ammolyser

ammo::lyser pro

A multi-parameter probe for the online measurement of ammonium. It is an absolutely reliable device outclassing conventional analyzers in terms of measurement stability and lifetime. Precision is guaranteed by real time compensation of the ammonium value with temperature, pH and potassium and a high performance reference electrode.

 

ammo::lyser™ III pro: 监测 NH4-N 和温度 (带钾离子补偿)
ammo::lyser™ IV pro+pH 监测 NH4-N、温度和 pH 值(带钾离子补偿)
ammo::lyser™ IV pro+NO3-N 监测 NH4-N、温度和 NO3-N(带钾离子补偿)

  • s::can 即插即测
  • 测量原理:ISE(离子选择性电极)- 具有钾离子补偿
  • 多参数探头
  • 长期稳定运行,出厂前已实行预校准
  • 使用压缩空气进行自动清洗
  • 独特性、技术上无可匹敌的、无孔/不泄露的参比电极,及其稳 定的pH 测量
  • 离子选择性电极的翻新- 使得维护更为简便
  • 可直接在介质中(现场)或通过流通管道(监测站)方便和快速地 安装和测量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
  • 可进行自动温度及钾离子补偿、pH补偿
  • 适用于地表水、地下水、饮用水和污水方面的应用
  • 最小的维护量
  • 离子膜的寿命: 对于 <1mg/l NH4-N 的应用:通常为6个月, 对于 >1mg/l NH4-N 的应用:通常为1到2年
加拿大原住民社区远程监测饮用水水质
加拿大原住民社区远程监测饮用水水质

在加拿大原住民社区,s::can的事件预报警系统能远程监测60个微型供水系统的饮用水水质情况。

了解更多
浙江尖山污水厂除氮项目提标改造SBR池污水连续在线监测
浙江尖山污水厂除氮项目提标改造SBR池污水连续在线监测

尖山污水厂对该厂区改造后的四个SBR池污水进行连续在线监测,以实时获取硝氮、氨氮、ORP值,更加准确了解硝化和反硝化反应过程,实现曝气及碳源投加的精确控制

了解更多
在全球污染最严重的河流进行水质监测
在全球污染最严重的河流进行水质监测

墨西哥的阿托亚克河是世界上受污染最严重的河流之一,其污染主要来源于工业污染,并且该污染一直持续。因此,首要任务是要找到污染的来源,才能保护河流和周边的居民。 了解更多

New standards for ammonium determination

The ammo::lyser can be mounted easily and quickly directly in the medium (in situ) or in a flow cell (monitoring station) and operated via s::can terminals and s::can software....

The ammo::lyser can be mounted easily and quickly directly in the medium (in situ) or in a flow cell (monitoring station) and operated via s::can terminals and s::can software. This s::can NH4 probe is ideal for applications in surface water (rivers, lakes), ground water and drinking water, and also for applications in waste water (influent, aeration tank, effluent). The plug and measure principle is at the core of all of s::can’s monitoring systems. Simple and quick installation and start-up, reliable results as soon as the instrument immerses into the water. This simplicity allows the users to work with s::can instruments without extensive training.
However, in addition to its technological advantages, the ammo::lyser is economically convincing. The robust ion-selective membrane typically reaches a service life of 6 months in applications with low NH4 -N concentrations (
Reference electrode
The ammo::lyser uses a high performance reference electrode. The clue about this electrode is that the entire outside surface is electrochemically active, it does not significantly drift, even when completely coated, and is therefore superior to conventional ones. Typical problems of conventional pH electrodes such as loss of performance by soiling of a small porous diaphragm or the danger of “bleeding” of the reference electrode are a matter of the past when using the ammo::lyser. Non-porous, non-leaking, stable potential even in extreme applications and no significant fouling, these are unsurpassed properties of the reference electrode, rendering the ammo::lyser unique.

