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.

小峪煤矿8202综放面综合防灭火技术研究与应用

为了解决小峪煤矿8202综放面初采期间,CO气体持续上升的问题,通过分析工作面CO气体来源,采取地表裂缝治理、地面打孔注液态CO_(2)和黄泥浆、井下增大注氮量、工作面头尾三角区域加强封堵以及束管监测等系列工程手段,该工作面CO浓度得到有效控制。结果表明,8202顶抽巷CO浓度由最大的341×10^(-6)下降到26×10^(-6),5202回风巷CO浓度由最大的72×10^(-6)下降到2×10^(-6),保证了工作面安全开采。

Delamination of Birnessite MnO_(2) into Nanosheets as Anode Materials for Lithium Ion Batteries

The delamination of birnessite MnO_(2) into nanosheets by freezing and thawing method was reported here.The proton⁃type birnessite manganese oxide(H⁃birnessite)was added to tetramethylammonium hydroxide(TMAOH)solution in a polypropylene tube which was then sealed.Fifty cycles consisting of fast freezing(in liquid nitrogen for 30 s)and thawing(in 70℃ water for 30 min)were operated.The as⁃prepared slurry was characterized by X⁃ray diffraction(XRD)and transmission electron microscope(TEM).The XRD result showed the layered structural H⁃birnessite was delaminated.The TEM result revealed the product had a nanosheet⁃like morphology.Employed as an anode material for lithium⁃ion batteries,MnO_(2) nanosheets as⁃prepared delivered a specific charging capacity of 1040.6 mAh/g after 100 cycles at 100 mA/g.

液氮消冷雾微结构的演变分析

液氮已广泛用于外场的人工增雨和消雾，是“十五”人工影响天气攻关研究和推荐的催化剂之一；其优势在于价廉，对环境无污染，资源丰富，-8℃以上成冰率高于AgI。文章介绍用液氮在首都机场的消雾试验，讨论和分析了消雾前后雾微结构的演变。对地跨北京14个区县，持续48h，能见度最低时达20～30m的气团平流雾连续播撒液氮，35min后下风方4．8km的测立占出现冰雪晶，形状以柱状为主，平均浓度为0．35个／cm^3。冰雪晶的出现破坏了雾的胶性稳定性，能见度很快得以改善，水平能见度增加到300～600m。

液氧/液甲烷低温推进剂深度过冷加注实验研究

为了提高低温推进剂深度过冷技术成熟度,以充分利用其在降低过冷装置系统质量、延长贮存时间等方面的工程应用优势,针对液氧/液甲烷低温推进剂组合,以70 K/97 K为目标开展深度过冷方案对比与流程设计,并通过搭建中等规模液氧和液甲烷快速深度过冷加注实验系统进行可行性测试验证。结果表明:针对中大规模过冷装置系统,液氧系统采用常压液氮浴+负压液氮浴两级换热过冷方案(换热器均采用铝制板翅式换热芯),液甲烷系统采用常压列管式液氮浴式换热器过冷加注方案;为满足快速过冷加注需求,液氧/液甲烷系统均采用边过冷边加注的系统流程;在加注流量为1.0 L·s^(-1)左右的稳定测试阶段,液氧实验系统中入口温度约108 K的液氧经一级、二级换热器能够分别被冷却至约88 K及70 K以下,液甲烷实验系统也实现了97 K液甲烷的深度过冷与快速加注,成功验证了设计方案的可行性。研究工作能够为中国开展过冷低温推进剂的研究与工程应用提供理论与技术支持。

真空热试验中冷能利用的思考

在大型航天器的真空热试验中,仅从过冷器排除的液氮和低温气氮的混合物就达约5×104kg,其中蕴涵了108kJ量级的冷能。文章首先介绍了自然冷能和LNG冷能利用的研究现状,并结合航天器真空热试验的实际情况,研究了试验过程中排气造成的冷能损失,对它的再利用可行性进行了讨论,提出可以采用联合法冷能回收流程,并提出了冷能利用中的几个关键问题。认为:需要解决液氮和低温气氮供应的连续性及找到恰当的二次冷媒,是真空热试验中冷能利用的关键。

选择性催化还原法烟气脱氮工艺还原剂的选择

介绍了选择性催化还原法烟气脱氮工艺的基本原理,比较了采用液氨、氨水和尿素3种还原剂时系统的安全性、场地因素、投资费用和运行维护性等,给出了3种还原剂各自适用的范围.液氨、氨水和尿素的安全性都可以达到可控状态,推荐以尿素作为还原剂.

