储能系统锂电池电热耦合建模及参数辨识方法研究

针对电化学机理模型存在全阶结构复杂度高、电池温度变化过程无法精确描述的问题,该文提出将简化电化学模型与热力学模型耦合,建立简化电化学-热力学耦合模型,通过智能辨识算法获取模型相关参数。实验表明,该方法建立的模型在宽环境温度范围、常用放电倍率工况下仿真曲线与实际测试曲线的拟合效果较好,能较好地描述电池电压、电流和温度变化。该模型以较低的模型复杂度和较高的模型精度描述电池内部电化学、热力学行为,可支撑电池状态估计和剩余寿命预测研究。

基于SPME-GC-MS分析不同磨浆温度对神仙豆腐挥发性风味的影响

通过固相微萃取结合气相色谱-质谱联用技术(SPME-GC-MS)对不同磨浆温度下制作的神仙豆腐挥发性风味物质进行检测,并结合聚类分析(CA)和感官性状分析磨浆温度对神仙豆腐挥发性风味物质的影响。实验结果表明:不同磨浆温度制作的神仙豆腐样品中共鉴定出70种挥发性成分,包括醇类17种,烃类13种,醛类8种,芳香族类8种,酮类7种,酯类6种,醚类2种,酸类2种,烷类2种,酚类1种,其他化合物4种。不同磨浆温度对神仙豆腐风味的影响存在显著差异,样品风味的差异主要体现在醇类、酯类和烃类物质的种类和含量上,对风味的形成有较大作用,磨浆温度50℃下制作的神仙豆腐中酯类物质含量较高,磨浆温度60、70、80℃下制作的神仙豆腐在醇类和烃类物质的含量上有较高含量,磨浆温度90℃下制作的神仙豆腐在酮类物质的含量上有较高含量。该研究不仅为食品不同加工方式风味物质变化机制提供参考,也为控制食品风味质量提供借鉴。

大豆抗氧化肽的制备及对大蒜根尖过氧化的保护作用

为探究不同蛋白酶酶解大豆分离蛋白(soybean isolate protein,SPI)对多肽得率及体外抗氧化活性的影响,采用6种蛋白酶(碱性蛋白酶、木瓜蛋白酶、菠萝蛋白酶、中性蛋白酶、胰蛋白酶、胃蛋白酶)进行筛选,测定酶解产物多肽得率、光谱特性及体外抗氧化能力,分析其对过氧化氢诱导的大蒜根尖氧化损伤的保护作用。结果表明,碱性蛋白酶酶解条件下,多肽得率最高为67.78%;多肽在200~230 nm处有最大吸收峰;6种多肽在酰胺A、B、Ⅰ、Ⅱ、Ⅲ带均有吸收峰;所有多肽均具有较好地清除自由基能力,且随着多肽浓度的增加而增加。综合其抗氧化活性评价,碱性蛋白酶制备的多肽清除能力均优于其他蛋白酶;经多肽处理后大蒜根尖细胞凋亡程度下降45.90%。

新时代民航高校飞行大学生管理模式的创新与实践

以中国民用航空飞行学院为代表,针对飞行大学生管理,坚持和完善飞行准军事化管理模式,为中国民航培养作风过硬的高素质飞行员发挥了巨大作用。新时代,民航高校飞行大学生传统准军事化管理方式需要调整与创新,才能更好地应对飞行大学生培养过程中出现的新问题、新挑战。

秸秆还田与轮耕对双季稻土壤物理特性及碳氮含量的影响

为探究在双季稻地区周年内采用秸秆还田与轮耕模式对土壤物理特性及碳氮含量的影响,在湖南浏阳设置4个处理:秸秆还田早稻旋耕晚稻翻耕(RTS)、秸秆还田早稻旋耕晚稻免耕(RNS)、秸秆不还田早稻旋耕晚稻翻耕(RT)、秸秆不还田早稻旋耕晚稻免耕(RN)。结果表明,各处理土壤团聚体粒径分布及各粒径团聚体碳氮贡献率以0.25~2 mm为主。晚稻采用免耕处理明显提高土壤容重,而早稻旋耕减轻了上年晚稻免耕对土壤容重的影响。秸秆还田相比秸秆不还田提高了各处理早、晚稻0~20 cm土壤大团聚体(>0.25 mm)质量分数2.49%~12.72%、平均质量直径(MWD)1.23%~12.34%、土壤有机碳(SOC)含量8.46%~36.70%、全氮(TN)含量8.96%~81.25%。晚稻采用不同耕作方式后,>0.25 mm团聚体质量分数明显提高,且晚稻采用免耕较翻耕更能提高10~20 cm土层>0.25 mm团聚体质量分数。与其他处理相比,RNS处理0~20 cm土层大团聚体质量分数与SOC含量分别提高了1.87%~21.67%、5.76%~19.36%。因此,采用秸秆还田早稻旋耕晚稻免耕有利于保持土壤的团聚体稳定性,提高土壤SOC含量。

