Effect of Combined Microwave-Ultrasonic Pretreatment on Anaerobic Biodegradability of Primary, Excess Activated and Mixed Sludge

This work deals with the effect of combined microwave-ultrasonic pretreatment on the anaerobic biodegradability of primary, excess activated and mixed sludge. The characteristics, biodegradability and anaerobic digester performance for untreated primary, excess activated and mixed sludge were compared to combined microwave-ultrasonic pretreated primary, excess activated and mixed sludge. All sludge samples were subjected to Microwave treatment at 2450 MHz, 800 W and 3 min followed by ultrasonic treatment at a density of 0.4 W/mL, amplitude of 90%, Intensity of 150 W, pulse of 55/5 for 6min. Methane production in pretreated primary sludge was significantly greater (11.9 ml/g TCOD) than the methane yield of the untreated primary sludge (7.9 ml/g TCOD). Cumulative methane production of pretreated Excess Activated Sludge (EAS) was higher (66.5 ml/g TCOD) than the methane yield from pretreated mixed sludge (44.1 ml/g TCOD). Furthermore, digested EAS showed significantly higher dewaterability (201 s) than digested primary sludge (305 s) or mixed sludge (522 s). The average Methane: Carbondioxide ratio from EAS (1.85) was higher than that for mixed untreated sludge (1.24). VS reduction was also higher for EAS than the other two sludge types. However, pretreatment of EAS resulted in significant reduction in dewaterability due to higher percentage of fine floc particles in the pretreated EAS.

Nano-SiC_P particles distribution and mechanical properties of Al-matrix composites prepared by stir casting and ultrasonic treatment

Nano-ceramic particles are generally difficult to add into molten metal because of poor wettability. Nano-SiC_Particles reinforced A356 aluminum alloy composites were prepared by a new complex process, i.e., a molten-metal process combined with high energy ball milling and ultrasonic vibration methods. The nano particles were β-SiC_P with an average diameter of 40 nm, and pre-oxidized at about 850 °C to form an oxide layer with a thickness of approximately 3 nm. The mm-sized composite granules containing nano-SiC_P were fi rstly produced by milling the mixture of oxidized nano-SiC_P and pure Al powders, and then were remelted in the matrix-metal melt with mechanical stirring and treated by ultrasonic vibration to prepare the composite. SEM analysis results show that the nano-SiC_P articles are distributed uniformly in the matrix and no serious agglomeration is observed. The tensile strength and elongation of the composite with 2 wt.% nano-SiC_P in as-cast state are 226 MPa and 5.5%, improved by 20% and 44%, respectively, compared with the A356 alloy.

Study on structural characteristics and adsorption performance of ultrasonic treated Mn-containing sulfur transfer agent

To prepare manganese-containing spinel sulfur transfer agent with acid peptization, ultrasonic wave is used for the first time to modify the structure of sulfur transfer agent in this work. Mini fixed bed reactor was used to investigate the effect of ultrasonic power, time and temperature on the structure and oxidation adsorption performance of sulfur transfer agent and the adsorption kinetics and mechanism of SO2 were analyzed. SEM, TEM, XRD and N2 adsorption-desorption techniques were employed to characterize and analyse the function of sulfur transfer agent. The results indicated that manganese-containing spinel is a kind of promising sulfur transfer agent and exhibits higher sulfur capacity and desulfurization degree under the selected conditions of the ultrasonic wave power of 60%, and with the treatment period for 3 h at a temperature of 60 ℃.

新拌混凝土均匀度的超声检测

混凝土均匀度检测是混凝土施工质量控制中的关键技术之一。基于超声技术开展了不同搅拌时间下的新拌混凝土均匀度检测试验,得出不同点位的混凝土密度,从而计算出不同搅拌时间下混凝土的均匀度指数。试验结果表明,新拌混凝土使用单卧轴搅拌机的合理搅拌时间为100~150 s,通过分析3种拟合函数的回归曲线与实测关系曲线的符合程度,确定了符合程度较高的专用均匀度检测曲线拟合函数。由此可见,超声技术可有效检测混凝土的均匀度,在一定程度上可指导新拌混凝土的现场施工。

