Corrigendum to “The transition from conservative to dissipative flows in class-B laser model with fold-Hopf bifurcation andcoexisting attractors”

Recently, we received a letter from Prof. G. L. Oppo, which indicated that he had doubts about the transformation of the system in the article Chin. Phys. B 31 060503 (2022) and gave other considerations. After inspection, we found that there was a clerical error in the article. Based on this, we have made corrections and supplements to the original article.

Wave Slamming on An OWSC Wave Energy Converter in Coupled Wave-Current Conditions with Variable-Depth Seabed

Coastal wave energy resources have enormous exploitation potential due to shorter weather window,closer installation distance and lower maintenance cost.However,impact loads generated by depth variation from offshore to nearshore and wave-current interaction,may lead to a catastrophic damage or complete destruction to wave energy converters(WECs).This objective of this paper is to investigate slamming response of a coastal oscillating wave surge converter(OWSC)entering or leaving water freely.Based on fully nonlinear potential flow theory,a time-domain wave-current-structure interaction model combined with higher-order boundary element method(HOBEM),is developed to analyze the coupled hydrodynamic problem.The variable-depth seabed is considered in the model to illustrate the shallow water effect on impact loads and free surface profiles in coastal zone.A domain decomposition approach is utilized to simulate the overlapping phenomenon generated by a jet falling into water under gravity effect.Through a series of Lagrangian interpolation methods,the meshes on boundaries are rearranged to avoid the mismatch between element size on free surface and body surface.The present model is validated against the existing experimental and numerical results.Simulations are also provided for the effects of wave-current interaction and uneven local seabed on the slamming responses.It is found that the length of the splash jet increases for a following current and decreases for an opposing current,and that the slamming response of the OWSC device is sensitive to the geometric features of the uneven seabed.

The transition from conservative to dissipative flows in class-B laser model with fold-Hopf bifurcation and coexisting attractors

Dynamical behaviors of a class-B laser system with dissipative strength are analyzed for a model in which the polarization is adiabatically eliminated. The results show that the injected signal has an important effect on the dynamical behaviors of the system. When the injected signal is zero, the dissipative term of the class-B laser system is balanced with external interference, and the quasi-periodic flows with conservative phase volume appear. And when the injected signal is not zero, the stable state in the system is broken, and the attractors(period, quasi-period, and chaos) with contractive phase volume are generated. The numerical simulation finds that the system has not only one attractor, but also coexisting phenomena(period and period, period and quasi-period) in special cases. When the injected signal passes the critical value,the class-B laser system has a fold-Hopf bifurcation and exists torus “blow-up” phenomenon, which will be proved by theoretical analysis and numerical simulation.

Interaction of Streamwise and Wall-Normal Velocities in Combined Wave-Current Motion

The aim of this paper is to present an analytical expression for the streamwise velocity distribution in a non-uniform flow in the presence of waves; the correlation between the horizontal and vertical velocity components has been compreheusively examined. Different from previous researches which attributed the deviation of velocity from the classical log-law to the wave Reynolds stress, i.e. - ρ uv^- only, this study demonstrates that the momentum flux caused by mean velocities, i.e., u^- and v^-, is also responsible for the velocity deviation, and it is found that the streamwise velocity for a flow in the presence of non-zero wall-normal velocity does not follow the classical log-law, but the modified log-law proposed in this study based on simplified mixing-length theorem. The validity of the modified log-law has been verified by use of available experimental data from published sources for combined wave-current flows, and good agreement between the predicted and observed velocity profiles has been achieved.

