德国HYDRO-BIOS公司多通道水样采集器Slimline

德国HYDRO-BIOS公司多通道水样采集器Slimline

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2018-05-14 09:00:00
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青岛水德仪器有限公司

青岛水德仪器有限公司

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产品简介

名称: 德国HYDRO-BIOS公司多通道水样采集器
类别: 深海采水器
型号: Slimline
关键字: 多通道水样采集器,CTD采水器,多瓶采水器
产品简介: 多通道水样采集器用于海洋水体分层采样,同时可采集各种水质参数,包括温度、盐度、深度、溶解氧等参数
供应商: 青岛水德仪器有限公司

详细介绍

德国HYDRO-BIOS公司多通道水样采集器Slimline 名称: 
类别: 深海采水器
型号: Slimline
关键字: 多通道水样采集器,采水器,多瓶采水器
产品简介: 多通道水样采集器用于海洋水体分层采样,同时可采集各种水质参数,包括温度、盐度、深度、溶解氧等参数
供应商: 青岛水德仪器有限公司
详细介绍

Slimline多通道水样采集器/多瓶采水器/分层采水器
Multi Water Sampler Slimline


多通道水样采集器Slimline是一款对HYDRO-BIOS MWS 6的改进的轻便型多通道水样采集器,6个采样筒容量为1L或3.5L,具有直径小,质量轻的特点,甚至在小船上也很可以很容易地操作。Slimline装有一个马达驱动的自动释放装置,上面集成一个压力传感器,用来测量用户预设的深度。传感器的测量范围可根据用户的工作要求进行选择。Slimlinezui大工作深度6000米,标准配置3000米。Slimline的工作时电量消耗极少,并且可以在温度为-40℃~+85℃的环境中正常工作。整套系统可以由甲板控制单元上的控制按钮控制,进行在线实时采样;也可按照预先设定的采样深度间隔进行离线自容式采样。


                               马达单元


        Slimline多通道水样采集器俯视结构图

选配件:
- CT-组件,*整合在多通道水样采集器的驱动单元上,由一个电导率传感器、一个温度传感器和一个电路板组成
- 各种参数的传感器,如温度、盐度、浊度、叶绿素等
- 容量16M为数据存储器

技术参数:

 尺寸 直径50cm,高度70cm,1L型号
直径65cm,高度75cm,3.5L型号
 空重 约30kg,带6个1L采水瓶
约40kg,带6个3.5L采水瓶
 zui大操作水深 标准配置:3000米;可选配置:6000米
 阵列 不锈钢材质
 马达单元 由钛制成,电池供电(3×DL123A/3V)
 甲板控制单元 金属舱室;带一个控制采样器开关
的按钮;显示采样瓶序号、压力和
电池状态带发光二极管背景灯的液
晶显示屏;与PC机的接口为RS232;
由85-260V交流电或电池
 压力传感器 0.0-3000dbar±0.1%f.s.(标准)

多通道水样采集器Slimline/多瓶采水器/分层采水器订购指南:
436 975    多通道水样采集器Slimline
                 带微处理器和外置电池组的马达驱动单元;
                 集成压力传感器;
                 通过PC机控制的可编程式深度依赖性采样间隔;
                 16兆数据存储器;
                 带甲板控制单元;
                 配备6个容积为1L的塑料水样采集器;

436 976    多通道水样采集器Slimline
                 带微处理器和外置电池组的马达驱动单元;
                 集成压力传感器;
                 通过PC机控制的可编程式深度依赖性采样间隔;
                 16兆数据存储器;
                 带甲板控制单元;
                 配备6个容积为3.5L的塑料水样采集器;

450 500     CT组件
                 电导传感器:0~65mS/cm±0.01mS/cm
                 温度传感器:-2 ~32℃±0.005℃
                 监测频率:1Hz


代表文献:
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3.R. J. Gowen, B.M. Stewart, D.K. Mills and P. Elliott,1994.Regional differences in stratification and its effect on phytoplankton production and biomass in the northwestern Irish Sea.Journal of Plankton Research.17(4):753-769.
4.R.J. Gowen, G. McCullough, M. Dickey-Collas and G.S. Kleppel,1997.Copepod abundance in the western Irish Sea: relationship to physical regime, phytoplankton production and standing stock.Journal of Plankton Research.20(2):315-330.
5.K. Richardson, S.H. Jónasdóttir, S.J. Hay, A. Christoffersen,1999.Calanus finmarchicus egg production and food availability in the Faroe–Shetland Channel and northern North Sea: October–March.Fisheries Oceanography.8(1):153–162.
6.M. Trimmer, R. J. Gowen, B. M. Stewart, D. B. Nedwell,1999.The spring bloom and its impact on benthic mineralisation rates in western Irish Sea sediments.Marine Ecology Progress series.185:37-46.
7.Harri T. Kankaanpää, Vesa O. Sipiä, Jorma S. Kuparinen, Jennifer L. Ott, and Wayne W. Carmichael ,1999.Nodularin analyses and toxicity of a Nodularia spumigena (Nostocales, Cyanobacteria) water-bloom in the western Gulf of Finland, Baltic Sea, in August 1999.Phycologia.40(3):268-274.
8.Andrea M. Sass, Henrik Sass, Marco J. L. Coolen, Heribert Cypionka, and Jörg Overmann,2001.Microbial Communities in the Chemocline of a Hypersaline Deep-Sea Basin (Urania Basin, Mediterranean Sea).Applied and Envioronmental Mcrobiology.67(12):5392-5402.
9.Victor W Truesdale, Günther Nausch, Alex Baker,2001.The distribution of iodine in the Baltic Sea during summer.Marine Chemistry.74(2–3):87–98.
10.Ann K. Manske, Jens Glaeser, Marcel M. M. Kuypers and Jörg Overmann,2005.Physiology and Phylogeny of Green Sulfur Bacteria Forming a Monospecific Phototrophic Assemblage at a Depth of 100 Meters in the Black Sea.Applied and Envioronmental Mcrobiology.71(12):8049-8060.
11.Maik Inthorn, Michiel Rutgers van der Loeff, Matthias Zabel,2006.A study of particle exchange at the sediment–water interface in the Benguela upwelling area based on 234Th/238U disequilibrium.Deep Sea Research Part I: Oceanographic Research Papers.53(11):1742–1761.
12.Tim J. Waite, Victor W. Truesdale, Jon Olafsson,2006.The distribution of dissolved inorganic iodine in the seas around Iceland.Marine Chemistry.101(1–2):54–67.
13.MAJANEVA Markus, AUTIO Riitta, HUTTUNEN Maija, KUOSA Harri, KUPARINEN Jorma,2009.Phytoplankton monitoring: the effect of sampling methods used during different stratification and bloom conditions in the Baltic Sea.Boreal environment research.14(2):313-322.
14.Bertics, Victoria J., Löscher, C. R., Salonen, I., Dale, Andy W., Gier, Jessica, Schmitz, R.A. and Treude, Tina,2013.Occurrence of benthic microbial nitrogen fixation coupled to sulfate reduction in the seasonally hypoxic Eckernförde Bay, Baltic Sea.Biogeosciences(BG).10(3):1243-1258.


更多关键字: 多通道水样采集器,采水器,多瓶采水器, CTD采水器,小型分层采水器,Slimline采水器

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