Measuring precision
Ammonium measuring precision is ensured by temperature compensation as well as by optional pH and potassium determination. Thanks to the modular design, the ammo::lyser offers the flexibility to suit any application. The housing comprises four electrode slots, the first two of which are naturally used for the reference electrode and the ammonium electrode. The two other slots can be used arbitrarily for pH, nitrate, chloride or potassium compensation electrodes. Determination of pH is essential if this value is subject to fluctuations in the alkaline range, since pH has a direct effect on ammonium. Concurrent determination of potassium is necessary to compensate perturbations of ammonium determination if the potassium value is not stable in the application. Thus, the ammo::lyser is optimally equipped also for applications in the low concentration range (
Exchanging electrodes
Insertion or exchange of electrodes, respectively, is about as difficult as changing a light bulb. The design of the housing permits direct access to the electrodes which can be removed easily. This operation can also be performed in the field without any problems.

Housing
And the housing is yet another essential point why the ammo::lyser is different. The housing is made out of stainless steel and provides high stability against electromagnetic disturbances. The robust and resilient housing material permits use in industrial applications with aggressive liquids. The sophisticated design without any mobile components drastically reduces malfunctions and maintenance efforts.

Fouling
Thanks to the design of the probe, coarse contamination cannot hamper the measuring. And for all other contaminations, there is automatic rinsing with pressurized air for reliably removing particles or deposits on the electrodes. Automatic rinsing with pressurized air is successful even in untreated waste water. Thus manual cleaning is not necessary, further reducing maintenance efforts.

ISE refurbishment
Up to now, ion-elective electrodes with reduced performance due to ageing were maintained by replacing the ion-selective membranes and the internal electrolyte of the electrode. These manipulations caused some problems or risks in the field. With the s::can ISE refurbishment, the user does not have to exchange membranes or electrolytes any more, but the complete electrode. Simply send the aged ion-selective electrodes to s::can, and tightly quality controlled ISEs are sent back. The very simple and quick field exchange drastically reduces maintenance time and minimizes risk of damage. The benefits include shorter maintenance times on site as well as the lowest total cost of ownership.

ammo::lyser电极修复

以往, 对离子选择探头 (ISE)...

以往, 对离子选择探头 (ISE) 老化电极的可进行离子选择膜片和电解液的更换。在现场进行这样的操作可能会由于操作失误引起很多问题。s::can离子选择探头的刷新服务使用户无需自行更换膜片或电解液,而得到一个完整的电极。您只需要将老旧的离子选择电极寄给s::can,经过专业的修复更新后会得到刷新后的电极。这样就能简单快速的直接在现场更换,将以下操作会带来的隐患可能性降到最低: 
 
- 打开离子选择电极
- 电极混入杂物 
- 膜片更换 
- 电解液处理
 
这样的好处是减少了现场维修时间,能减少费用支出。这样的另一个好处是可以再用户到达是直接使用符合使用条件的电极,只需要用半小时进行校准,而过去更换膜片和电解液再校准则需要一个半小时。

更换电极可以使每个部件的得到优化,所有的电极都要更换达到最佳的精度和准确度的状态。与其他系统比较,电极更换系统的有如下影响。
 
 


All numbers according to published manufacturer specification, individual deviations possible

为了减少往返寄送的行政工作,您可以额外订购一个离子选择电极作为刷新更替使用。

ammolyser

ammo::lyser pro

一款用于在线监测氨氮含量的多参数探头。这是一款测量稳定度和寿命都高于常规探头的分析仪。 温度、pH、钾离子的实时补偿,保证了氨氮数值的精度。

 

ammo::lyser II eco:监测 NH4-N 和温度
ammo::lyser III eco+pH:外加监测 pH 值
ammo::lyser III eco+NO3-N:外加监测 NO3-N
ammo::lyser III eco+Cl-:外加监测 chloride 氯化物
ammo::lyser IV eco+pH+NO3-N:外加监测 pH 值和 NO3-N
ammo::lyser VI eco+pH+Cl-:外加监测 pH 值和 chloride 氯化物

