Spar基础浮式风机系泊系统全耦合分析

本文以OC3 Hywind Spar基础浮式风机为研究对象,采用先进的空气动力-水动力耦合时域分析方法,针对其在中国南海某海域风浪流共同作用下,系泊系统、浮式基础运动以及风机与塔桶载荷响应进行分析。对比了定常风与湍流风模型对浮式风机系泊系统、整体运动响应以及风机载荷的影响。计算结果表明：相比于湍流风,采用定常风进行浮式风机系泊系统分析将得到偏于危险的结果,同时浮式风机运动响应与风机载荷结果偏小。本文建议在系泊系统初始设计阶段采用定常风方法进行设计,在系泊分析阶段采用湍流风进行分析,以保证浮式风机长期服役安全。     

南海某FPSO STP单点系泊系统的再评估

本文针对一艘中国南海北部服役的STP(Submerged Turret Production)内转塔单点FPSO在极端环境条件下单点静密封失效问题进行了分析。STP浮筒静密封主要依靠浮筒上端液压大钳的预紧力、浮筒与舱壁的静摩擦力等来抵抗系泊系统的载荷,从而保证浮筒与船体舱壁的紧密贴合。本文进行了新旧百年一遇环境条件作用下系泊系统载荷评估分析,比较结果可以发现：在新的百年一遇条件作用下,单点系泊系统的最大系泊缆张力增加31%,相应地系泊系统作用在锚链盘的平面载荷增加33%,垂向载荷增加12%。进一步地进行了新环境条件下两百年一遇极端环境作用下的系泊系统响应分析,比较结果可以发现：两百年一遇环境条件作用下,平台平面位移、系泊缆最大张力以及系泊载荷均出现了不同程度的增加,此时系泊缆已不能满足系泊系统完整状态的安全系数要求。分析结果表明：该FPSO的STP静密封系统在新的环境条件下存在较大失效风险,有必要对液压锁紧装置进行优化和加强设计,浮筒与舱壁有必要重新进行结构强度评估。     

内支线集装箱船舶非标舷梯的研制及改造应用

内支线集装箱船舶,在靠泊码头时,通常采用跳板或竹梯上下船的方式,虽然提高了船舶装载率,初投资较少,但对船员上下船而言,存在较大风险,不利于港口的安全建设与管理。以洋山港码头为例,通过分析内支线船舶的结构并结合码头实际装载状况,研发的一款适合于内支线集装箱船舶改造的非标舷梯,提高了旧船停港作业时的安全性。此产品的研发和应用可为旧船安全改造提供思路。     

载人潜水器布放回收系统分析与研究

以"向阳红09"号船为例,全面介绍了载人潜水器的布放回收系统,包括尾部A架、运移轨道车和拖曳绞车。通过对布放回收系统的功能、系统组成和主要规格参数的分析与研究,对使用中的经验和教训的反思,为目前载人潜水器的布放回收系统的使用、操作规程、维护、保养等提出建议,同时也可以作为新载人潜水器布放回收系统的设计参考。     

大型耙吸式挖泥船精挖施工工艺在湄洲湾航道工程中的应用

为解决大型自航耙吸式挖泥船在航道疏浚施工、特别是在跨度较大的深水航道疏浚施工中存在的严重超挖废方问题,依托大型自航耙吸式挖泥船"长鲸6"在湄洲湾30万吨级主航道疏浚施工中采取RTK无验潮、多波速测量和分层定深开挖等技术,对潮位数据、动态分层定深和测量成果等进行分析,对潮位观测站数据与施工船舶RTK无验潮实时数据进行对比纠正,探讨自航耙吸式挖泥船挖深精确控制施工技术及管理措施。     

管桩桩身总侧阻力分配函数的研究

为研究管桩的承载性状,基于管桩的现场试桩资料,对管桩桩身的总侧阻力分配函数进行研究,建立了管桩桩身总侧阻力分配函数的方程式,并对函数中各参数的取值进行了说明。研究发现,对各桩长及对各长径比的管桩,桩身总侧阻力占比-桩顶沉降曲线大部分呈现程度不等的线性关系,且这种线性关系与桩顶荷载、桩身总侧阻力是否达到了极限状态无关;基于该侧阻力分配函数计算了3根桩的桩身总侧阻力,并将计算值与实测值进行了对比,发现误差绝对值在15%以内。对只有桩顶荷载、桩顶沉降的桩,可以通过该方法建立桩身总侧阻力分配函数,从而获得桩身总侧阻力和端阻力,进而可分析管桩的承载性状。但因桩身侧阻力分配问题的复杂性,研究还是初步的,有待积累更多的现场实测资料,从而完善和深化该分配函数。     

