风电运维船与风机塔基耦合水动力响应分析研究

海上风电运维船通常采用船首顶靠海上风机塔基靠船桩的方式来保证风机维护人员的安全登塔,因此对其在相应海况条件下的纵摇、升沉等水动力响应进行分析研究很有必要.本文采用Fine/Marine和AQWA软件,对某运维船在实际海况条件下的耦合水动力响应进行分析研究,从而为风电维护人员的安全登离以及辅助登离设备的研发提供参考.     

某型气垫登陆艇燃气涡轮发电机组弹性轴断裂分析

介绍了气垫登陆艇的故障现象,通过故障现象分析,对故障进行了定位,通过对故障件进行理化分析、金相组织分析、断口分析,设计图样与实物的制造符合性分析,最后采用实例建模进行了强度校核,得出某型气垫登陆艇燃气涡轮发电机组弹性轴断裂的故障模式。     

混合励磁同步发电机电压控制原理分析与实现

为解决永磁发电机输出电压不可控的问题,研究了一种新型结构的混合励磁同步发电机.利用有限元方法计算了电机中永磁和电励磁的磁场分布.根据对永磁发电机输出电压的要求,制定了励磁调节系统的控制策略,讨论了调节过程.为验证混合励磁同步发电机的电压调节能力,设计制造了2.5 kW实验样机及励磁调节系统,并进行实验测试.结果表明:空载运行时,混合励磁同步发电机输出电压为永磁与电励磁部分的合成电势;负载运行时,随着负载的增加,通过调节励磁电流的大小改变了气隙磁通,输出电压稳定在135 V.     

船舶柴油发电机转速神经网络容错控制

结合人工神经网络与智能容错控制,形成船舶柴油发电机转速神经网络容错控制。对由故障诊断后获取的特征值进行归一化处理,把经过处理的特征值作为神经网络的输入样本集,设计输出样本集,建立BP神经网络和ELMAN神经网络,用整理后的数据训练神经网络,使神经网络具有容错控制功能,并对神经网络模型进行仿真测试。仿真试验显示可以实现对船舶电力系统容错控制,保证船舶的安全运行。     

船舶主发电机典型故障的分析与排除

主发电机作为船舶主要的设备之一,管理系统高度自动化,但由于设备本身的故障或因误操作等原因,故障率比较高,如何及时准确的排除故障,确保船舶的安全运行,已成为广泛关注的焦点之一。文章针对L23／30H型主发电机的典型故障的排除进行了分析。     

水利枢纽通航水流条件研究

根据实际工程的水工模型试验资料,分析枢纽工程运行期的闸门调度、机组组合运行和导航墙长度对口门区通航水流的影响,提出改善通航水流条件的枢纽运行方式。     

发电机组并联运行有功、无功综合调控技术

介绍了发电机组的转速、电压控制原理以及有功、无功综合调控技术的控制原理;并通过实例介绍了采用该控制技术的船舶电站监控系统。实践表明,融合有功、无功综合调控技术的电站监控系统在投入运行后,实现了任意组态下,并联机组有功、无功功率稳定的自动调整,使得多个电站机组长期并联运行更加可靠。     

Application of new parameterizations of gas transfer velocity and their impact on regional and global marine CO2 budgets

One of the dominant sources of uncertainty in the calculation of air–sea flux of carbon dioxide on a global scale originates from the various parameterizations of the gas transfer velocity, k, that are in use. Whilst it is undisputed that most of these parameterizations have shortcomings and neglect processes which influence air–sea gas exchange and do not scale with wind speed alone, there is no general agreement about their relative accuracy.The most widely used parameterizations are based on non-linear functions of wind speed and, to a lesser extent, on sea surface temperature and salinity. Processes such as surface film damping and whitecapping are known to have an effect on air–sea exchange. More recently published parameterizations use friction velocity, sea surface roughness, and significant wave height. These new parameters can account to some extent for processes such as film damping and whitecapping and could potentially explain the spread of wind-speed based transfer velocities published in the literature.We combine some of the principles of two recently published k parameterizations [Glover, D.M., Frew, N.M., McCue, S.J. and Bock, E.J., 2002. A multiyear time series of global gas transfer velocity from the TOPEX dual frequency, normalized radar backscatter algorithm. In: Donelan, M.A., Drennan, W.M., Saltzman, E.S., and Wanninkhof, R. (Eds.), Gas Transfer at Water Surfaces, Geophys. Monograph 127. AGU,Washington, DC, 325–331; Woolf, D.K., 2005. Parameterization of gas transfer velocities and sea-state dependent wave breaking. Tellus, 57B: 87–94] to calculate k as the sum of a linear function of total mean square slope of the sea surface and a wave breaking parameter. This separates contributions from direct and bubble-mediated gas transfer as suggested by Woolf [Woolf, D.K., 2005. Parameterization of gas transfer velocities and sea-state dependent wave breaking. Tellus, 57B: 87–94] and allows us to quantify contributions from these two processes independently.We then apply our parameterization to a monthly TOPEX altimeter gridded 1.5° × 1.5° data set and compare our results to transfer velocities calculated using the popular wind-based k parameterizations by Wanninkhof [Wanninkhof, R., 1992. Relationship between wind speed and gas exchange over the ocean. J. Geophys. Res., 97: 7373–7382.] and Wanninkhof and McGillis [Wanninkhof, R. and McGillis, W., 1999. A cubic relationship between air−sea CO2 exchange and wind speed. Geophys. Res. Lett., 26(13): 1889–1892]. We show that despite good agreement of the globally averaged transfer velocities, global and regional fluxes differ by up to 100%. These discrepancies are a result of different spatio-temporal distributions of the processes involved in the parameterizations of k, indicating the importance of wave field parameters and a need for further validation.     

燃气轮机发电机组并联优化设计

本文分析了某船的燃气轮机发电机组的调压和调频调载原理,以及在双机并联运行时的无功分配和有功分配原理,针对两舷电站的发电机组不能长时间并联运行的局限性,提出发电机并联优化设计方案：通过增加一套均压/均功连接控制器以及修改少量接线,而无需修改原系统的软件,使任意并联发电机组之间均可进行有效的无功功率和有功功率平均分配,从而能够长时间并联运行,提高供电生命力。     

燃烧室外冷却热防护数值模拟研究

本文建立了夹套式外冷却燃气发生器燃烧室热防护的CFD数值模拟模型,并用该模型对影响热防护效果的各因素进行了研究。用有限容积法离散二维轴对称N-S方程,用标准k-ε模型模拟湍流,用可压缩耦合求解器求解控制方程。研究了燃烧室内壁材料热导率、燃烧室内壁壁厚以及冷却水流量对热防护效果的影响。结果表明材料热导率对热防护效果的影响较大,高热导率的材料能够明显降低燃烧室内壁壁温和温度梯度;当燃烧室内壁为高热导率材料时,壁厚和冷却水流量对热防护效果的影响相对较小。