安塞油田硫化氢成因分析与综合治理技术研究

为解决生产过程硫化氢气体产生和逸散的问题,减少人身、环境危害,以张渠区块为重点,进行系列管控措施试验研究。基于开发过程硫化氢分布特征的解析,开展井下治理、地面工艺完善等相关控制技术研究,重点验证抗硫缓蚀剂、硫化氢抑制剂的应用效果。经过治理站点硫化氢含量小于5 mg/m3,综合利用率达到98%。

Multifunctional MXene/C Aerogels for Enhanced Microwave Absorption and Thermal Insulation

Two-dimensional transition metal carbides and nitrides(MXene)have emerged as promising candidates for microwave absorption(MA)materials.However,they also have some drawbacks,such as poor impedance matching,high self-stacking tendency,and high density.To tackle these challenges,MXene nanosheets were incorporated into polyacrylonitrile(PAN)nanofibers and subsequently assembled into a three-dimensional(3D)network structure through PAN carbonization,yielding MXene/C aerogels.The 3D network effectively extends the path of microcurrent transmission,leading to enhanced conductive loss of electromagnetic(EM)waves.Moreover,the aerogel’s rich pore structure significantly improves the impedance matching while effectively reducing the density of the MXenebased absorbers.EM parameter analysis shows that the MXene/C aerogels exhibit a minimum reflection loss(RL_(min))value of−53.02 dB(f=4.44 GHz,t=3.8 mm),and an effective absorption bandwidth(EAB)of 5.3 GHz(t=2.4 mm,7.44–12.72 GHz).Radar cross-sectional(RCS)simulations were employed to assess the radar stealth effect of the aerogels,revealing that the maximum RCS reduction value of the perfect electric conductor covered by the MXene/C aerogel reaches 12.02 dB m^(2).In addition to the MA performance,the MXene/C aerogel also demonstrates good thermal insulation performance,and a 5-mm-thick aerogel can generate a temperature gradient of over 30℃ at 82℃.This study provides a feasible design approach for creating lightweight,efficient,and multifunctional MXene-based MA materials.

天麻素抗偏头痛作用机制的网络药理学与分子对接研究

目的为天麻素在临床用于抗偏头痛提供理论依据。方法通过SwissTargetPrediction数据库获取天麻素的作用靶点,GeneCards数据库获取偏头痛的相关靶点,R 3.6.2软件获取天麻素抗偏头痛的靶点,将靶点输入String数据库构建蛋白互作网络,运用R 3.6.2软件对天麻素抗偏头痛靶点进行GO生物过程富集分析和KEGG通路富集分析,经Cytoscape 3.9.1软件构建靶点-通路网络。在AutoDock_vina 1.1.2分子模拟软件中进行分子对接,验证天麻素与关键靶点的结合力。结果获取天麻素抗偏头痛的靶点50个。GO生物过程富集分析显示,富集P值较显著的生物过程为内肽酶活性、碳酸盐脱水酶活性、水裂解酶活性等。KEGG通路富集分析显示,富集P值较显著的信号通路为氮代谢(hsa00910)、脂质与动脉粥样硬化(hsa05417)等,其富集的靶点为碳酸酐酶(CA)、基质金属蛋白酶(MMP)、半胱氨酸天门冬氨酸特异性蛋白酶(CASP)等。分子对接结果显示,天麻素与CA1,CA9,MMP-9,CASP1靶点的对接结合能绝对值均高于7.5 kcal/mol。结论天麻素通过多靶点、多途径影响CA,MMP,CASP等靶点基因的表达而起到抗偏头痛的作用。

