究建立了同时测定花草茶中7种吡咯里西啶类生物碱及其氮氧化物(野百合碱、野百合碱-N-氧化物、立可沙明碱、立可沙明碱-N-氧化物、天芥菜碱、天芥菜碱-N-氧化物、千里光宁碱)的固相萃取-超高效液相色谱-串联质谱(SPE-UPLC-MS/MS)分析方法。样品用0.1 mol/L盐酸溶液提取,经MCX固相萃取柱净化后,样液通过Poroshell 120 EC-C_(18)色谱柱(150 mm×3.0 mm,2.7μm)分离,电喷雾正离子多反应监测(MRM)模式检测。结果表明,7种吡咯里西啶类生物碱及其氮氧化物在1.0~50μg/L线性范围呈良好的线性关系,相关系数(R^(2))均>0.998;方法检出限(LOD)和定量限(LOQ)分别为0.3μg/kg和1.0μg/kg。平均加标回收率为81.8%~98.8%,精密度试验结果相对标准偏差(RSD)为1.98%~7.08%。对20个花草茶样品进行检测结果发现,其中有2个样品检出千里光宁碱,分别为18.2μg/kg和33.5μg/kg。该方法快速准确,准确度高,精密度好,适用于花草茶中的吡咯里西啶类生物碱及其氮氧化物的同时测定。

土壤水氮动态及作物生长耦合EPIC-Nitrogen2D模型

为计算农业区不同作物生长条件下土壤水氮迁移转化过程,该文基于Erosion/Productivity Impact Calculator（EPIC）作物模型建立了作物根系生长子模块,将其进行有限元数值离散,与土壤氮素迁移转化模型Nitrogen2D耦合,使模型能计算作物生长条件下土壤水氮迁移转化过程。该作物生长模块可计算多种胁迫下作物根系对土壤水分和氮素的动态吸收速率,及作物收获时的生物量和吸氮量。采用武汉大学灌溉排水试验场冬小麦生长条件下土壤水氮试验数据对模型进行了率定,并用于土壤水氮分布和作物生物量预测,土壤含水率、氮素的模拟值与实测值的一致性系数分别为0.86-0.97、0.52-0.98,Nash效率系数为0.59-0.90（含水率）、0.44-0.93（土壤氮素）,说明模拟结果与实测值吻合度较高。同时,分别采用该文的作物生长模块和简单根系吸收模块计算根系吸氮过程,结果显示,简单根系吸收模型会显著高估作物吸氮量,而作物生长模型则由于考虑了根系生长和各环境因子的胁迫作用,计算结果更符合作物实际吸氮过程,计算的根系吸氮量相对均方根误差为3.4%-46%。

5-氨基酮戊酸光动力疗法联合液氮冷冻治疗男性复发性肛周尖锐湿疣的疗效

目的:探讨5-氨基酮戊酸光动力疗法(ALA-PDT)联合液氮冷冻治疗男性复发性肛周尖锐湿疣的疗效及安全性。方法:选取86例男性复发性肛周尖锐湿疣患者为研究对象,按照治疗方案不同分为对照组(n=43)与观察组(n=43)。对照组患者给予液氮冷冻治疗;观察组患者在对照组的基础上联合ALA-PDT治疗,两组均治疗4周。治疗后随访6个月,比较两组患者皮肤受损面积、性功能、复发及不良反应发生情况。结果:治疗后,两组患者皮肤受损面积均较治疗前缩小(P<0.05),且观察组小于对照组(P<0.05)。治疗后6个月,观察组患者治疗有效率高于对照组(88.37%vs.69.77%,P<0.05)。治疗后1、3、6个月,观察组患者国际勃起功能障碍指数(IIEF-5)评分均高于对照组(P<0.05)。治疗后1、3、6个月,观察组患者复发率均低于对照组(P<0.05)。两组中重度疼痛、排便疼痛、瘙痒、水肿及大便出血等不良反应发生率比较,差异均无统计学意义(P>0.05)。结论:相较于单独行液氮冷冻治疗,ALA-PDT联合液氮冷冻治疗有利于促进男性复发性肛周尖锐湿疣患者皮肤愈合及性功能恢复、降低复发率,临床疗效更优且不增加不良反应发生风险。

Preservation efficiency of new cryoprotectant used for Acidithiobacillus ferrooxidans in liquid nitrogen

The efficiency of a new cryoprotectant,GP,for the preservation of Acidithiobacillus ferrooxidans（A.ferrooxidans） strain DC in liquid nitrogen was investigated.The optimal concentration of this new cryoprotectant for the maximal viable cell recovery and the highest ferrous ion oxidation activity was determined.The results show that 30%（volume fraction） GP is optimal for the cryopreservation with 84.4% of cells surviving,completely oxidizing ferrous ions within 120 h,and growing to a final density of 5.8×107 cell/mL after 6 d in the culture.Furthermore,the optimal residual GP concentration for viable cell recovery after culture of thawed cells in 9K medium for 6 d is 0.6%（volume fraction）.At this concentration,strain DC completely oxidizes ferrous ions within 108 h and grows to a final cell density of 6.8×107 mL-1.Thus,GP is a simple,effective cryoprotectant for the preservation of A.ferrooxidans strain DC in liquid nitrogen.