  • s::can 即插即测
  • 测量原理:ISE(离子选择性电极)- 具有钾离子补偿
  • 多参数探头
  • 长期稳定运行,出厂前已实行预校准
  • 使用压缩空气进行自动清洗
  • 独特性、技术上无可匹敌的、无孔/不泄露的参比电极,及其稳 定的pH 测量
  • 离子选择性电极的翻新- 使得维护更为简便
  • 可直接在介质中(现场)或通过流通管道(监测站)方便和快速地 安装和测量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
  • 可进行自动温度及钾离子补偿、pH补偿
  • 适用于地表水、地下水、饮用水和污水方面的应用
  • 最小的维护量
  • 离子膜的寿命: 对于 <1mg/l NH4-N 的应用:通常为6个月, 对于 >1mg/l NH4-N 的应用:通常为1到2年
加拿大原住民社区远程监测饮用水水质
加拿大原住民社区远程监测饮用水水质

在加拿大原住民社区,s::can的事件预报警系统能远程监测60个微型供水系统的饮用水水质情况。

了解更多
浙江尖山污水厂除氮项目提标改造SBR池污水连续在线监测
浙江尖山污水厂除氮项目提标改造SBR池污水连续在线监测

尖山污水厂对该厂区改造后的四个SBR池污水进行连续在线监测,以实时获取硝氮、氨氮、ORP值,更加准确了解硝化和反硝化反应过程,实现曝气及碳源投加的精确控制

了解更多
在全球污染最严重的河流进行水质监测
在全球污染最严重的河流进行水质监测

墨西哥的阿托亚克河是世界上受污染最严重的河流之一,其污染主要来源于工业污染,并且该污染一直持续。因此,首要任务是要找到污染的来源,才能保护河流和周边的居民。 了解更多

New standards for ammonium determination

The ammo::lyser can be mounted easily and quickly directly in the medium (in situ) or in a flow cell (monitoring station) and operated via s::can terminals and s::can software....

The ammo::lyser can be mounted easily and quickly directly in the medium (in situ) or in a flow cell (monitoring station) and operated via s::can terminals and s::can software. This s::can NH4 probe is ideal for applications in surface water (rivers, lakes), ground water and drinking water, and also for applications in waste water (influent, aeration tank, effluent). The plug and measure principle is at the core of all of s::can’s monitoring systems. Simple and quick installation and start-up, reliable results as soon as the instrument immerses into the water. This simplicity allows the users to work with s::can instruments without extensive training.
However, in addition to its technological advantages, the ammo::lyser is economically convincing. The robust ion-selective membrane typically reaches a service life of 6 months in applications with low NH4 -N concentrations (
Reference electrode
The ammo::lyser uses a high performance reference electrode. The clue about this electrode is that the entire outside surface is electrochemically active, it does not significantly drift, even when completely coated, and is therefore superior to conventional ones. Typical problems of conventional pH electrodes such as loss of performance by soiling of a small porous diaphragm or the danger of “bleeding” of the reference electrode are a matter of the past when using the ammo::lyser. Non-porous, non-leaking, stable potential even in extreme applications and no significant fouling, these are unsurpassed properties of the reference electrode, rendering the ammo::lyser unique.

Measuring precision
Ammonium measuring precision is ensured by temperature compensation as well as by optional pH and potassium determination. Thanks to the modular design, the ammo::lyser offers the flexibility to suit any application. The housing comprises four electrode slots, the first two of which are naturally used for the reference electrode and the ammonium electrode. The two other slots can be used arbitrarily for pH, nitrate, chloride or potassium compensation electrodes. Determination of pH is essential if this value is subject to fluctuations in the alkaline range, since pH has a direct effect on ammonium. Concurrent determination of potassium is necessary to compensate perturbations of ammonium determination if the potassium value is not stable in the application. Thus, the ammo::lyser is optimally equipped also for applications in the low concentration range (
Exchanging electrodes
Insertion or exchange of electrodes, respectively, is about as difficult as changing a light bulb. The design of the housing permits direct access to the electrodes which can be removed easily. This operation can also be performed in the field without any problems.

