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XBT是可投弃式温深剖面测量仪的简称,用以测量海水不同深度的温度。为了研究XBT探头内部光纤传感器的合理布放位置,以尽可能减小温度与压力测量的误差,针对探头在水中的主要运动状态,运用CFX软件做瞬态温度响应模拟,包括阶跃温度响应和线性温度响应;然后对不同运动速度的XBT探头做稳态数值模拟,着重分析了其导流腔内水流速度与压力分布。模拟结果表明,线性响应引起的温度测量误差要小于阶跃响应,温度传感器宜放在导流腔中靠前的位置,同时导流腔后端存在水流静压为0的位置,适合压力传感器的布放。本文针对光纤XBT探头所做的流体仿真,为内部温度、压力传感器的布置提供了理论指导,对于同类传感器的设计也具有一定的参考价值。 相似文献
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投弃式海流剖面测量仪测量原理研究 总被引:1,自引:0,他引:1
根据投弃式海流剖面测量仪的测量原理建立了二维海流运动感生电场离散和连续模型,通过模型推导得到了海流与感生电场间的关系公式。通过对海流感生电磁场的分析,对海流测量的基本方法进行了研究,通过感生电磁场的量级的计算,确定了投弃式海流剖面测量仪研究的主要方向和关键技术。 相似文献
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随着国产投弃式温深仪(XBT)性能的提高,其使用范围和规模也逐步扩大,受某专项办的委托,厦门大学在南海东北部开展了"海洋监测设备适用性检验规范及海上试验研究(国家863计划)"项目,针对海洋技术领域研发的技术较为成熟、具备产品化条件的XBT开展检验与验证,对国产XBT的性能和实际使用情况进行分析和总结。试验中,在不同站点进行温盐深仪(CTD)现场测量,以此数据为真值对国产和进口XBT精度做评估。在较高速度走航测量时,则以进口XBT数据为参照,对国产XBT进行评估。试验结果表明,国产XBT整体上表现良好,成功率大概为80%,有些型号的国产XBT精度与进口XBT精度接近,但国产XBT无效剖面较多。同时也发现,进口XBT的精度无法满足预期比测的要求,不能准确计算出国产XBT精度,但结果仍然具有参考价值。本次试验可以为国产XBT的规模化应用和推广提供数据支持,也可为其他型号XBT/XCTD/CTD等仪器的比测提供借鉴。 相似文献
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温盐深是反应海洋物理学特性的重要参数,是海洋水文观测的基本要素。CTD剖面仪(Conductivity-Temperature-Depth profiler)是进行海水温盐剖面观测的主要仪器,利用CTD剖面仪可精确测得水下不同深度上海水的温度和电导率参数,进而能够推算出海水盐度、密度、声速等相关信息,对于海洋经济开发、海上国防建设、海洋环境保护等都具有非常重要的意义。本文介绍了温盐深剖面测量技术的基本原理与发展现状,对几种典型的温盐深测量设备及各种海洋观测平台中搭载的CTD传感器进行了介绍,论述了CTD传感器的标定和测试技术,并对其发展趋势进行了分析。 相似文献
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走航投弃式剖面仪是海洋环境数据获取的重要仪器,主要应用于海洋环境观测中海洋参数的大面积快速测量,但传输信道特点一直并不明确,对信道传输性能的提高缺乏一定的理论基础。以XCTD信道为研究对象,优化了信道的模型和传递方程,计算得到信道阻抗参数值;采用时频法研究投弃式剖面仪信道基带传输信号的时变性,分析不同频率下的信号带宽的变化特性,分析随机噪声对传输信号和误码率的影响规律,结果表明,深海走航投弃式剖面仪传输信道在不同深度和传输速率下具有的"时变/窄带/低信噪比"规律特性,该信道特点与水声信道具有更多的相似性,该结论为提高XCTD信道传输性能拓宽了研究思路,为深海投弃式观测技术发展的信道传输技术共性问题提供了理论支持。 相似文献
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我所研制成功了具有当今国际先进水平的脉冲压缩式浅地层剖面仪(PCSBP),又称Chrip浅地层剖面仪。又称Chirp浅地层剖面仪。它能同时提高地层穿透深度和地层分辨率,其定量化测量特性特别适合于定量研究海底介质的各种特性。本文介绍该仪器的工作原理、结构、性能、特点和使用结果。 相似文献
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Reevaluation of historical ocean heat content variations with time-varying XBT and MBT depth bias corrections 总被引:6,自引:0,他引:6
As reported in former studies, temperature observations obtained by expendable bathythermographs (XBTs) and mechanical bathythermographs
(MBTs) appear to have positive biases as much as they affect major climate signals. These biases have not been fully taken
into account in previous ocean temperature analyses, which have been widely used to detect global warming signals in the oceans.