超声混粉电火花加工热力学仿真及表面形貌研究

为了研究超声振动和混粉对电火花加工的影响,基于传热理论,结合超声和混粉特性建立了超声混粉电火花传热模型。基于建立的传热模型对超声混粉电火花加工去除材料过程进行瞬态热力学仿真,并通过实验验证了仿真结果的准确性。通过仿真和实验分析了普通电火花、超声电火花、混粉电火花和超声混粉电火花四种加工方式,结果表明超声混粉电火花加工效率比普通电火花加工效率提高了23%。加入混粉和施加超声可以减少加工表面积碳,提高表面质量;可以使放电凹坑变得更加规则,使表面粗糙度降低。混粉电火花加工相对于普通电火花加工其表面粗糙度平均降低了8.9%,超声混粉电火花表面粗糙度相对于普通电火花平均降低了4.3%。

近表面疲劳裂纹的水浸式非共线横波混频检测方法研究

针对近表面疲劳裂纹检测问题,开展了水浸式非共线横波混频检测方法研究。在材料非线性、水/试件界面和疲劳裂纹不同非线性源情况下,分析相互作用角和频率比对混频非线性效应的影响规律。在此基础上,对有无近表面疲劳裂纹试件沿着深度方向进行扫查检测。结果表明,在不同非线性源情况下,混频特征图具有显著差异,根据混频特征图中和频纵波峰值及其对应相互作用角可对试件近表面疲劳裂纹进行检测;水/试件界面对近表面疲劳裂纹非共线横波混频检测具有一定影响,去参考检测方法可显著降低水/试件界面的影响,实现对近表面疲劳裂纹的有效检测。

功率超声作用下钢包内流场特性的模拟

以120 t钢包为研究对象,对功率超声作用下钢包内的流场进行数值模拟,研究了功率超声对流场特性的影响结果表明:功率超声能够显著增加钢包内钢液的速度,作用范围主要集中于探头周围区域与传统吹氩搅拌相比,功率超声作用可大幅度缩短均混时间同时,在功率超声一个周期τ(417×10^(-5) s)的不同阶段,功率超声强度和钢液流速均呈现周期性变化,τ阶段作用范围最大当超声波的功率为800 W时,平均速度与峰值速度最大值分别为249×10^(-5 )m/s和240×10^(-3) m/s,显著作用区域为钢液总体积的1/10,均混时间由底吹氩200 L/min流量条件(标准态)下的108 s降低至65 s当功率为800~2000 W时,超声波对流场的影响主要体现在流速及均混时间方面,随着超声波功率的增加,流场流速增加,均混时间缩短2000 W功率条件下的平均速度与峰值速度分别为277×10^(-5) m/s和160×10^(-3) m/s,均混时间为32 s。

穴位揿针联合超声引导下的低浓度罗哌卡因阴部神经阻滞用于混合痔切除术后镇痛的临床研究

目的探析混合痔切除术患者采用穴位揿针联合超声引导下的低浓度罗哌卡因阴部神经阻滞对术后镇痛效果的影响。方法选取2023年1月至10月九江市中医医院肛肠科收治的混合痔手术治疗的60例患者作为研究对象,采用信封法将其分为观察组、对照组,每组各30例。对照组采用手术治疗和镇痛泵镇痛,观察组采取穴位揿针联合超声引导下的低浓度罗哌卡因阴部神经阻滞。比较两组疼痛评分、不良反应发生率、并发症发生率。结果观察组术后6、24、48、72 h以及术后7 d的疼痛评分均低于对照组,差异均有统计学意义(P<0.05),观察组不良反应总发生率、并发症总发生率低于对照组,差异有统计学意义(P<0.05)。结论在混合痔切除患者术后镇痛中采用穴位揿针联合超声引导下的低浓度罗哌卡因阴部神经阻滞,患者疼痛感明显减轻,有效防止患者不良反应和并发症发生,临床上可借鉴及推广。