五种方法治疗顽固性跖疣的疗效和安全性比较

目的评价5种方法治疗顽固性跖疣的临床疗效和安全性。方法将入选的250例顽固性跖疣随机分为5组,各50例。A组予局部注射重组人IL-2联合CO2激光治疗,B组予CO2激光治疗,C组予冷冻治疗,D组予氟尿嘧啶软膏外搽,E组予局部注射重组人IL-2。5组患者的疗程均为1个月。结果治疗结束后1个月时A组有效率(82.00%)显著高于B组、C组、D组和E组(依次为64.00%,40.00%,10.00%和32.00%),治疗结束后2个月时A组有效率(94.00%)也显著高于B组、C组、D组和E组(依次为78.00%,56.00%,32.00%和44.00%),而且各组有效率组内比较结果显示治疗结束后2个月时均优于治疗结束后1个月时;随访6个月时,A组复发率(4.26%)分别低于B组、C组、D组和E组(依次为20.51%,42.86%,62.50%和31.82%)。以上差异均有统计学意义(P均<0.05)。A组皮损平均愈合时间均明显少于其他4组,差异均有统计学意义(t=5.726,11.354,17.876,9.687,P均<0.05)。各组治疗不良反应主要有术中术后疼痛、伤口出血、感染等,A组不良反应明显少于B组、C组和E组,D组无明显不良反应。结论局部注射重组人IL-2联合CO2激光治疗顽固性跖疣时患者的皮损消失快,伤口愈合早,治愈率高,复发率低,不良反应少。其他组别有效率由高到低依次为CO2激光、液氮冷冻、局部注射IL-2及外用5%氟尿嘧啶软膏。

液氮抑制外部加热和过充锂电池模组热失控

为抑制锂离子电池模组的热失控传播,构建液氮(LN)对热失控的抑制试验系统,揭示在外部加热和过充条件下,LN对锂离子电池模组热失控传播的抑制作用。结果表明:外部加热条件下,热失控自紧贴加热板的电池向两侧传播,共6块热失控电池;同条件下,注氮后热失控电池温度降低超过100℃,峰值温度降低70℃以上,LN冷却效率为42.9%,有效利用率为4.1%,热失控剧烈程度降低,传播被阻断;改变加热板位置使LN不直接接触热失控电池时,LN的冷却效率为18.3%,有效利用率仅为2.1%,远低于接触组,且热失控电池回温至207℃,LN不能终止电池热失控进程,LN直接接触热失控电池时达到最佳抑制效果。过充条件下,电池模组内共7块热失控电池,峰值温度均超过345℃;注氮组无热失控电池,电池峰值温度为127.4℃,LN冷却效率为41.7%,在电池模组压降时注氮可防止热失控发生。

小样品在过冷液氮中的淬冷沸腾传热

本文用沉浸法研究小样品沉浸入过冷液氮的沸腾传热特性。实验发现，沉浸样品的直径减少、液氮过冷度增大，均导致沸腾的热流密度急剧向右上方移动。当小直径足够小，过冷度足够大时，稳定膜态沸腾段消失了，“Ｍ”形的沸腾曲线变为“Λ”形。

稳定性液体氮肥在保护性耕作黑土中施用效果

氮肥利用率低是制约我国东北黑土区玉米产业高效稳定发展的重要因素,以尿素硝铵溶液(UAN)为原料,硝化抑制剂2-氯-6(三氯甲基)吡啶微胶囊(CPCS)为材料,制备稳定性液体氮肥,研究其对黑土区玉米氮素吸收与利用和生长发育的影响。以2-氯-6(三氯甲基)吡啶传统乳油剂型(CPEC)为对照,制备了0.5%CPCS-UAN、1%CPCS-UAN、2%CPCS-UAN 3种稳定性液体氮肥。田间试验设置6个处理:不施氮肥(N0)、UAN(N180)、1%CPEC-UAN(N180)、0.5%CPCS-UAN(N180)、1%CPCS-UAN(N180)和2%CPCS-UAN(N180)。在春玉米生育期内测定土壤无机氮动态变化及植株氮素吸收量,并在成熟期测定产量及其构成因素。2020和2021年田间试验结果显示,与UAN处理相比,CPCS-UAN处理能显著提高玉米产量和植株吸氮量,其中1%CPCS-UAN处理表现最优,玉米产量增加6.38%~8.35%,吸氮量增加24.12~31.70 kg/hm^(2);与传统乳油剂型1%CPEC-UAN处理相比,1%CPCS-UAN处理玉米产量增加5.39%~6.30%,吸氮量增加17.51~18.98 kg/hm^(2),CPCS-UAN处理增产的主要原因是单穗粒数和百粒重的增加。在玉米整个生育期CPCS-UAN处理0~20 cm土层土壤的铵态氮和硝态氮整体呈现逐渐降低的趋势,其土壤铵态氮含量在各个生育时期均高于其他处理。CPCS-UAN处理能显著降低氮肥表观损失率,增加氮肥表观利用率,其中1%CPCS-UAN处理的土壤氮肥表观损失率最低,为33.2%~34.0%,氮素表观利用率最高,为40.9%~49.6%。在黑土中,CPCS配合UAN制成的稳定性液体氮肥可以有效抑制玉米生育期内铵态氮向硝态氮转化,减少氮素损失,增加植株吸氮量,提高氮肥利用率和玉米产量。