注多元热流体环境下流速对N80钢腐蚀行为的影响研究

目的研究不同流速条件下N80钢在注多元热流体环境中的腐蚀特征,探究流速变化对N80钢腐蚀行为的影响规律及机理。方法利用自制高温高压多相流冲刷腐蚀环路装置模拟不同流速(0、0.5、1.0、2.0m/s)的注多元热流体环境,采用失重法计算不同流速下N80钢的平均腐蚀速率,并同时进行原位电化学测试。采用扫描电子显微镜(SEM)和X射线衍射仪(XRD)对不同流速条件下N80钢腐蚀后的腐蚀产物物相组成和表面微观形貌进行分析。结果N80钢在注多元热流体环境中的平均腐蚀速率随着流速增加而增大。流速增加影响O_(2)的扩散传质过程、近表面离子分布和壁面剪切力的大小,使腐蚀产物膜特征发生变化。0m/s时,腐蚀产物主要由FeCO_(3)和少量Fe_(2)O_(3)组成,为单层膜结构,腐蚀形态为均匀腐蚀。0.5~2.0m/s范围内,腐蚀产物种类增加,主要由FeCO_(3)、Fe_(2)O_(3)和少量FeO(OH)组成,呈双层膜结构,同时N80钢表面腐蚀产物膜出现鼓泡,且随流速增加鼓泡数量增加,去除腐蚀产物膜后发现鼓泡下方存在局部腐蚀。原位电化学测试结果表明:随着流速增加,塔菲尔极化曲线的阳极斜率增大,阴极斜率减小。电化学阻抗谱测试结果表明,N80钢表面外层腐蚀产物膜电阻Rf1、电荷转移电阻Rct和扩散电阻W随流速增加而减小。结论流速增大加快了O_(2)的扩散传质过程,使得腐蚀电化学控制步骤由阴极氧扩散过程转变为阳极溶解过程,且试样表面保护性FeCO_(3)膜厚度减小,导致产物膜保护性降低。另外,Fe^(2+)更容易被氧化形成Fe^(3+),局部FeCO_(3)被氧化成为Fe_(2)O_(3),破坏了内层膜的完整性,导致局部腐蚀发生。

一种高效的OpenFlow流表拆分压缩算法

在软件定义网络中,OpenFlow通过丰富的匹配字段提供了网络流的细粒度管理,同时也带来了流表规模庞大的问题,给OpenFlow交换机的TCAM存储资源提出了严峻的挑战.为此,本文基于匹配域间关系,提出一种高效的OpenFlow流表拆分压缩算法.该算法首先分析了流表匹配字段之间的共存和互斥关系,并据此将流表划分出多个规模较小的子流表,进而针对每个字段建立判定条件,对子流表做进一步压缩,以实现OpenFlow流表的高效存储.最后,借助实际网络流量样本,对本文所提算法的流表压缩性能进行了实验评估.实验结果表明:本文所提算法的流表压缩率明显高于现有压缩算法,可有效节省流表存储资源.

Shear Flow Dispersion Under Wave and Current

The longitudinal dispersion of solute in open channel flow with short period progressive waves is investigated. The waves induce second order drift velocity in the direction of propagation and enhance the mixing process in concurrent direction. The 1-D wave-period-averaged dispersion equation is derived and an expression for the wave-current induced longitudinal dispersion coefficient （WCLDC） is propased based on Fiscber＇ s expression （1979） for dispersion in unidirectional flow. The result shows that the effect of waves on dispersion is mainly due to the cross-sectional variation of the drift velocity. Furthermore, to obtain a more practical expression of the WCLDC, the longitudinal dispersion coefficient due to Seo and Cheong （1998） is modified to incluee the effect of drift velocity. Laboratory experiments have been conducted to verify the propased expression. The experimental results, together with dimensional analysis, show that tbe wave effect can be reflected by the ratio between the wave amplitude and wave period. A comparative study between the cases with and without waves demonstrates that the magnitude of the longitudinal dispersion coefficient is increased nnder the presence of waves.

具有内部存储的非均匀流动反应器模型

主要研究了一类具有内部存储的非均匀流动反应器模型,首先给出了系统古典解的全局存在性。为了克服模型中比率项奇性带来的困难,借助一类非线性特征值问题建立了单种群模型关于扩散系数的阈值动力学。最后研究了系统的一致持续性,给出了系统共存解存在的充分条件。

层流紊流共存时径向滑动轴承热流体润滑性能分析

研究了无限宽动压径向滑动轴承油膜中层流、紊流2种流态共存和热效应对轴承特性的影响.在考虑油膜中同时存在层、紊流2种流态的条件下,对雷诺方程、能量方程和黏温方程联立求解,得到油膜压力分布、温度分布、黏度分布、承载力、摩擦力等特性参数,并将某工况下混合流态时油膜特性结果与单一层流流态时的结果进行比较.结果表明,在绝热条件下,与单一层流流态相比,混合流态下油膜承载力、摩擦力较大,温升较高,黏度变化较大;热效应使轴承承载力明显下降.