Housing
And the housing is yet another essential point why the ammo::lyser is different. The housing is made out of stainless steel and provides high stability against electromagnetic disturbances. The robust and resilient housing material permits use in industrial applications with aggressive liquids. The sophisticated design without any mobile components drastically reduces malfunctions and maintenance efforts.

Fouling
Thanks to the design of the probe, coarse contamination cannot hamper the measuring. And for all other contaminations, there is automatic rinsing with pressurized air for reliably removing particles or deposits on the electrodes. Automatic rinsing with pressurized air is successful even in untreated waste water. Thus manual cleaning is not necessary, further reducing maintenance efforts.

ISE refurbishment
Up to now, ion-elective electrodes with reduced performance due to ageing were maintained by replacing the ion-selective membranes and the internal electrolyte of the electrode. These manipulations caused some problems or risks in the field. With the s::can ISE refurbishment, the user does not have to exchange membranes or electrolytes any more, but the complete electrode. Simply send the aged ion-selective electrodes to s::can, and tightly quality controlled ISEs are sent back. The very simple and quick field exchange drastically reduces maintenance time and minimizes risk of damage. The benefits include shorter maintenance times on site as well as the lowest total cost of ownership.

ammo::lyser电极修复

以往, 对离子选择探头 (ISE)...

以往, 对离子选择探头 (ISE) 老化电极的可进行离子选择膜片和电解液的更换。在现场进行这样的操作可能会由于操作失误引起很多问题。s::can离子选择探头的刷新服务使用户无需自行更换膜片或电解液,而得到一个完整的电极。您只需要将老旧的离子选择电极寄给s::can,经过专业的修复更新后会得到刷新后的电极。这样就能简单快速的直接在现场更换,将以下操作会带来的隐患可能性降到最低: 
 
- 打开离子选择电极
- 电极混入杂物 
- 膜片更换 
- 电解液处理
 
这样的好处是减少了现场维修时间,能减少费用支出。这样的另一个好处是可以再用户到达是直接使用符合使用条件的电极,只需要用半小时进行校准,而过去更换膜片和电解液再校准则需要一个半小时。

更换电极可以使每个部件的得到优化,所有的电极都要更换达到最佳的精度和准确度的状态。与其他系统比较,电极更换系统的有如下影响。
 
 


All numbers according to published manufacturer specification, individual deviations possible

为了减少往返寄送的行政工作,您可以额外订购一个离子选择电极作为刷新更替使用。

chlodilyser

chlori::lyser

chlori::lyser是一款革命性的传感器,可以不受pH和流速的影响监测水中的余氯或总氯含量。内部的缓冲液可以使传感器在PH4到10以上的环境下进行工作,并且它的三电极保证了读数的稳定度。 即便是在pH、温度和流速变化很大的情况下,仍保持高敏感度。

 

chlori::lyser 监测余氯 (Cl2 + HOCl + OCl-)或总氯(余氯和游离氯)
 

  • s::can 即插即测
  • 测量原理:安培滴定法(离子膜)
  • 适用于饮用水
  • 长期稳定运行,低维护成本
  • 1 年只需更换一次离子膜
  • 读数在 pH 值、温度和流量波动很大的情况下保持稳定
  • 对 pH 值的波动进行精确补偿
  • pH值在4到10之间为FCl;pH值在4-12之间为TCl
  • 对众多表面活性剂的交叉灵敏度较低
  • 可通过使用 spectro::lyser™ 的读数对二氧化氯和臭氧的交 叉灵敏度进行补偿;
  • 工厂预校准
  • 在流通槽中进行安装和测量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
s::can sensors monitor Ganges river quality during world’s largest religious gathering
s::can sensors monitor Ganges river quality during world’s largest religious gathering

s::can’s stations monitor the quality of the water in the Ganges river in India. This results in a better understanding of the contamination of the river by local industry and protects the 了解更多