Property Evolution of Sulphoaluminate Grouting Material under Pressure Circulation北大核心CSCD

Water-sealed underground oil tank projects are quite different from traditional underground projects since the water-sealing conditions are very strict and the difficulties caused by the geological specificity, structural specificity and construction specificity are key factors affecting the project. In light of the significant early initial setting time and rapid temperature increase of sulphoaluminate cement-based grouting material for a large domestic water-sealed underground oil tank with pressurized cyclic grouting, a laboratory grouting simulation is conducted. It is found that the properties of the sulphoaluminate cement-based grouting material are quite different under different pressure cycles, the hydration exothermic peak time gets shorter with an increase of circulation time, the compressive strength decreases with an increase of circulation time, and the longer the circulation time the more obvious the de-crease of compressive strength. © 2018, Editorial Office of "Modern Tunnelling Technology". All right reserved.     

Soil Body Deformation Caused by Construction of a Double-Line Shield Tunnel with Multiple Factors北大核心CSCD

Considering the influence of many factors (soil loss, frontal additional thrust, the friction force of the shield shell and the additional grouting force), a method for improving the uniform soil body movement model is pro-posed, and a mechanical calculation model is established to study the calculation method for soil body deformation caused by double-line parallel shield driving. Based on the Mindlin solutions of elastic mechanics, the theoretical solutions for soil body deformations caused by the last three factors are calculated; considering the uniform soil body movement model, the theoretical solutions for soil body deformations caused by soil loss are calculated, then the to-tal theoretical solutions for soil body deformations under multiple factors are obtained by means of superposition. The vertical surface settlement, vertical horizontal displacement, and vertical displacements of the soil body at different depths of Hangzhou Metro Line 1 are calculated to analyze the variation laws. Meanwhile the influential factors for horizontal displacement variation are studied. The research shows that with a change of depth, the settlement of the soil body changes within the scope of 10 to 13 m in the horizontal direction near where the maximum settlement occurs;the direction of the horizontal displacement of the soil body changes with a change of the positional relationship be-tween the calculation points and the tunnel; and with an increase of interval J for the two tunnels, the horizontal dis-placement of the soil body of a deep double-line tunnel decreases while the displacement near the surface changes slightly. © 2018, Editorial Office of "Modern Tunnelling Technology". All right reserved.     

基于碳纤维电热法的公路桥梁融冰研究

为了研究公路桥面融冰问题,通过分析桥面融冰热力学原理,建立桥面电热法融冰的传热有限元分析模型,得到了桥面温度场分布。通过现场埋设碳纤维发热线和温度传感器,对实桥进行桥面温升试验,分析了实桥温升规律。在冰雪气候环境条件下,进行实桥融冰雪试验。研究结果表明,碳纤维线缆电热法进行桥面融冰,桥面局部最高温度不超过45℃,桥面温度变化均匀连续,通电3.5小时,桥面上面层最低温度大于零度,通电4.2小时后,桥面结构温度场分布趋于稳定,上面层温度达到2.5℃。     

沥青路面抗滑性能衰减特性及评价指标适用性探讨

本文分析了沥青路面抗滑机理及目前检测评价指标,路面微观纹理及宏观构造是影响沥青路面抗滑性能的最主要因素,不同级配及粗集料的沥青混合料路面抗滑性能特点及规律有显著差异。根据运营某高速公路SMA类沥青混合料路面抗滑性能近5年的检测数据,探讨了针对SMA类沥青混合料采用横向力系数及构造深度作为沥青路面抗滑性能评价指标的适用性,建议运营高速沥青路面抗滑性能技术状况的检测增加构造深度指标,多维度对沥青路面抗滑性能进行安全有效的评定,利于绿色低碳公路养护技术的发展。