Tunable nitrogen crafted 2D-graphene nano-hybrid from industrial expansive and ecological approach as robust cathode microporous layer to improve performance of a direct methanol fuel cell

In this work, the excess water-stagnation issue in the high current region in direct methanol fuel cells(DMFCs) is resolved by using atomic precision modulated nitrogen-crafted graphene(NG) in the cathode microporous layer by utilizing simplistic,industrial-expansive and ecological strategy. Few-layer 2D-graphene(~2–5 nm thickness) is prepared by bath sonication approach from abundant feedstock-graphite and is treated with nitric acid to yield 1.8 wt.% uniformly dispersed nitrogen containing NG. Specifically, 1:4 weight ratio NG:carbon-black(CB) hybrid architecture, displays 0.252 V in 370 mA cm^(-2) with the peak power density of 93.4 mW cm^(-2), improving cell power density by 45.6% compared with standard one at 60℃ and 1 mol/L methanol/oxygen conditions at ultra-low catalyst loadings and displaying exceptional stability. Atomic insights into NG reveal that interplay between bonding configurations, altered hydrophobic/hydrophilic porosity of graphene(10.6% less wettability from contact angle and 13.1% high electrode porosity measurements) contribute to the better mass-transport-porogenic effect(16.3% high oxygen-permeability), mildly affecting the electron pathway(6.5% reduced in-plane electrical conductivity),overall significantly improving cell performance. Altogether, this work delivers multiple advantages, i.e., the usage of material from facile, sustainable and cost-effective routes, while improving DMFC performance with potential industrial promise.

Genetic Stability of Cryopreserved Grapevine （Wtis vinifera L.） Genome by Vitrification Method

Grapevine （Vitis spp.） is an economically important fruit crop worldwide. In Mexico, Sonora State leads the table grape production and exportation to international markets. In this regard, it is important to preserve the grape varieties during long time without phenotypical or genotypical changes. Cryopreservation is a good alternative, although it very often can induce changes in genome and phenotype. In this study, grapevine cv. ＂Flame Seedless＂ axillary buds were cryoprcserved by vitrification using the plant vitrification solution 2 （PVS2） and stored in liquid nitrogen （LN） for one hour, one week and one month, respectively. Genetic stability of buds cryopreserved under all treatments was evaluated using inter-simple sequence repeats （ISSR） markers. Ten ISSR primers were evaluated, but only two primers were possible to amplify distinct and reproducible bands with sizes between 300 bp and 2,000 bp. Different ISSR fragment patterns were recorded in cryopreserved buds as compared with control. These results suggest that cryopreservation by LN and vitrification-cryopreservation affect genetic stability in grapevine.