用超声/电声谱监测锂电池正极浆料的合浆及包覆质量

在前期工作的基础上,利用超声/电声学方法对锂电池浆料合浆工艺的质量控制参数进行了探索,对不同来源和不同批次的N-甲基吡咯烷酮(NMP)体系磷酸铁锂电池(LFP)浆料进行了粒度、zeta电位及其微观电学参数的测定。结果显示,对于分散较好的合格样品,浆料的粒度、zeta电位、表面电荷密度可基本重现;而对于原料粒度检测不合格的样品,不仅浆料粒度分布呈现双峰,zeta电位有较大的波动,且表面电荷密度降低,批次间不稳定。研究表明,超声法直接测定锂电池合浆过程中的原浓浆料粒度直观有效,对于工艺质控非常重要;在合浆过程中,因导电添加剂团聚的存在,很难均匀包覆在LFP颗粒上。因此,zeta电位和双电层厚度可以成为导电剂是否分散和包覆均匀的关键质量控制参数。

高纯纳米氧化铁的制备

【目的】改进纳米氧化铁的制备工艺流程,制备高纯纳米氧化铁。【方法】首先,采用重结晶法去除硫酸亚铁中Ca^(2+)、 Mg^(2+)、 Mn^(2+)等杂质离子,采用氟化铵沉淀进一步去除硫酸亚铁中的Ca^(2+)、 Mg^(2+)杂质离子,然后使用过氧化氢氧化法、氨水沉淀法对硫酸亚铁进行沉淀制得羟基氧化铁,接着采用调浆法和超声法洗涤羟基氧化铁制得前驱体,最后焙烧前驱体制得高纯纳米氧化铁;使用仪器和设备分析高纯纳米氧化铁的颗粒形貌、粒径分布和杂质离子的质量浓度。【结果】改进后的制备高纯纳米氧化铁的工艺流程为:将温度为60℃时的饱和硫酸亚铁溶液进行降温,在温度至10℃时实现2次重结晶,将重结晶后的硫酸亚铁配置为pH为6的溶液;在水浴温度为30℃时,氟化铵过量系数设为5以使Ca^(2+)、 Mg^(2+)沉淀,制得纯净硫酸亚铁溶液;利用过氧化氢氧化、氨水沉淀硫酸亚铁溶液制得羟基氧化铁;重复利用调浆洗涤、超声洗涤羟基氧化铁去除铵根离子和硫酸根离子;将沉淀物在温度为600℃时焙烧1 h,制得高纯纳米氧化铁。【结论】由改进的制备方法制得的高纯纳米氧化铁球形颗粒形貌均匀,中位粒径为300 nm,高纯纳米氧化铁中α-Fe_(2)O_(3)的质量分数大于99.95%。

A METHOD OF PREPARING SPHERICAL NANO-CRYSTAL CELLULOSE WITH MIXED CRYSTALLINE FORMS OF CELLULOSE Ⅰ AND Ⅱ

A new kind of nano-crysta cellulose (NCC) prepared from natural cotton fiber has been obtained by the method ofacid hydrolysis. Compared to most other nanophase materials that derive from inorganic materials, our products are preparedfrom natural cotton fibers. The products are of spherical shape with mixed crystal forms of cellulose I and II. The preparationconditions determine the properties of the products. Prior treatment is a critical procedure. The properties of the products arealso strongly affected by such conditions as the kinds of acids used, the ratio of the acid mixture, the acid concentration, theultrasonic agitation time and hydrolysis temperature. The number average molecular weight of NCC is determined by gelpermeation chromatography (GPC). The particle size and shape were determined by transmission electron microscopy(TEM). X-ray diffraction was used to detect the crystallinity and average crystallite size of the panicle.