This report proposes a methodology for directly eliminating the biases from the XBT and MBT observations. In the case of XBT
observation, assuming that the positive temperature biases mainly originate from greater depths given by conventional XBT
fall-rate equations than the truth, a depth bias equation is constructed by fitting depth differences between XBT data and
more accurate oceanographic observations to a linear equation of elapsed time. Such depth bias equations are introduced separately
for each year and for each probe type. Uncertainty in the gradient of the linear equation is evaluated using a non-parametric
test. The typical depth bias is +10 m at 700 m depth on average, which is probably caused by various indeterminable sources
of error in the XBT observations as well as a lack of representativeness in the fall-rate equations adopted so far. Depth
biases in MBT are fitted to quadratic equations of depth in a similar manner to the XBT method. Correcting the historical
XBT and MBT depth biases by these equations allows a historical ocean temperature analysis to be conducted. In comparison
with the previous temperature analysis, large differences are found in the present analysis as follows: the duration of large
ocean heat content in the 1970s shortens dramatically, and recent ocean cooling becomes insignificant. The result is also
in better agreement with tide gauge observations.
On leave from the Meteorological Research Institute of the Japan Meteorological Agency. 相似文献
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国家海洋技术中心根据科研需求研发了抛弃式温度剖面仪(XBT)等一系列抛弃式产品.针对2014年8月份在西太平洋海域投放的XBT和XCTD所获取的温度数据进行对比分析,单剖面结果显示两者相关系数达到了0.95,在温跃层处出现温度差,断面标准差分析结果为200 m以上温跃层处较大而200m以下标准差较小,最大和最小标准差值分别为0.39和0.08.温度断面分析结果显示两者在同样的位置出现等值线的凹凸现象,对大洋水团特殊物理海洋现象描述基本一致.分析温跃层处两者温度存在偏差的原因有3个:不同传感器的不同响应时间引起的误差、深度测量公式的误差以及传感器本身的测量误差影响.国产XBT的数据质量较好,总体上性能能满足对环境复杂海域的快速走航观测,数据质量准确度和可靠性都较好. 相似文献
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Viktor Gouretski Franco Reseghetti 《Deep Sea Research Part I: Oceanographic Research Papers》2010,57(6):812-833
The World Ocean Database 2005 as of May 2009 is used to estimate temperature and sample depth biases of expendable (XBT) and mechanical (MBT) bathythermographs by comparing bathythermograph temperature profiles with more accurate bottle and conductivity/temperature/depth (CTD) data. It is shown that the application of depth corrections estimated earlier from side-by-side XBT/CTD inter-comparisons, without accounting for a pure thermal bias, leads to even larger disagreement with the CTD and bottle reference temperatures. Our calculations give evidence for a depth-variable XBT fall-rate correction with the manufacturer-derived depth being underestimated in the upper 200 m and overestimated below this depth. These results are in agreement with side-by-side inter-comparisons and direct fall-rate estimates. Correcting XBT sample depths by a multiplicative factor which is constant with depth does not allow an effective elimination of the total temperature bias throughout the whole water column. The analysis further suggests a dependence of the fall rate on the water temperature which was reported earlier in the literature. Comparison among different correction schemes implies a significant impact of systematic biases on the estimates of the global ocean heat content anomaly. 相似文献
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The ocean temperature field off the north‐east coast of New Zealand is studied to quantify the annual cycle and reveal the intra‐ and inter‐annual variability. The data used are repeat expendable bathythermograph (XBT) sections between Auckland and either Suva or Honolulu which have been collected quarterly since 1986. These sections give temperature measurements between the surface and 800 m and Auckland and 30°S from 1986 to August 1999. The mean and annual cycle are compared with those from the NOAA World Ocean Atlas (WOA98). The results are similar; however WOA98 lacks