冷冻辅助联合光动力疗法治疗皮肤寻常疣的疗效分析

目的观察液氮冷冻辅助联合5-ALA-PDT治疗皮肤寻常疣的疗效。方法选择我院皮肤科于2015年5月至2018年2月治疗并符合纳入标准的皮肤寻常疣患者78例(86个疣体),随机分成液氮冷冻辅助联合氨基酮戊酸光动力疗法组(实验组):42例(47个疣体);单纯液氮冷冻治疗组(对照组):36例(39个疣体);对比观察两组患者的治疗后第4、8、12周的愈合质量及复发率,并采用免疫组化法检测两组患者寻常疣治疗前、治疗刚结束时及治疗12周后皮损组织中HBD-2的表达程度,并对检测结果进行分析。结果经过规范治疗3次后,实验组和对照组的疣体清除率分别为95.74%和76.92%,两组之间差异有统计学意义(P<0.05);实验组治疗过程中不良反应的发生率为10.64%(5处),对照组为7.69%(3处),两组之间无明显差异;实验组第4、8、12周的复发率分别为2.13%、4.26%、8.51%,而对照组相同时段的复发率分别为17.95%、20.51%、25.64%,两组间比较差异均有统计学意义(P<0.05)。两组患者皮损部位的HBD-2的表达情况在治疗前、治疗刚结束时均无明显差异,于治疗12周后液氮冷冻辅助联合光动力疗法组的HBD-2的表达要低于单纯液氮冷冻治疗组,差异有统计学意义(P<0.05)。结论液氮冷冻辅助联合光动力疗法治疗皮肤寻常疣的疗效确切,具有疣体清除率及临床治愈率高而复发率低的优势,可在临床上推广应用。

液氮洗原料气通道压差波动的原因分析及处理

总结液氮洗装置开车以来的运行情况,针对原料气通道压差上涨造成2号原料气冷却器换热不好,继而导致氮洗塔压差波动的问题分析,并提出解决办法和优化措施,保证装置的安全稳定运行。

柱前衍生-固相萃取-高效液相色谱荧光测定生物脱氮反应器中痕量信号分子AI-2

为揭示污水生物脱氮工艺中污泥菌群间的群体感应作用,建立了柱前衍生-固相萃取-高效液相色谱荧光检测法(HPLC-FLD)定量检测介导细菌种间群体感应信号分子AI-2的方法。取反应器的泥水混合液,经0.45μm滤膜过滤后,用氨基磺酸掩蔽亚硝酸盐干扰,并与2,3-二氨基萘(DAN)发生衍生化反应,衍生化产物用C18固相萃取柱进行固相萃取,经氮吹浓缩后上机分析。采用C18色谱柱(4.6 mm×250 mm,5μm)进行分离,乙腈与水(含0.1%甲酸)作为流动相进行梯度洗脱,使用荧光检测器(激发和发射波长分别为271 nm和503 nm)进行检测。结果表明,该检测方法在1～200 ng·mL^(-1)范围内呈现出了良好的线性关系,检出限为1 ng·mL^(-1),回收率为55.08%～59.25%,相对标准误差为2.98%～10.41%。该方法适用于杂质干扰多的痕量信号分子AI-2定量分析,可为生物脱氮工艺中信号分子AI-2介导群体感应研究提供有效的分析方法。

北湖污水厂改良A^(2)/O膜生物池混合液回流系统优化

北湖污水处理厂有40×10^(4) m^(3)/d规模的污水采用高浓度改良A^(2)/O生物池+MBR组合工艺处理。为充分发挥其污泥浓度高、节省占地、出水水质好、自动化程度高的优点,消除其受混合液回流方式限制引发回流条件不好而导致生物脱氮除磷效果差的弊端,该工程提出一种混合液回流系统的优化设计方案,即采用改良A^(2)/O生物池混合液导流/分流装置。该装置由分流导流板系统、混合液导入系统及混合液导出系统组成,通过对导入及导出点所在的同一平面位置进行竖向分隔,形成两个相对独立的空间,在不同高度空间内实现不同分区之间的混合液导入与导出,从而构建出高效的混合液回流系统。该解决方案构思巧妙,简单易行,可广泛应用于各种具有推流结构形式、同步脱氮除磷及多级回流需求的生物池中,例如UCT工艺、VIP工艺、A^(2)/O及其各种变形工艺。该装置可节约能耗,提高生物脱氮除磷效果,北湖污水厂混合液回流能耗为0.0017 kW·h/m^(3),节能50%~85%,平均脱氮率为73%,最高达93%。

Synthesis of reusable NH_(2)-MIL-125(Ti)@polymer monolith as efficient adsorbents for dyes wastewater remediation

