名稱: 德國(guó)HYDRO-BIOS公司多通道水樣采集器Slimline
類別: 深海采水器
型號(hào): Slimline
關(guān)鍵字: 多通道水樣采集器,采水器,多瓶采水器
產(chǎn)品簡(jiǎn)介: 多通道水樣采集器用于海洋水體分層采樣，同時(shí)可采集各種水質(zhì)參數(shù)，包括溫度、鹽度、深度、溶解氧等參數(shù)
供應(yīng)商: 青島水德儀器有限公司
詳細(xì)介紹
Slimline多通道水樣采集器/多瓶采水器/分層采水器
Multi Water Sampler Slimline

多通道水樣采集器Slimline是一款對(duì)HYDRO-BIOS MWS 6的改進(jìn)的輕便型多通道水樣采集器，6個(gè)采樣筒容量為1L或3.5L，具有直徑小，質(zhì)量輕的特點(diǎn)，甚至在小船上也很可以很容易地操作。Slimline裝有一個(gè)馬達(dá)驅(qū)動(dòng)的自動(dòng)釋放裝置，上面集成一個(gè)壓力傳感器，用來測(cè)量用戶預(yù)設(shè)的深度。傳感器的測(cè)量范圍可根據(jù)用戶的工作要求進(jìn)行選擇。Slimline最大工作深度6000米，標(biāo)準(zhǔn)配置3000米。Slimline的工作時(shí)電量消耗極少，并且可以在溫度為-40℃~+85℃的環(huán)境中正常工作。整套系統(tǒng)可以由甲板控制單元上的控制按鈕控制，進(jìn)行在線實(shí)時(shí)采樣；也可按照預(yù)先設(shè)定的采樣深度間隔進(jìn)行離線自容式采樣。


馬達(dá)單元


Slimline多通道水樣采集器俯視結(jié)構(gòu)圖

選配件：
- CT-組件，完全整合在多通道水樣采集器的驅(qū)動(dòng)單元上，由一個(gè)電導(dǎo)率傳感器、一個(gè)溫度傳感器和一個(gè)電路板組成
- 各種參數(shù)的傳感器，如溫度、鹽度、濁度、葉綠素等
- 容量16M為數(shù)據(jù)存儲(chǔ)器

技術(shù)參數(shù)：


尺寸 直徑50cm,高度70cm,1L型號(hào)
直徑65cm,高度75cm,3.5L型號(hào)
空重 約30kg,帶6個(gè)1L采水瓶
約40kg,帶6個(gè)3.5L采水瓶
最大操作水深 標(biāo)準(zhǔn)配置：3000米；可選配置：6000米
陣列 不銹鋼材質(zhì)
馬達(dá)單元 由鈦制成,電池供電(3×DL123A/3V)
甲板控制單元 金屬艙室；帶一個(gè)控制采樣器開關(guān)
的按鈕；顯示采樣瓶序號(hào)、壓力和
電池狀態(tài)帶發(fā)光二極管背景燈的液
晶顯示屏；與PC機(jī)的接口為RS232；
由85-260V交流電或電池
壓力傳感器 0.0-3000dbar±0.1%f.s.(標(biāo)準(zhǔn))


多通道水樣采集器Slimline/多瓶采水器/分層采水器訂購(gòu)指南：
436 975 多通道水樣采集器Slimline
帶微處理器和外置電池組的馬達(dá)驅(qū)動(dòng)單元；
集成壓力傳感器；
通過PC機(jī)控制的可編程式深度依賴性采樣間隔；
16兆數(shù)據(jù)存儲(chǔ)器；
帶甲板控制單元；
配備6個(gè)容積為1L的塑料水樣采集器；

436 976 多通道水樣采集器Slimline
帶微處理器和外置電池組的馬達(dá)驅(qū)動(dòng)單元；
集成壓力傳感器；
通過PC機(jī)控制的可編程式深度依賴性采樣間隔；
16兆數(shù)據(jù)存儲(chǔ)器；
帶甲板控制單元；
配備6個(gè)容積為3.5L的塑料水樣采集器；

450 500 CT組件
電導(dǎo)傳感器：0～65mS/cm±0.01mS/cm
溫度傳感器：-2 ～32℃±0.005℃
監(jiān)測(cè)頻率：1Hz


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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.
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更多關(guān)鍵字: 多通道水樣采集器,采水器,多瓶采水器, CTD采水器,小型分層采水器,Slimline采水器