Simulation of ultrasonic attenuation in theelastic mixing particle system

For the study of predicting ultrasonic attenuation of elastic, spherical mixing par- ticles in the liquid-solid two-phase system, the Monte Carlo method （MCM） is introduced, serving as a probability and statistics technique to evaluate the inside ultrasonic events during the ultrasound propagation. On the basis of ultrasonic scattering and aborption, the continuous ultrasonic waves are represented as discrete and independent phonons. By recording the scat- tering events, tracing the trajectory of a moving phonon and calculating the number of phonons that finally reach the receiving transducer, the ultrasonic attenuation coefficient is obtained to be a frequence-dependent spectrum. Numerical investigations have been carried out to predict and compare the ultrasonic attenuation for a solid-liquid two-phase system with a single type particle. After verifing its feasibility, such a method is then appalied into mixing particle sys- tern, where the mixing iron particles and glass beads with various ratios are set as examples for the purpose of predicting ultrasonic attenuation for the monodisperse and polydisperse mixing particle systems. The results of MCM, the ECAH model, the Lloyd ~z Berry （LB） model and the Waterman model match well when the particle volume concentration is lower than 10%, corresponding to iron particles and glass beads respectively. In the case of two-phase system with mixing particles, it is shown that as the particle volume concentration increases to 10%, the variation of the ultrasonic attenuation coefficient with mixing ratio yields a nonlinear tendency. The physical properties of particles can also influence ultrasonic attenuation significantly.

依托学习通教学平台的混合式教学在超声诊断学中的应用实践

目的探讨依托学习通教学平台的混合式教学在超声诊断学中的应用效果。方法选择2020年9月—2022年1月南昌大学第一临床医学院医学影像专业本科学生97名为研究对象,2017级50名学生为研究组,2016级47名学生为对照组。研究组采用学习通教学平台进行线上线下混合式教学,对照组采用传统线下课堂教学方法。课程结束后,比较两组考试成绩和教学效果。结果研究组学生的期中考试成绩、期末考试成绩和总成绩均高于对照组,差异有统计学意义(P<0.05),研究组学习效果、学习兴趣、提升理论知识能力、提升实践能力、授课方式满意度及课程总体满意度评分高于对照组,差异有统计学意义(P<0.001)。结论本研究表明混合式教学能够满足学生个性化学习需求,提高学习兴趣和学习效率,提升教学效果。

基于共线超声混频技术的机械结构缺陷评估

为了更高效检测出机械结构出现的裂纹,提出共线超声混频检测技术。首先,基于非线性超声理论,由差频非线性系数与和频非线性系数得到计算非线性超声混频非线性系数的方法。然后对5种不同深度疲劳裂纹的铝合金试件用超声系统RAM-5000SINAP进行检测,并绘制相应频谱图,得出在一定裂纹深度内,裂纹深度与差频非线性系数、和频非线性系数呈正相关的结论。通过对两组实验数据进行拟合曲线分析,建立对应的裂纹深度预测模型。结合混频非线性系数的特征,得到根据其预测裂纹深度的模型,将3种预测模型的平均误差进行比对,结果表明混频非线性系数预测模型预测结果更佳。研究工作对微裂纹的共线超声混频检测及裂纹深度预测进行了有益探索。

疲劳裂纹水浸式非线性超声混频检测方法研究

对钢材试件疲劳裂纹开展水浸式非共线横波混频检测方法研究。利用搭建的水浸式非共线横波混频检测系统和极性反转信号处理方法,进行疲劳裂纹水浸式非共线横波混频检测试验,研究两列非共线横波相互作用角和频率比对混频效应的影响,在此基础上,开展疲劳裂纹二维自动化扫查检测研究。试验结果表明:极性反转法可有效提取检测信号中的混频效应;疲劳裂纹非共线横波混频检测的最佳相互作用角和频率比与经典非线性超声混频理论的谐振条件发生偏移;非共线横波混频二维扫查方法可对试件中疲劳裂纹进行定位和定量检测。研究工作为非共线超声混频检测方法的工程化应用作出了有益探索。

超声Lamb波混频激励效率与模式选择

研究了超声Lamb波混频的激励效率与模式选择。在非零能量流和相匹配条件的基础上,结合Lamb波在结构中的状态分布,提出了以激励效率参量作为超声Lamb波混频模式选择的依据。根据混频条件筛选混频模式对,计算相应的激励效率参量,并通过超声Lamb波混频的仿真模拟与实验测量进行验证。通过对比仿真与实验中得到的非线性参量与激励效率参量的关系,证明了激励效率参量作为模式选择依据的有效性。研究表明,激励效率参量可以有效地表征超声Lamb波混频的激发效率,从而筛选非线性效应明显的模式对,更好地实现损伤的检测与表征。