NH_(2)-MIL-125(Ti)is a Ti-MOFs(MOFs:metal-organic frameworks)with high adsorption properties and is therefore widely used for wastewater purification.However,the powdered MOF material suffers from the disadvantages of being difficult to separate and being potentially wasted due to easy agglomeration,which limits its application in practical applications.Here,a mesoporous Ti-MOF/polymer(PEG,PVA,and PAM)monolithic material was prepared by freeze casting in liquid nitrogen(-196℃)as an adsorbent for wastewater remediation.The composites could be easily picked up with tweezers and used for recovery tests.Characterization results such as XRD,BET,FT-IR,and SEM proved the successful synthesis of Ti-MOF/polymer.Adsorption tests using 100 mg/L methylene blue(MB)simulated wastewater showed that the Ti-MOF/PEG monolithic material had the best adsorption capacity.The order of adsorption was Ti-MOF@PEG10(747.4 mg/g)>Ti-MOF@PVA10(687.4 mg/g)>Ti-MOF@PAM10(633.7 mg/g)>NH_(2)-MIL-125(Ti)(571.4 mg/g).The effects of polymer dosage,different pollutants(methylene blue,methyl orange,indigo,actual textile wastewater),pH,anions,and cations on the adsorption effect of Ti-MOF/polymer were also investigated.It was demonstrated that all the above pollutants were well adsorbed by this Ti-MOF/polymer in the pH range 3-9.The adsorption isotherms and kinetic data are fully consistent with the Langmuir and pseudo-secondary models.This suggests that the adsorption between the pollutant and the adsorbent is a chemical interaction.Thermodynamic studies indicate that the adsorption process is exothermic and spontaneous.This work provides the potential methods to fabricate Ti-MOF/polymer monolith to avoid the pollution from powdery adsorbents that could be practical applications.

氨基酮戊酸光动力疗法对皮肤寻常疣HBD-2及炎性因子水平的影响

目的观察皮肤寻常疣采用氨基酮戊酸光动力治疗对人β-防御素-2(HBD-2)及炎性因子水平的影响。方法选取2021年1月—2023年1月开封市人民医院收治的108例皮肤寻常疣患者,将液氮冷冻治疗的54例作为对照组,将氨基酮戊酸光动力治疗的54例作为观察组,观察且对比两组治疗前后人β-防御素-2(HBD-2)的水平、炎性因子的水平、疗效、复发率及不良反应的发生率。结果(1)从HBD-2的水平观察,治疗前及治疗刚结束,两组差异无统计学意义(P>0.05),治疗后3个月,观察组与对照组相比明显降低,组间有显著性差异(P<0.05)。(2)从炎性因子的水平观察,治疗前,两组差异无统计学意义(P>0.05),治疗后3个月,观察组与对照组对比明显降低,组间差异有统计学意义(P<0.05)。(3)从治疗疗效观察,观察组总有效率为96.30%,对照组总有效率为83.33%,对比显示观察组明显高于对照组,组间差异有统计学意义(P<0.05)。(4)从复发率观察,观察组治疗后1、2、3个月的复发率均显然低于对照组,组间差异有统计学意义(P<0.05)。(5)从不良反应的发生率观察,观察组不良反应发生率(7.41%)与对照组(9.26%)相比差异无统计学意义(P>0.05)。结论皮肤寻常疣治疗中应用氨基酮戊酸光动力疗法可表现出明显的疗效,且复发率低。

液氮深冷速冻对三疣梭子蟹品质和微观组织结构的影响

用液氮喷淋(-40℃,20 min)对舟山新鲜三疣梭子蟹冻结处理并贮藏于-18℃。作为对比,对大小相近的同批原料进行平板冻结(-20℃,6 h)以及冰柜冻结(-18℃,20 h)预处理,其它操作与液氮速冻相同。以蟹肉p H值,K值,TVBN值和TBA值为理化指标,结合SDS-PAGE电泳和光学显微观察蟹肉内部变化。结果表明:除p H值外,液氮组、平板组、冰柜组样品的各项理化指标(K值、TVBN、TBA值)在30 d内均随着时间的延长呈上升趋势,并且液氮组各项指标变化速率均显著低于平板组和冰柜组(P<0.05)。保存第30天的样品中,3组样品的K值较初始值分别增加了39.9%,45.95%,49.97%。电泳图谱显示:在30 d时,液氮组样品的肌球蛋白重链(200 ku)和肌动蛋白(45 ku)含量最高。微观结构观察发现,3种处理均导致肌原纤维不同程度的扭曲和收缩,肌原纤维间隙增大。然而,液氮组样品的肌原纤维与新鲜样品最为接近,肌纤维间隙较小,细胞完整度最好,冰晶破坏率最低。本研究结果显示液氮深冷速冻对蟹肉冻藏品质维持的效果最佳。