Many people interested in measuring various water quality parameters that are relevant to environ...
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| 40 | warren |
December 04, 2017 22:37
| almost 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties, and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Sensors, Loggers, EnclosuresOften, electronic environmental sensors are just one part of a system that includes:
Questions[questions:water-sensors] SensorsOften the first step is to look for a sensor for what you're hoping to measure. Below we're collecting info on different kinds of water quality sensors, and their:
See and edit the full spreadsheet here (See this list of sensors from the KnowFlow as well!) Are there others you're interested in? Please add them to the list here and to the linked Google Doc! (below are some not listed above yet)
[prompt:text:ie temperature] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 39 | warren |
December 04, 2017 22:36
| almost 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties, and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Sensors, Loggers, EnclosuresOften, electronic environmental sensors are just one part of a system that includes:
Questions[questions:water-sensors] SensorsOften the first step is to look for a sensor for what you're hoping to measure. Below we're collecting info on different kinds of water quality sensors, and their:
See and edit the full spreadsheet here (See this list of sensors from the KnowFlow as well!) Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 38 | warren |
December 04, 2017 21:42
| almost 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties, and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Sensors, Loggers, EnclosuresOften, electronic environmental sensors are just one part of a system that includes:
Questions[questions:water-sensors] SensorsOften the first step is to look for a sensor for what you're hoping to measure. Below we're collecting info on different kinds of water quality sensors, and their:
See and edit the full spreadsheet here (See this list of sensors from the KnowFlow as well!) Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 37 | warren |
December 04, 2017 18:59
| almost 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties, and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Sensors, Loggers, EnclosuresOften, electronic environmental sensors are just one part of a system that includes a data logger and some kind of water and weather-proof enclosure. Some resources posted on those pages may be relevant to water quality monitoring too. Below is a table with some examples of tools for water quality parameters. Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column E. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here (See this list of sensors from the KnowFlow as well!) Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 36 | stevie |
July 12, 2017 14:18
| over 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties, and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Sensors, Loggers, EnclosuresOften, electronic environmental sensors are just one part of a system that includes a data logger and some kind of water and weather-proof enclosure. Some resources posted on those pages may be relevant to water quality monitoring too. Below is a table with some examples of tools for water quality parameters. Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column E. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 35 | gretchengehrke |
July 05, 2017 15:11
| over 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties (see the Open Water page), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Sensors, Loggers, EnclosuresOften, electronic environmental sensors are just one part of a system that includes a data logger and some kind of water and weather-proof enclosure. Some resources posted on those pages may be relevant to water quality monitoring too. Below is a table with some examples of tools for water quality parameters. Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column E. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 34 | liz |
July 05, 2017 15:06
| over 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties (see the Open Water page), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Sensors, Loggers, EnclosuresOften, electronic environmental sensors are just one part of a system that includes a data logger and some kind of water and weather-proof enclosure. Some resources posted on those pages may be relevant to water quality monitoring too. Below is a table with some examples of tools for water quality parameters. Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 33 | gretchengehrke |
July 05, 2017 14:17
| over 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties (see the Open Water page), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Sensors, Loggers, EnclosuresOften, electronic environmental sensors are just one part of a system that includes a data logger and some kind of water and weather-proof enclosure. Some resources posted on those pages may be relevant to water quality monitoring too. Below is a table with some examples of tools for water quality parameters. Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 32 | warren |
July 03, 2017 18:06
| over 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties (see the Open Water page), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Sensors, Loggers, EnclosuresOften, electronic environmental sensors are just one part of a system that includes a data logger and some kind of water and weather-proof enclosure. Some resources as posted on those pages which may be relevant to water quality sensing too. Below is a table with some examples of tools for water quality parameters. Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 31 | warren |
July 03, 2017 16:39
| over 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties (see the Open Water page), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Below is a table with some examples of tools for water quality parameters. Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 30 | gretchengehrke |
July 03, 2017 15:25
| over 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties (see the Open Water page), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Below is a table with some examples of tools for water quality parameters. Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 29 | warren |
July 03, 2017 14:47
| over 7 years ago
Many people interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. Many have been working on low-cost, open-source sensors for water chemistry and physical properties (see the Open Water page), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Below is a table with some examples of tools for water quality parameters. Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 28 | warren |
July 03, 2017 14:33
| over 7 years ago
We are really interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. A lot of people have been working on developing low-cost, open-source sensors for water chemistry and physical properties (see https://publiclab.org/wiki/open-water), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Below is a table with some examples of tools for water quality parameters. Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 27 | warren |
July 03, 2017 14:33
| over 7 years ago
We are really interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. A lot of people have been working on developing low-cost, open-source sensors for water chemistry and physical properties (see https://publiclab.org/wiki/open-water), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Below is a table with some examples of tools for water quality parameters. Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
test [prompt:text:ie temperature] Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 26 | warren |
July 03, 2017 14:32
| over 7 years ago
We are really interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. A lot of people have been working on developing low-cost, open-source sensors for water chemistry and physical properties (see https://publiclab.org/wiki/open-water), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Below is a table with some examples of tools for water quality parameters. Are there others you're interested in? Please add them to the list here and to the linked Google Doc!