K^(+)诱导豆腐柴果胶凝胶化

豆腐柴中果胶含量丰富,提高果胶的凝胶强度具有重要的应用前景。利用K^(+)诱导豆腐柴果胶(AOP)凝胶化,通过动态流变测试、硬度测试、保水性测试、X射线衍射测试、微观结构观察和傅里叶红外光谱对其凝胶强度进行分析。结果表明,K^(+)浓度对AOP凝胶的形成具有显著影响,K^(+)浓度在0.6 mol/L时,AOP凝胶效果最佳,当K^(+)浓度从0.6 mol/L进一步增加到0.7 mol/L,AOP凝胶特性减弱。凝胶力分析表明,K^(+)诱导AOP凝胶的机制主要是由静电屏蔽和氢键引起,当加入一定量的K^(+)时,K^(+)会与果胶链上游离的羧基结合,产生静电屏蔽效应,从而降低了AOP分子内部和分子间的静电斥力,降低了AOP的膨胀程度,使果胶分子相互靠近;同时,AOP分子内和分子间的氢键将通过果胶链上的羟基和未解离的羧基形成,从而导致果胶分子间的结合和凝胶的形成。研究结果为一价阳离子诱导果胶凝胶化的机理研究提供了参考。

Built‑In Electric Field‑Driven Ultrahigh‑Rate K‑Ion Storage via Heterostructure Engineering of Dual Tellurides Integrated with Ti_(3)C_(2)T_(x)MXene

Exploiting high-rate anode materials with fast K+diffusion is intriguing for the development of advanced potassium-ion batteries(KIBs)but remains unrealized.Here,heterostructure engineering is proposed to construct the dual transition metal tellurides(CoTe_(2)/ZnTe),which are anchored onto two-dimensional(2D)Ti_(3)C_(2)T_(x)MXene nanosheets.Various theoretical modeling and experimental findings reveal that heterostructure engineering can regulate the electronic structures of CoTe_(2)/ZnTe interfaces,improving K+diffusion and adsorption.In addition,the different work functions between CoTe_(2)/ZnTe induce a robust built-in electric field at the CoTe_(2)/ZnTe interface,providing a strong driving force to facilitate charge transport.Moreover,the conductive and elastic Ti_(3)C_(2)T_(x)can effectively promote electrode conductivity and alleviate the volume change of CoTe_(2)/ZnTe heterostructures upon cycling.Owing to these merits,the resulting CoTe_(2)/ZnTe/Ti_(3)C_(2)T_(x)(CZT)exhibit excellent rate capability(137.0 mAh g^(-1)at 10 A g^(-1))and cycling stability(175.3 mAh g^(-1)after 4000 cycles at 3.0 A g^(-1),with a high capacity retention of 89.4%).More impressively,the CZT-based full cells demonstrate high energy density(220.2 Wh kg^(-1))and power density(837.2 W kg^(-1)).This work provides a general and effective strategy by integrating heterostructure engineering and 2D material nanocompositing for designing advanced high-rate anode materials for next-generation KIBs.

论农田生态种养工程

农田生态种养工程是以农田为平台,农作物与水产、家禽进行立体生产的工程.阐述了农田生态工程的框架与内涵,分析了农田生态种养工程的背景与机遇、功能与优势,介绍了农田生态种养工程的类型、形成与发展,对农田生态种养工程的理论进行分析,提出了生态工程建设的方法与技术、农艺与条件,总结了农田生态种养持续发展的难点并提出了相应的对策.

增密减氮对双季稻光合特性及水分利用率的影响

以陆两优996(早稻)和丰源优299(晚稻)为供试材料,在“早蓄晚灌”节水条件下,设置常规施氮处理(CK)、不施氮处理(N_(0))和3个增密减氮处理(IR_(1)、IR_(2)、IR_(3)),早稻的IR_(1)、IR_(2)、IR_(3)的施氮量分别为103.2、86.4、69.6 kg/hm^(2),栽植密度分别3.2×10^(5)、3.6×10^(5)、4.0×10^(5)株/hm^(2);晚稻的IR_(1)、IR_(2)、IR_(3)的施氮量分别为129、108、87 kg/hm^(2),栽植密度分别为2.8×10^(5)、3.2×10^(5)、3.6×10^(5)株/hm^(2),探索增密减氮对双季稻光合特性、水分利用效率的影响。结果表明:在早、晚稻的孕穗期、齐穗期,IR_(3)处理的叶绿素相对含量(SPAD)均高于其他处理;分蘖期的净光合速率(Pn)大于乳熟期的,孕穗、乳熟期IR_(3)的Pn明显高于其他处理;早稻分蘖、孕穗、齐穗期以及晚稻孕穗、齐穗期的SPAD值均与产量呈显著正相关;早、晚稻孕穗期的气孔导度(Gs)、胞间CO_(2)浓度(Ci)与产量呈显著正相关性;分蘖期的蒸腾速率(Tr)与产量呈显著负相关。与常规施肥和种植密度处理相比,增密减氮IR_(3)处理既能提高SPAD值和Pn,又可显著提高水分利用效率。