混合流态下阶梯轴承热流体润滑性能分析

研究阶梯轴承油膜中不同流态共存和热效应对轴承特性的共同影响。以具有深浅腔的高速阶梯轴承为研究对象,在考虑油膜中同时存在层、紊流2种流态的条件下,对雷诺方程、能量方程和黏温方程联立求解,得到油膜压力分布、温度分布和承载力等特性参数,并将某工况下混合流态时油膜特性结果与单一层流流态时的结果进行比较。结果表明,在等温或绝热条件下,与单一层流流态相比,混合流态下油膜承载力较大,温升较高,黏度变化较大;热效应使轴承承载力明显下降。

混合流态下高速动压滑动轴承热润滑性能

以有限宽高速动压径向滑动轴承为研究对象,基于层流和紊流流态下的雷诺方程、能量方程和温黏关系建立了混合流态时轴承静态特性分析模型;采用差分法求解控制方程组,分析某工况下滑动轴承油膜中雷诺数、压力、温度的二维分布以及承载力和摩擦力等特性参数的变化,并与单一流态下的特性结果进行对比。研究结果表明:不同偏心条件下油膜内流态分布明显不同,大偏心时流态变化复杂;按单一流态计算的静态特性和混合流态计算的结果相比偏差较大;高速轴承润滑性能分析时不能忽略流态的改变和热效应。

致洪暴雨过程中尺度涡旋的涡散作用及准平衡流诊断分析

利用较高分辨率的观测资料与模拟结果进行分析表明,影响2008年6月中旬广西致洪暴雨的主要中尺度天气系统是准静止的中尺度涡旋,它是中纬度天气尺度西风带波动与低纬度暖湿气流带在地形效应下相互作用的结果,其生成、发展和移动对此次致洪暴雨过程的降水强度和持续有重要作用,该中尺度涡旋具有强涡散共存、涡散度达同量级并伴随有较长生命史组织化深厚湿对流的特征。分析了由低空急流中大风速中心的非地转效应以及地形效应所产生的重力波与中尺度涡旋相互作用激发出大振幅组织化的β中尺度深厚湿对流,根据准平衡动力学的理论,准平衡流适用于描述这种同时包含辐散风和旋转风效应的中尺度运动。因此,本文引进基于准平衡流分析的PV-_ω方法,将其应用于反演诊断分析暴雨中具有涡散共存特征的长生命史的组织化深厚湿对流。结果表明,准平衡流能真实反映涡散共存的大振幅垂直运动特征,暴雨区的垂直环流中有50%—70%归于准平衡流。因此,准平衡流可以描述广西致洪暴雨过程中具有较长生命史组织化过程的深厚湿对流系统,准平衡流场具有涡散运动共存的特征。

CO_(2)/O_(2)环境下L320钢在不同流速下的腐蚀行为研究

为了确定L320钢在CO_(2)/O_(2)环境中不同流速下的腐蚀行为,通过多相流瞬态模拟仿真软件,模拟目标管道的流动状态,确定室内模拟试验的流速范围,选择L320钢进行CO_(2)/O_(2)共存体系下不同流速的高温高压动态反应釜试验,采用扫描电镜、X射线衍射仪对腐蚀产物进行微观形貌表征和成分分析。结果表明:温度和压力随着里程的增加呈现下降的趋势;管道气体流速和壁面剪切力随着里程的增加呈现逐渐上升的趋势。基于Pearson相关系数法,确定了流速是影响腐蚀速率的主控因素。随着流速的增加,L320在CO_(2)/O_(2)共存条件下的均匀腐蚀速率逐渐增大。CO_(2)/O_(2)共存体系的腐蚀产物为Fe 2 O_(3)、FeOOH、Fe(OH)3、Fe 3 O 4、FeCO_(3)等。研究结论可为不同流速下的L320钢在CO_(2)/O_(2)共存环境中的防护提供借鉴。

准平衡流在中尺度深厚湿对流系统中的诊断分析概述

从中尺度组织化深厚湿对流具有强烈的辐散风效应和强垂直运动的观测事实出发,评述了平衡流和非平衡流在对旋转风和辐散风的诊断分析中的作用和不足,介绍了准平衡流的原理、计算方法及其分别在台风暴雨和梅雨锋暴雨诊断研究中的应用。研究结果表明:准平衡流能真实反映涡散共存的大振幅垂直运动特征,暴雨区的垂直环流中有50%～70%归于准平衡流部分,准平衡流可以描述致洪暴雨过程中具有较长生命史组织化过程的深厚湿对流系统中垂直运动的主要部分,准平衡流场具有涡散运动共存的特征,准平衡流分析方法在中尺度深厚湿对流系统诊断研究中具有重要作用。

层流、紊流共存时雷利阶梯轴承静特性分析

以具有深浅腔的高速阶梯轴承为研究对象,在考虑油膜中同时存在层流、紊流两种流态以及轴承两端存在不同静压力的条件下,采用连续性方程推导了油膜深浅腔的压力分布,进而求出轴承上的压力分布、承载力和摩擦力等静态特性参数。研究结果表明,油腔最优结构参数随深腔紊流因子和轴承两端静压力的不同而变化。将特定条件下混合流态时油膜静态特性结果与单一层流流态时的结果进行了比较。