基于线性Radon变换的超声混叠信号分离研究

在使用一发一收低频反射超声方法对大厚度介质进行测厚过程中,采集到的反射超声信号存在有效波和直达波混叠的现象,常规的一维超声信号处理方法难以对其进行有效处理。针对该类信号混叠问题,提出了基于线性Radon变换的自适应相减处理方法,从二维角度出发,根据在时空域中,直达干扰呈规律一致性,而有效底面回波呈推移差异性的特点,通过将信号阵列转换至线性Radon域的方法,对经过投影汇聚的信号数据进行自适应相减算法处理,实现对直达干扰波的有效压制及分离,从而提高低频超声回波数据的分辨率。通过仿真数据处理验证了该方法的有效性,相应厚度解算相对误差不超过0.7%。仿真和实验结果表明,提出的方法能够很好地解决大厚度介质测厚情境中混叠超声信号的分离问题。

超声对受限撞击流微观混合性能的强化

为了进一步提高受限撞击流反应器内纳米颗粒结晶性能,在反应器中引入超声场来强化反应器内入射流撞击区域上方“三角区域”流动与微观混合过程。采用Villermaux-Dushman平行竞争反应体系对超声强化的受限撞击流反应器内微观混合过程进行实验研究,使用离集指数、微观混合时间以及达姆科勒数对反应器内微观混合性能进行表征。结果表明:低频超声场通过诱导超声空化效应能有效地强化撞击流反应器内微观混合过程,低雷诺数时效果更为明显。与未施加超声相比,在超声作用下离集指数减小10.9%~23.5%,微观混合时间从0.00016~0.00043 s缩短至0.00014~0.00033 s。研究发现该反应器在所有工况下达姆科勒数均小于1,表明该化学反应由微观混合过程主导。

苯扎氯铵超声透入在混合痔术后水肿中的作用

目的探讨苯扎氯铵超声透入在混合痔术后水肿患者中的作用。方法选取2020年10月至2022年2月浙江大学医学院附属第二医院临平院区收治的96例混合痔术后水肿患者为研究对象,根据随机数字表法将其分为对照组和观察组,每组各48例。对照组患者采用温水坐浴,观察组患者采用苯扎氯铵超声透入治疗;比较两组患者术后第1、3、7、14天创面数字疼痛评分法(numerical rating scale,NRS)评分、水肿评分及临床疗效和不良反应。结果两组患者的术后NRS评分均随时间延长逐渐降低(P<0.05);术后第3、7、14天,观察组患者的NRS评分均显著低于对照组(P<0.05)。观察组患者的术后水肿评分随时间延长逐渐降低(P<0.05),对照组患者的水肿评分随时间延长先升高后降低(P<0.05);术后第3、7、14天,观察组患者的水肿评分均显著低于对照组(P<0.05)。观察组患者的总有效率显著高于对照组(93.75%vs.79.17%,P<0.05);两组患者的不良反应发生率比较差异无统计学意义(χ^(2)=0.261,P=0.610)。结论苯扎氯铵超声透入法能显著减轻混合痔术后患者的水肿、疼痛情况,疗效显著,且安全性良好。

TiN陶瓷超声振动辅助混粉电火花加工实验平台设计

氮化钛陶瓷材料广泛应用于航空航天行业。由于传统机械加工氮化钛存在刀具损耗现象、常规电火花加工陶瓷材料的效率低,提出了超声振动辅助混粉电火花加工氮化钛的方法,并搭建实验平台验证其可行性。首先,利用ABAQUS有限元分析软件对超声振动系统进行模态分析,并利用振幅测量仪和阻抗分析仪对超声主轴进行性能测试;接着,利用Fluent流仿真软件对混粉颗粒循环系统进行油箱流场仿真分析;最后,分别采用超声振动辅助混粉电火花加工、普通电火花加工、超声振动辅助电火花加工及混粉电火花加工四种方式加工盲孔并进行对比试验。结果表明:超声振动辅助混粉电火花加工氧化钛的表面粗糙度最低、材料去除率最高、加工表面质量得到改善。