[prompt:text:ie temperature] Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please ask questions below or share your work using the tag "water-sensors" See and edit the full spreadsheet here Questions[questions:water-sensors] Analog methodsEven though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Hybrid approaches and enclosuresIn some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. |
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| 25 | warren |
July 03, 2017 14:26
| over 7 years ago
We are really interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. A lot of people have been working on developing low-cost, open-source sensors for water chemistry and physical properties (see https://publiclab.org/wiki/open-water), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Embedded here is a spreadsheet with a few example of different kinds of tools for the parameters listed below. Are there other parameters you are interested in measuring? If so, please add them to the list here and to the linked Google Doc! Parameters people have expressed interested in include: River:
Drinking Water
Even though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. In some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please post a research note (https://publiclab.org/post), ask a question (https://publiclab.org/questions) to join or start a discussion or project! See and edit the full spreadsheet here: https://docs.google.com/spreadsheets/d/1UwjRqU8kHTwEcnDdO2Zxkr8zkFkaGfyePJ-cdnxJzw0/edit?usp=sharing |
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| 24 | shanlter |
July 03, 2017 07:29
| over 7 years ago
We are really interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. A lot of people have been working on developing low-cost, open-source sensors for water chemistry and physical properties (see https://publiclab.org/wiki/open-water), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Embedded here is a spreadsheet with a few example of different kinds of tools for the parameters listed below. Are there other parameters you are interested in measuring? If so, please add them to the list here and to the linked Google Doc! Parameters people have expressed interested in include: River - flow rate - temperature - depth/pressure - Transparency - colorimetry - dissolved oxygen - temperature - ammonia/ammonium - oxidation-reduction potential - ORP - COD - Phosphate - conductivity/salinity - turbidity/TSS Drinking Water - pH - TDS - Hardness - Lead - COD - turbidity/TSS - nitrate - bacteria - Fluoride Even though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. In some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please post a research note (https://publiclab.org/post), ask a question (https://publiclab.org/questions) to join or start a discussion or project! See and edit the full spreadsheet here: https://docs.google.com/spreadsheets/d/1UwjRqU8kHTwEcnDdO2Zxkr8zkFkaGfyePJ-cdnxJzw0/edit?usp=sharing |
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| 23 | gretchengehrke |
July 01, 2017 00:17
| over 7 years ago
We are really interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. A lot of people have been working on developing low-cost, open-source sensors for water chemistry and physical properties (see https://publiclab.org/wiki/open-water), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Embedded here is a spreadsheet with a few example of different kinds of tools for the parameters listed below. Are there other parameters you are interested in measuring? If so, please add them to the list here and to the linked Google Doc! Parameters people have expressed interested in include:
Even though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. In some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please post a research note (https://publiclab.org/post), ask a question (https://publiclab.org/questions) to join or start a discussion or project! See and edit the full spreadsheet here: https://docs.google.com/spreadsheets/d/1UwjRqU8kHTwEcnDdO2Zxkr8zkFkaGfyePJ-cdnxJzw0/edit?usp=sharing |
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| 22 | gretchengehrke |
June 30, 2017 21:50
| over 7 years ago
We are really interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. A lot of people have been working on developing low-cost, open-source sensors for water chemistry and physical properties (see https://publiclab.org/wiki/open-water), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Embedded here is a spreadsheet with a few example of different kinds of tools for the parameters listed below. Are there other parameters you are interested in measuring? If so, please add them to the list here and to the linked Google Doc! Parameters people have expressed interested in include:
Even though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. In some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please post a research note (https://publiclab.org/post), ask a question (https://publiclab.org/questions) to join or start a discussion or project! See and edit the full spreadsheet here: https://docs.google.com/spreadsheets/d/1UwjRqU8kHTwEcnDdO2Zxkr8zkFkaGfyePJ-cdnxJzw0/edit?usp=sharing |
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| 21 | gretchengehrke |
June 30, 2017 21:44
| over 7 years ago
We are really interested in measuring various water quality parameters that are relevant to environmental health in low-cost and accessible ways. A lot of people have been working on developing low-cost, open-source sensors for water chemistry and physical properties (see https://publiclab.org/wiki/open-water), and there are also several commercially available water sensors and analog tools that can measure relevant water quality parameters. Embedded here is a spreadsheet with a few example of different kinds of tools for the parameters listed below. Are there other parameters you are interested in measuring? If so, please add them to the list here and to the linked Google Doc! Parameters people have expressed interested in include:
Even though this wiki page is labeled "water sensors," the most accessible modes of measuring water quality parameters are often analog, non-digital methods where you directly observe water (e.g. using a secchi disk to assess turbidity) or collect a sample and test it with a visual method (e.g. color-change pH strips). Several analog tools are included in the spreadsheet, and please add more! Most of the sensors listed in the spreadsheet are probes that require you to physically be present at the body of water such that you can hold the probe in the water. A few others are sensors that can be deployed for longer periods of time without supervision, either with a remote data upload or an in-sensor data logger that can be retrieved every couple of weeks. The type of sensor -- a probe, a deployable sensor, or a tool requiring sample collection -- is listed in column C. In some cases, it may be possible to couple a commercially available probe sensor with a DIY data logger (such as the Riffle, https://publiclab.org/riffle) and an water-tight enclosure to create a lower-cost deployable sensor. Deployable sensors can be extremely useful for long-term monitoring, monitoring in places that are difficult to access frequently, or to document fluctuations in water chemistry with greater temporal resolution. If you have any interest in working on different components of these sorts of tools -- sensors, data loggers, or enclosures -- please post a research note (https://publiclab.org/post), ask a question (https://publiclab.org/questions) to join or start a discussion or project! https://docs.google.com/spreadsheets/d/1UwjRqU8kHTwEcnDdO2Zxkr8zkFkaGfyePJ-cdnxJzw0/edit?usp=sharing |
Revert |