智能水质监测网络中重要的在线操作软件及硬件的介绍
智能水质监测网络中重要的在线操作软件及硬件的介绍

在西班牙的塔拉戈纳,s::can水质监测技术用于市政管网的自来水实时在线监测。水站对UV254、浊度、色度、TOC、DOC、余氯、电导率、pH和温度这8个参数进行监测,同时还配有基于紫外可见光光谱报警技术的事件预报警软件,可以将报警实时发送给EMATSA市政自来水公司。

了解更多
加拿大原住民社区远程监测饮用水水质
加拿大原住民社区远程监测饮用水水质

在加拿大原住民社区,s::can的事件预报警系统能远程监测60个微型供水系统的饮用水水质情况。

了解更多
chlori::lyser - why do we measure

When drinking water is disinfected through chlorination it is necessary to continuously control the actual free chlorine level. This is crucial in the first place to ensure efficient disinfection...

When drinking water is disinfected through chlorination it is necessary to continuously control the actual free chlorine level. This is crucial in the first place to ensure efficient disinfection and secondly to prevent regrowth of microorganisms in the finished water. For these two tasks it is necessary to carefully process control the level of free chlorine, also in order to prevent the concentration of harmful disinfection byproducts that can be formed in the presence of chlorine.

 

chlori::lyser - 怎样监测

...

chlori::lyser可以通过旁通安装监测余氯。由于所用的膜片采用安培法原理,所以介质的流速和pH值对其测量结果没有影响。另外,所集成的温度电极可以消除潜在干扰。

chlodilyser

chlodi::lyser

chlodi::lyser是一款安培法传感器,用于监测二氧化氯。可以适用于各种水体,即便pH、温度和流速波动很大,仍能保持稳定的读数。表面活性剂耐受性强,并且chlodi::lyser和余氯不交叉敏感。

 

  • s::can即插即测
  • 测量原理:安培滴定法(离子膜)
  • 各类水处理的理想选择
  • 长期稳定运行,低维护成本
  • 1 年只需更换一次离子膜
  • 读数在 pH 值、温度和流量波动很大的情况下仍保持稳定
  • 表面活性剂的耐受性强
  • 和余氯不交叉干扰
  • 工厂预校准
  • 在流通槽中进行安装和测量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
  • 还可监测温度

chlodilyser

hyper::lyser

hyper::lyser是一款全新的探头,用于监测过氧化氢。可以适用于各种水体,即便pH、温度和流速波动很大,仍能保持稳定的读数。表面活性剂耐受性强。

 

  • s::can即插即测
  • 测量原理:安培滴定法(离子膜)
  • 各类水处理的理想选择
  • 长期稳定运行,低维护成本
  • 1 年只需更换一次离子膜
  • 读数在 pH 值、温度和流量波动很大的情况下仍保持稳定
  • 表面活性剂的耐受性强
  • 工厂预校准
  • 在流通槽中进行安装和测量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
  • 还可监测温度

 

chlodilyser

peroxy::lyser

peroxy::lyser是一款安培法传感器,用于监测过氧乙酸。适用于各种水质,即便是在pH、温度和流速都波动很大的情况下,读数也很稳定。表面活性剂的耐受性强,peroxy::lyser不受高浓度过氧化氯的干扰。

 

  • s::can 即插即测
  • 测量原理:安培滴定法(离子膜)
  • 各类水处理的理想选择
  • 长期稳定运行,低维护成本
  • 1 年只需更换一次离子膜
  • 读数在 pH 值、温度和流量波动很大的情况下仍保持稳定
  • 表面活性剂的耐受性强
  • 和高浓度的过氧化氯不交叉干扰
  • 工厂预校准
  • 在流通槽中进行安装和测量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
  • 还能监测温度

 

condulyser

condu::lyser

condu::lyser是一款免维护、稳定性高的传感器,用于在线监测电导率及温度。可以直接安装在介质中,也可以采用旁通式安装。由于其测量范围很大,适用于各种水质。