the horizontal resolution to fully discern the East Auckland Current and North Cape Eddy, while the XBT analysis lacks the temporal resolution to discern higher frequency intra‐annual signals. The temperature variability in the mixed layer is dominated by the annual cycle, which accounts for 80–90% of the variance. The amplitude of the annual cycle diminishes rapidly with depth, from 2.8°C at the surface, to c. 0.1°C at 180 m. The phase of the annual cycle is retarded with depth, with peak temperatures occurring in February at the surface and in June/July at 180 m. Removing the annual cycle from the time series reveals the more subtle inter‐ and intra‐annual variability. This variability is of the order of 1°C in the upper 50 m, decreasing to 0.3°C at 400–500 m. The surface layer was cold between 1991 and 1994 (c. 0.7°C cooler than average), and 0.7°C warmer than average in 1999. The deeper ocean shows a different signal, being up to 0.3°C cooler in 1990–92, 0.3°C warmer in 1998, and c. 0.2°C warmer than average in 1999. The inter‐annual mixed layer variability is highly correlated with the Southern Oscillation Index and also with inter‐annual terrestrial air temperature and wind measurements from northern New Zealand. In contrast, at higher intra‐annual frequencies, the mixed layer variability is not correlated with air and wind measurements. At these higher frequencies, the air temperature is better correlated with the sea surface temperature (SST) than with the bulk mixed layer temperature. 相似文献
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The accuracy of temperature measurement by the expendable bathythermograph (XBT) is examined for five types of recorders by
comparison with co-located CTD measurements and statistical analysis of temperature profiles including an isothermal layer.
A positive temperature error increasing downward is occasionally detected for two types of Japanese recorder which have been
commonly used among Japanese oceanographic institutions and marine observatories. This error resembles to that reported by
Bailey et al. (1989) and Wright (1991) for a different type of recorders, although its cause is not clearly understood. The irregular
occurrence of the error suggests that the problem is not solely due to the recorders but rather by some inconsistency of the
whole measuring system including them, an XBT probe and sea water. The error is estimated to increase at a rate of O (0.1°C/100 m), and it could be close to 1°C at the deepest part of the profiles (760 m for Tsurumi T-7).
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
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K. A. Korotenko 《Oceanology》2007,47(4):464-475
Specification of salinity is an important problem in initialization of the global ocean circulation models. Unlike the temperature, the salinity data in the World Ocean are irregular and nonuniform; thus, methods for estimating the salinity using pleutiful temperature data are urgently needed. A new regression method for estimating the salinity in the ocean is suggested in this paper. Unlike similar currently known approaches, the method suggested applies a set of polynomials and their powers invariant for the entire ocean, while the latter is divided into a number of study subregions for the estimates. The best-fit regression curves and the minimal errors of the salinity estimates are found for each of the regions. The method uses the World Oceanographic Database (WOD-2001 NODC NOAA) to determine the regression coefficients and the confidence intervals (RCCI). A special RCCI database was organized on the basis of these data. The RCCI database makes possible determination of the salinity at any point in the ocean if the temperature data are provided (measurements, XBT profiles, etc.). A realization of the method suggested is demonstrated by the example of the Atlantic Ocean. 相似文献