不同抗寒剂浸种与叶面喷施对早稻秧苗素质及产量的影响

以中早39为试验材料,采用大田小区试验,研究5种抗寒剂(脱落酸、碧护、复硝酚钠、烯效唑、多效唑)浸种与叶面喷施对早稻秧苗素质及产量的影响。结果表明:相比对照(清水浸种),脱落酸浸种与叶面喷施、多效唑浸种与叶面喷施、烯效唑浸种与叶面喷施、碧护浸种、复硝酚钠叶面喷施处理的苗高、叶鞘长分别降低了7.05%~23.94%、1.92%~32.48%,绿叶数、总根数、白根数分别增加了1.02%~56.35%、4.59%~18.77%、12.41%~43.65%;脱落酸浸种、烯效唑叶面喷施处理提高了水稻的实粒数与千粒质量;脱落酸叶面喷施、碧护叶面喷施处理增加了有效穗数与千粒质量;各处理的产量较对照的差异均不显著,其中以脱落酸浸种处理的产量最高,较对照的提高27.88%;烯效唑浸种处理的次之;脱落酸叶面喷施处理、碧护浸种与叶面喷施处理的产量较对照的提高了4.82%~11.11%,可在保障水稻丰产中应用。

不同水稻品种甲烷排放与土壤酶的关系

为明确不同水稻品种甲烷(CH4)排放差异形成与根际土壤过氧化氢酶、脲酶活性的关系,选取早稻晚稻各3个品种为大田供试材料,采用密闭静态暗箱法收集CH4气体,监测早稻晚稻不同品种CH4排放动态,以及不同品种在主要生育时期根际土壤的过氧化氢酶、脲酶活性,并对不同水稻品种CH4排放与两种酶活性进行了线性回归分析。结果表明:双季稻品种CH4排放差异显著,晚稻CH4累积排放量明显高于早稻,早稻品种中CH4累积排放量以湘早籼24号最高,株两优819最低,相差31.78%;晚稻以湘晚籼17号最高,Y两优1号最低,相差17.31%。双季稻品种在不同生育期根际土壤的过氧化氢酶、脲酶活性存在差异,早稻过氧化氢酶活性在孕穗期最高,晚稻过氧化氢酶、双季稻脲酶活性均在分蘖期最高;双季稻田CH4排放与脲酶正相关,达到极显著水平(P<0.01),与过氧化氢酶正相关,达到显著水平(P<0.05)。综上,双季稻品种甲烷排放与水稻根际土壤过氧化氢酶、脲酶关系密切,降低水稻品种根际土壤的过氧化氢酶、脲酶活性有利于稻田CH4减排。

肌肉减少症对胃肠肿瘤患者术后早期康复的影响

目的研究肌肉减少症对胃肠恶性肿瘤患者手术后早期康复的影响。方法选取我院胃肠外科2016年7~12月收治的100例胃肠道恶性肿瘤患者,计算术前CT图片上L3横截面骨骼肌面积(腰大肌、腹直肌等)。以骨骼肌质量指数(L3骨骼肌面积与身高比值)作为肌肉减少症诊断标准将患者分为两组,比较两组患者的术后并发症、住院时间等预后指标。结果 100例患者中存在肌肉减少症的患者有63例(63.0%),无肌肉减少症患者37例(37.0%)。两组患者术后并发症、总住院时间、术后住院时间差异有统计学意义(P<0.05)。结论肌肉减少症在胃肠道恶性肿瘤患者中发生率较高,术前合并肌肉减少症患者术后并发症发生率更高。术前是否存在肌肉减少症,可作为胃肠肿瘤患者术后早期康复指标。