 

  • s::can 即插即测
  •  condu::lyser测量原理: 4-电极、直接接触测量
  • 多参数传感器
  • 适用于地表水、地下水、饮用水和污水
  • condu::lyser 监测电导率、温度和盐度
  • 长期稳定运行,零维护
  • 温度、压力适应度高,测量范围广
  • 蒸汽消毒、抗压热器、可与现场清洁(CIP)结合
  • 出厂前预校准
  • 直接在介质(现场)或流通槽中进行安装和测量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
  • 两种版本可选:
     用于集成水站可插拔电缆线的传感器
    固定电缆的传感器
  • 可选配: 自动空气清洗
redolyser

redo::lyser

redo::lyser是一款长期稳定、维护量低的传感器,可以在线测量介质或流通管道内的氧化还原性。由于拥有突破性的参比电极,就可保证探头在任何介质甚至是极其恶劣的条件下都有很高的精度。它出厂前进行了预校准,可以直接使用。

 

redo::lyser eco 监测氧化还原电位和温度
redo::lyser pro: 更宽的温度量程

  • s::can 即插即测
  • 测量原理: 独特性、技术上无可匹敌的、无孔/不泄露的参比电 极,及其稳定的ORP测量
  • 多参数传感器
  • 适用于地表水、地下水、饮用水和污水
  • 长期稳定运行,零维护
  • 工厂预校准
  • 直接在介质(现场)或流通槽中进行安装和测量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
     
pHlyser

pH::lyser

饮用水的供应者可使用 pH::lyser 对以 pH 值的变化为特征 的化学和物理处理步骤(如中和、絮凝和源水的混合等)进行 连续过程监测和控制。并且,pH::lyser 可在用于监测源水水 质(地下和地表水)的水质安全预警系统中使用。

 

pH::lyser eco 监测 pH 值和温度
pH::lyser pro: 更宽的温度量程
 

  • s::can 即插即测
  • 测量原理: 独特性、技术上无可匹敌的、无孔/不泄露的参比电 极,及其稳定的pH 测量
  • 多参数传感器
  • 适用于地表水、地下水、饮用水和污水
  • 长期稳定运行,零维护
  • 工厂预校准
  • 直接在介质(现场)或流通槽中进行安装和测量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
  • 可选: 自动空气压缩清洗
     
s::can sensors monitor Ganges river quality during world’s largest religious gathering
s::can sensors monitor Ganges river quality during world’s largest religious gathering

s::can’s stations monitor the quality of the water in the Ganges river in India. This results in a better understanding of the contamination of the river by local industry and protects the 了解更多

加拿大原住民社区远程监测饮用水水质
加拿大原住民社区远程监测饮用水水质

在加拿大原住民社区,s::can的事件预报警系统能远程监测60个微型供水系统的饮用水水质情况。

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欢乐养渔! 在芬兰,多参数全光谱探头spectro::lysers对水产养殖再循环系统进行水质在线监测
欢乐养渔! 在芬兰,多参数全光谱探头spectro::lysers对水产养殖再循环系统进行水质在线监测

在劳卡(Laukaa)的芬兰自然资源研究所的养殖业循环水实验室里,奥地利是能公司s::can的在线监测系统正在对养殖水的水质进行实时在线监测。

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在全球污染最严重的河流进行水质监测
在全球污染最严重的河流进行水质监测

墨西哥的阿托亚克河是世界上受污染最严重的河流之一,其污染主要来源于工业污染,并且该污染一直持续。因此,首要任务是要找到污染的来源,才能保护河流和周边的居民。 了解更多

pH::lyser Benefits

"Why do we measure" Drinking water suppliers use the pH::lyser for the continuous process monitoring and control of chemical and physical treatment steps that are...