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Comparison experiment between XBT of T-7 probe and CTD was conducted at 15 stations in the sea area centered on 29°N, 135°E in December 1985. There were systematic errors in XBT temperature profiles in comparison with CTD temperature profiles. The main cause of errors was attributed to an error in the free-fall speed of the XBT probes which was provided by the XBT maker. A previous equation for depth correction proposed by Heinmilleret al. (1983) could not give effective correction for our data. A new equation between the probe depth and the elapsed time from landing of the probe on the water was obtained by the method of adjusting temperature gradients of XBT profiles to those of CTD profiles. This equation agreed with the theoretical result given by Seaver and Kuleshov (1982) much better than that of Heinmilleret al. (1983). Systematic errors due to a scatter of values of the reference resistance and variation of B-constant of thermistors used in XBT also seemed to exist. After an adjustment using the temperature difference between XBT and CTD in the mixed layer with depths of about 100 m, the standard deviation of temperature difference between XBT and CTD from the surface to the depth of 750 m was 0.14°C. 相似文献
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Eun Jin Kim Sok Kuh Kang Sung-Tae Jang Jae Hak Lee Young Ho Kim Hyoun-Woo Kang Yeong Yeon Kwon Young Ho Seung 《Ocean Science Journal》2010,45(3):159-170
Satellite-derived sea surface temperature (SST) is validated based on in-situ data from the East China Sea (ECS) and western North Pacific where most typhoons, which make landfall on the Korean peninsula, are formed and pass. While forecasting typhoons in terms of intensity and track, coupled ocean-typhoon models are significantly influenced by initial ocean condition. Potentially, satellite-derived SST is a very useful dataset to obtain initial ocean field because of its wide spatial coverage and high temporal resolution. In this study, satellite-derived SST from various sources such as Tropical Rainfall Measuring Mission Microwave Imager (TMI), Advanced Microwave Scanning Radiometer for Earth Observing System (AMSR-E) and New Generation Sea Surface Temperature for Open Ocean (NGSST-O) datasets from merged SSTs were compared with in-situ observation data using an indirect method which is using near surface temperature for validation of satellite derived SST. In-situ observation data included shipboard measurements such as Expendable Bathythermograph (XBT), and Conductivity, Temperature, Depth (CTD), and Argo buoy data. This study shows that in-situ data can be used for microwave derived SST validation because homogeneous features of seawater prevail at water depths of 2 m to 10 m under favorable wind conditions during the summer season in the East China Sea. As a result of validation, root-mean-square errors (RMSEs) are shown to be 0.55 °C between microwave SST and XBT/CTD data mostly under weak wind conditions, and 0.7 °C between XBT/CTD measurement and NGSST-O data. Microwave SST RMSE of 0.55 °C is a potentially valuable data source for general application. Change of SST before and after typhoon passing may imply strength of ocean mixing due to upwelling and turbulent mixing driven by the typhoon. Based on SST change, ocean mixing, driven by Typhoon Nari, was examined. Satellite-derived SST reveals a significant SST drop around the track immediately following the passing of Typhoon Nari in October, 2007. 相似文献
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国产深海准实时传输潜标系统设计 总被引:2,自引:2,他引:0
基于海洋环境安全保障、海洋环境预报和海洋科学研究的需要,开展国产深海准实时传输潜标系统的设计,重点进行锚泊系统水动力分析、观测设备工作同步性、准实时通讯系统安全可靠和系统低功耗等整体技术设计;开展轻型感应耦合传输缆制作、大深度感应耦合传输和智能收放通讯等数据实时通讯技术的研究;进行适用于准实时传输潜标系统的多种类国产设备的稳定性和可靠性优化、规模化集成和系统化的应用示范,形成半潜升降式准实时通讯潜标与浮子式准实时通讯潜标各1套。所设计的准实时传输潜标系统集成了1台抗污染CTD、19台感应耦合CTD、8台感应耦合T、4台感应耦合传输的ADCP、2台单点海流计和6台感应耦合数据传输仪,并配有2套声学释放器;潜标系统本体设计含有3个水下流线型浮体、1套通讯浮子、1套准实时卫星通讯装置(半潜式水下绞车或海面浮子)和1套锚泊缆系,可实现深达2 000 mm的剖面温盐深和海流等海洋要素的高频率、多要素、多层次的长期连续观测和数据准实时传输,以便对科学问题解决和海洋环境安全保障等提供及时的数据支撑。 相似文献