腹腔镜与开放手术对结直肠癌患者远期预后的效果比较

目的比较腹腔镜手术与开放手术对结直肠癌患者术后长期生存质量及复发率的影响。方法回顾性纳入2016年1~11月在四川省人民医院行结直肠癌根治手术病例353例,根据手术方式不同分为腹腔镜手术组与开放手术两组,采用电话及门诊随访,比较两组患者术后生存质量、术后3年总生存率及无瘤生存率。结果两组患者在术后排尿、排便、肛周不适、自我生活质量评价、切口不适、非肿瘤性肠梗阻等指标比较,差异无统计学意义(P>0.05),术后3年累积总生存率、无瘤生存率比较差异也无统计学意义(P>0.05)。结论腹腔镜手术与开腹手术相比,结直肠癌患者远期生存质量及术后复发转移无明显差异,腹腔镜手术值得进一步推广。

氢气对实验性小鼠过敏性鼻炎减轻作用的研究

目的观察氢气能否减轻小鼠过敏性鼻炎。方法BALB/c雌鼠24只,随机分成正常组、模型组、氮氧组、氢氧组。除正常组外,其余三组小鼠,前14 d内,每2天一次,腹腔注射溶有50μg卵白蛋白(ovalbumin,OVA)+2 mg氢氧化铝[Al(OH)3]的生理盐水0.3 mL;第15~21天给予两鼻腔内滴10μL内含200μg OVA生理盐水进行过敏性鼻炎造模。在造模过程中,氮氧组小鼠每天给予吸入氮氧混合气体(66.7%N_(2)+33.3%O_(2))2 h;氢气组每天给予吸氢氧混合气体(66.7%H_(2)+33.3%O_(2))2 h。从第15~21天,观察各组小鼠鼻腔给药后10 min内搔鼻子及打喷嚏次数,于第21天统一处死各组小鼠,行鼻腔病理组织切片苏木素-伊红(HE)染色,进行鼻黏膜内嗜酸性粒细胞计数。结果造模后,模型组和氮氧组小鼠搔鼻子次数较正常组增多,差异有统计学意义(P<0.05),而氢氧组小鼠搔鼻子次数与正常组间差异无统计学意义。造模后,模型组小鼠打喷嚏次数和鼻腔黏膜嗜酸性粒细胞较正常组明显增多(P<0.05),而氢氧组小鼠打喷嚏次数和鼻腔黏膜嗜酸性粒细胞计数较模型组、氮氧组少,差异有统计学意义(P<0.05)。结论氢气对小鼠过敏性鼻炎有一定的减轻作用。

龙胆苦苷对大鼠腹膜纤维化的抑制作用及其机制研究

目的:观察龙胆苦苷对腹膜透析大鼠腹膜纤维化组织氧化应激反应和转化生长因子β(TGF-β)/Smads信号通路的影响,探讨龙胆苦苷防治腹膜纤维化的作用机制。方法:通过4.25%高糖腹膜透析液(100 mL/kg;每天1次)联合脂多糖(0.6 mg/kg;第1、3、5、7天注射)构建大鼠腹膜纤维化模型。将30只雄性SD大鼠随机分为5组:生理盐水组、模型组及低、中、高剂量(30、60和120 mg/kg)龙胆苦苷组,每组6只。透析28 d后行1 h腹膜功能试验:测定超滤量、初始腹透液与透出液葡萄糖比值、透析液与血浆尿素氮比值及葡萄糖转运量。取大鼠壁层腹膜进行腹膜病理形态学观察,计算腹膜厚度。取腹主动脉血检测血清丙二醛(MDA)、超氧化物歧化酶(SOD)和谷胱甘肽过氧化物酶(GSH-Px)水平。免疫组化检测各组大鼠腹膜组织中α-平滑肌肌动蛋白(α-SMA)、上皮钙黏素(E-cadherin)和I型胶原(COL I)的表达情况。Western blot检测各组大鼠腹膜组织中TGF-β1、Smad3和Smad7蛋白的表达。结果:透析28 d后,经腹腔注射4.25%高糖腹膜透析液及脂多糖建立的腹膜纤维化大鼠模型腹膜功能显著降低(P<0.05),腹膜厚度显著增加(P<0.01),并可见炎症细胞浸润、纤维细胞及血管增生明显增多;大鼠血清中MDA含量显著增多,SOD和GSH-Px活性显著降低(P<0.01);免疫组化显示,α-SMA和COL I蛋白表达显著增加,E-cad⁃herin蛋白表达显著降低(P<0.01);Western blot显示,TGF-β1和Smad3蛋白表达显著增加,Smad7蛋白表达显著降低(P<0.01)。龙胆苦苷干预能够显著降低氧化应激水平,抑制TGF-β1和Smad3蛋白的表达,提高Smad7蛋白表达水平,且呈剂量依赖性(P<0.05)。结论:龙胆苦苷可减轻高糖腹透液联合脂多糖诱导的腹膜纤维化模型大鼠的腹膜纤维化病变程度,其机制与抑制氧化应激反应及腹膜间皮-间充质转化进程有关。