元胞自动机模型及其在城市道路交通流中的应用进展

元胞自动机方法和相关建模技术是描述、认识和模拟复杂系统行为的强有力方法。如今,已被广泛用于交通系统的研究。交通流理论研究的目标是建立能描述实际交通一般特性的交通流模型,寻找交通流的基本规律,以揭示交通拥堵产生的机理。为了模拟更为符合实际的交通状况,各种交通流模型被提出。本文介绍经典的元胞自动机交通流模型及其在城市交通流中最新应用进展。

“和生”:天道之自然,人文之夙愿——为祝贺钱耕森先生“和生学”的创立而作

钱耕森先生创立的"和生学"是对中国传统"和生"论哲学思想的继承和发展。史伯提出的"和实生物"揭示了为中国传统哲学所广泛认同的、天地万物生成发展的根本机制和原理:和生。以多样性的辩证统一、动态平衡和相反相成为基本要义的"和生"机制和原理,既是自然的本质和规律,其实现也是古往今来人类共同的追求。对《中庸》之"中和"、《老子》之"冲和"、《易传》之"太和"3个经典文本中传统"和生"论的诠释,或许可以有益于对钱先生"和生学"的理解。

高压含蜡油气集输管道蜡晶与水合物共存条件模拟分析

高压含蜡油气集输过程中,蜡晶和水合物等固相物可能同时出现并耦合堵塞管道,明确二者共存条件对集输安全运行至关重要。结合气固与液固相平衡最新理论,建立油气体系水合物生成与析蜡条件的预测模型,采用MATLAB编写相应的水合物生成条件预测PHFC与析蜡温度预测PWPT功能模块并验证模型的可靠性;以AGL油气集输海管为研究对象,计算并绘制水合物形成与蜡晶析出的温度-压力曲线,结合沿线温度与压力分布,由此直观地确定其固相生成条件。结果表明,功能模块PHFC与PWPT预测结果的相对误差分别为0.13%~1.55%与0.04%~1.14%;距AGL管线起点6.65 km的管段内无固相生成,但在距起点6.65 km和9.15 km处,先后开始出现蜡晶和水合物,在距起点9.15 km到终点的管段内有明显的水合物与蜡晶共存。高压油气集输管道理论上存在水合物与蜡共晶的安全隐患,应采取相应的防控措施,以保障其流动安全。本文研究理论及方法可供深水及陆地高压油气混输管道固相沉积风险识别与流动保障方案制定参考。

流动条件下20钢在H2S/CO2共存体系中的腐蚀行为及预测模型研究

目前H2S/CO2共存体系中的腐蚀速率预测模型均未考虑流动的影响。采用某含硫湿天然气管道20钢和模拟地层水,考察H2S分压、CO2分压、温度和流速对20钢的腐蚀影响,设计了三水平四因素的9组正交试验。结果表明:各因素对20钢的腐蚀均有不同程度的影响,其影响度排序为:H2S分压(极差0. 057)>温度(极差0.040)>流速(极差0.018)> CO2分压(极差0.011);随着温度的升高、流速的增大、CO2分压的增大、H2S分压的增大,腐蚀速率值均呈上升趋势。根据扫描电镜(SEM)、能谱分析(EDS)、X射线衍射仪(XRD)对腐蚀产物的表征结果,可知CO2/H2S分压比在33~300范围内,腐蚀产物主要由FeS和FeS1-x组成,试验反应由H2S主导控制,与影响度排序结果一致,腐蚀形态以均匀腐蚀为主,存在少量局部腐蚀坑。基于H2S/CO2共存体系下以H2S为主导的腐蚀预测模型,并考虑流速的影响,以6组腐蚀速率试验值,建立了流动条件下20钢在H2S/CO2共存体系中的腐蚀速率预测模型,试验值和拟合值吻合度高;剩余3组试验值进行验证,最大误差不超过4.40%。

A multi-directional controllable multi-scroll conservative chaos generator:Modelling,analysis,and FPGA implementation

Combing with the generalized Hamiltonian system theory,by introducing a special form of sinusoidal function,a class of n-dimensional(n=1,2,3)controllable multi-scroll conservative chaos with complicated dynamics is constructed.The dynamics characteristics including bifurcation behavior and coexistence of the system are analyzed in detail,the latter reveals abundant coexisting flows.Furthermore,the proposed system passes the NIST tests and has been implemented physically by FPGA.Compared to the multi-scroll dissipative chaos,the experimental portraits of the proposed system show better ergodicity,which have potential application value in secure communication and image encryption.