"Why do we measure"
Drinking water suppliers use the pH::lyser for the continuous process monitoring and control of chemical and physical treatment steps that are characterised by changes in pH, such as neutralisation, flocculation, mixing of source waters. Furthermore, the pH::lyser is applied in early warning systems that monitor source water quality, both in ground and surface water.

"How do we measure"
is a multi-parameter probe that measures the pH value and temperature directly in the water. The pH::lyser uses the temperature to correct the result of the pH measurement online. The non-porous, solid-state reference electrode ensures excellent pH readings and a long lifetime of the electrode.

ammolyser

fluor::lyser

fluoro::lyser 是s::can 离子选择性探头中的一种,可在线监测氟化物。供水公司可以用它为在饮用水加氟处理工艺进行连续监测和在线过程控制。

 

fluor::lyser 监测氟化物和温度

  • s::can 即插即测
  • 测量原理: ISE (离子选择性)
  • 无需典型饮用水应用中的交叉敏感度
  • 多参数探头
  • 长期稳定运行,出厂前已实行预校准
  • 使用压缩空气进行自动清洗
  • 可直接在介质中(现场)或通过流通管道(监测站)方便和快速地 安装和测量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
  • 适用于饮用水
  • 最小的维护量
f_solilyser_h460px

soli::lyser

soli::lyser是一种直接测量水中悬浮固体物浓度的光学探头。它使用温度测量来进行在线校正。使用红外吸收原理进行悬浮固体物SS测量,读数不会受到颜色的干扰。soli::lyser 采用了一个自动清洗系统,它使用压缩空气来将污物去除。

 

soli::lyser 监测TSS

  • s::can 即插即测
  • 测量原理:光学(红外吸收)
  • 适用于污水
  • 长期稳定运行,零维护
  • 工厂预校准(可用两个测量范围)
  • 使用压缩空气进行自动清洗
  • 直接在介质(现场)或流通槽中进行安装和测量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
  • 最小的维护量(无耗品)
  • 最为经济的传感器,拥有无法超越的成本优势
f_oxilyser_h460px

oxi::lyser

是一种光学多参数探头,可直接测量水中溶解氧浓度和温 度。oxi::lyser 没有最低流速要求,始终保持精确读数,可 通过温度测量进行在线校正。传感元件采用了用于溶解氧测量 的荧光淬灭原理,不受阳光直射影响,也不会被损坏。在正 常条件下,传感元件上的污垢不影响结果。不过,为了保证将 污染控制在最低程度,oxi::lyser 可通过压缩空气进行自动 清洗。oxi::lyser 不要任何更换的部件或消耗品。因此,在 正常操作情况下,根本不会有备品备件方面的费用产生。对于 oxi::lyser,我们保证在交货之后的三年内免费更换备件(需 出示保修卡)。

 

oxi::lyser II 监测溶解氧和温度

  • s::can 即插即测
  • 测量原理:光学/荧光
  • 多参数传感器
  • 适用于地表水、地下水、饮用水和污水
  • 长期稳定运行,零维护
  • 工厂预校准
  • 使用压缩空气进行自动清洗
  • 直接在介质(现场)或流通槽中进行安装和测量
  • 无需流量
  • 通过 s::can 终端控制器和 s::can 软件进行操作
  • 最小的维护量(无耗品)
     
欢乐养渔! 在芬兰,多参数全光谱探头spectro::lysers对水产养殖再循环系统进行水质在线监测
欢乐养渔! 在芬兰,多参数全光谱探头spectro::lysers对水产养殖再循环系统进行水质在线监测

在劳卡(Laukaa)的芬兰自然资源研究所的养殖业循环水实验室里,奥地利是能公司s::can的在线监测系统正在对养殖水的水质进行实时在线监测。

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连续预报警: 维护量极低的s::can传感器连续在线监测地下水水质
连续预报警: 维护量极低的s::can传感器连续在线监测地下水水质

许多国家都由于过量使用农药和化肥残留,面临着地下水水质日益恶化的严重危机。奥地利使用s::can产品实时在线监测地下水水质,对地下水污染采取及时防治措施。

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