Aggregate stability and associated C and N in a silty loam soil as affected by organic material inputs

To make recycling utilization of organic materials produced in various agricultural systems, five kinds of organic materials were applied in a field test, including crop straw （CS）, biogas residue （BR）, mushroom residue （MR）, wine residue （WR）, pig manure （PM）, with a mineral fertilizer （CF） and a no-fertilizer （CK） treatment as a control. Our objectives were： i） to quantify the effects of organic materials on soil C and N accumulation; ii） to evaluate the effects of organic materials on soil aggregate stability, along with the total organic carbon （TOC）, and N in different aggregate fractions; and iii） to assess the relationships among the organic material components, soil C and N, and C, N in aggregate fractions. The trial was conducted in Wuqiao County, Hebei Province, China. The organic materials were incorporated at an equal rate of C, and combined with a mineral fertilizer in amounts of 150 kg N ha^-1, 26 kg P ha^-1 and 124 kg K ha-1 respectively during each crop season of a wheat-maize rotation system. The inputted C quantity of each organic material treatment was equivalent to the total amount of C contained in the crop straw harvested in CS treatement in the previous season. TOC, N, water-stable aggregates, and aggregate-associated TOC and N were investigated. The results showed that organic material incorporation increased soil aggregation and stabilization. On average, the soil macroaggregate proportion increased by 14%, the microaggregate proportion increased by 3%, and mean-weight diameter （MWD） increased by 20%. TOC content followed the order of PM〉WR〉MR〉BR〉CS〉CK〉CF; N content followed the order WR〉PM〉MR〉BR〉CS〉CF〉CK. No significant correlation was found between TOC, N, and the quality of organic material. Soil silt and clay particles contained the largest part of TOC, whereas the small macroaggregate fraction was the most sensitive to organic materials. Our results indicate that PM and WR exerted better effects on soil C and N accumulation, followed by MR and BR, suggesting that organic materials from ex situ farmland could promote soil quality more as compared to straw returned in situ.

Laparoscopic repair via the transabdominal preperitoneal procedure for bilateral lumbar hernia: Three cases report and review of literature

A lumbar hernia is a rare entity, and a bilateral lumbar hernia is much rarer. From May 2015 to October 2017, we treated only three patients with bilateral lumbar hernias. One patient came to the hospital presenting with right-sided abdominal pain, and the other two patients presented with bilateral lumbar masses. The previous bilateral lumbar hernia reported in the literature was repaired by open surgery. The laparoscopic approach via the transabdominal preperitoneal(TAPP) procedure with the self-gripping Parietex ProG rip? mesh was performed at our center. The laparoscopic repair was conducted by a skilled hernia surgeon, and was successfully performed in the three patients. The patients resumed a semiliquid diet and had no activity restriction after six hours following the operation. No antibiotics were used after the surgery. The operative times of the three patients were 120 min, 85 min, and 130 min. The blood loss volumes of the three patients were 20 mL, 5 mL, and 5 mL. The visual analogue scale pain scores of the three patients were 1, 2, and 2 on postoperative day 1, and were 1, 2, and 1 on postoperative day 3. No perioperative complications, such as bulge, wound infection and hematoma, occurred after the surgery. All of the patients were discharged on the third day after the operation. There was no chronic pain and no hernia recurrence during the follow-up. This study showed that the laparoscopic TAPP approach with the self-gripping mesh is safe and feasible, and can be considered an alternative method for the treatment of bilateral lumbar hernias.