Revisions for Hydrogen Sulfide Copper Pipe Testing
| 12 CURRENT | stevie |
April 12, 2018 17:29
| over 6 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a purple-black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Consider collaborating on this project to help assess it! Public Lab's Kits Initiative is releasing this as a Prototyping Kit -- now available for sale in our Public Lab Store!
Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, there are many questions yet to answer! More questions include: [questions:h2s-copper-pipe] ActivitiesDesigning a field-based environmental study that uses this method would follow the general principles described in: https://publiclab.org/wiki/general-environmental-monitoring-study-strategies. However, since the copper sheets will be exposed for several days in the field, the temporal resolution would, of course, only be as fine as several days, during which industrial activities and environmental conditions could change. The general principles still do apply. Activities people have designed using this method include: [activities:h2s-copper-pipe] BackgroundSee background research related to this method here: [notes:h2s-copper-pipe-background] All notes related to hydrogen sulfide sensing:[notes:hydrogen-sulfide] |
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| 11 | warren |
March 28, 2018 19:26
| over 6 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a purple-black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Consider collaborating on this project to help assess it! Public Lab's Kits Initiative is releasing this as a Prototyping Kit -- now available for sale in our Public Lab Store!
Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, there are many questions yet to answer! More questions include: [questions:h2s-copper-pipe] ActivitiesDesigning a field-based environmental study that uses this method would follow the general principles described in: https://publiclab.org/wiki/general-environmental-monitoring-study-strategies. However, since the copper sheets will be exposed for several days in the field, the temporal resolution would, of course, only be as fine as several days, during which industrial activities and environmental conditions could change. The general principles still do apply. Activities people have designed using this method include: [activities:h2s-copper-pipe] BackgroundSee background research related to this method here: [notes:h2s-copper-pipe-background] |
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| 10 | asnow |
March 23, 2018 13:13
| over 6 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a purple-black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Consider collaborating on this project to help assess it! Public Lab's Kits Initiative is releasing this as a Prototyping Kit -- now available for sale in our Public Lab Store! Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, there are many questions yet to answer! More questions include: [questions:h2s-copper-pipe] ActivitiesDesigning a field-based environmental study that uses this method would follow the general principles described in: https://publiclab.org/wiki/general-environmental-monitoring-study-strategies. However, since the copper sheets will be exposed for several days in the field, the temporal resolution would, of course, only be as fine as several days, during which industrial activities and environmental conditions could change. The general principles still do apply. Activities people have designed using this method include: [activities:h2s-copper-pipe] BackgroundSee background research related to this method here: [notes:h2s-copper-pipe-background] |
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| 9 | warren |
March 09, 2018 21:10
| over 6 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a purple-black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Consider collaborating on this project to help assess it! Public Lab's Kits Initiative is releasing this as a Prototyping Kit -- look for them in the Public Lab Store soon, and help refine this technique! Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, there are many questions yet to answer! More questions include: [questions:h2s-copper-pipe] ActivitiesDesigning a field-based environmental study that uses this method would follow the general principles described in: https://publiclab.org/wiki/general-environmental-monitoring-study-strategies. However, since the copper sheets will be exposed for several days in the field, the temporal resolution would, of course, only be as fine as several days, during which industrial activities and environmental conditions could change. The general principles still do apply. Activities people have designed using this method include: [activities:h2s-copper-pipe] BackgroundSee background research related to this method here: [notes:h2s-copper-pipe-background] |
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| 8 | gretchengehrke |
January 12, 2018 03:15
| almost 7 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a purple-black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Consider collaborating on this project to help assess it! Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, there are many questions yet to answer! More questions include: [questions:h2s-copper-pipe] ActivitiesDesigning a field-based environmental study that uses this method would follow the general principles described in: https://publiclab.org/wiki/general-environmental-monitoring-study-strategies. However, since the copper sheets will be exposed for several days in the field, the temporal resolution would, of course, only be as fine as several days, during which industrial activities and environmental conditions could change. The general principles still do apply. Activities people have designed using this method include: [activities:h2s-copper-pipe] BackgroundSee background research related to this method here: [notes:h2s-copper-pipe-background] |
Revert | |
| 7 | gretchengehrke |
January 12, 2018 03:09
| almost 7 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a purple-black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Consider collaborating on this project to help assess it! Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, there are many questions yet to answer! More questions include: [questions:h2s-copper-pipe] ActivitiesActivities people have designed using this method include: [activities:h2s-copper-pipe] BackgroundSee background research related to this method here: [notes:h2s-copper-pipe-background] |
Revert | |
| 6 | warren |
November 28, 2017 22:21
| almost 7 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, the questions are: [questions:h2s-copper-pipe] ActivitiesActivities people have designed using this method include: [activities:h2s-copper-pipe] BackgroundSee background research related to this method here: [notes:h2s-copper-pipe-background] |
Revert | |
| 5 | warren |
November 28, 2017 22:17
| almost 7 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, the questions are: [questions:h2s-copper-pipe] ActivitiesActivities people have designed using this method include: [activities:h2s-copper-pipe] ResearchSee research related to this method here: [notes:h2s-copper-pipe] |
Revert | |
| 4 | warren |
November 28, 2017 22:17
| almost 7 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, the questions are: [questions:h2s-copper-pipe] ActivitiesActivities people have designed using this method include: [activities:h2s-copper-pipe] ResearchSee research related to this method here: [notes:h2s-copper-pipe] |
Revert | |
| 3 | stevie |
November 08, 2017 23:15
| about 7 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, the questions are:
Other questions people have had when using this method include: [questions:h2s-copper-pipe] ActivitiesActivities people have designed using this method include: [activities:h2s-copper-pipe] ResearchSee research related to this method here: [notes:h2s-copper-pipe] |
Revert | |
| 2 | gretchengehrke |
November 02, 2017 20:24
| about 7 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, the questions are:
Other questions people have had when using this method include: [questions:h2s-copper-pipe] ActivitiesActivities people have designed using this method include: [activities:h2s-copper-pipe] ResearchSee research related to this method here: [tags:h2s-copper-pipe] |
Revert | |
| 1 | gretchengehrke |
October 19, 2017 19:59
| about 7 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, the questions are:
Other questions people have had when using this method include: [questions:h2s-copper-pipe] ActivitiesActivities people have designed using this method include: [activities:h2s-copper-pipe] ResearchSee research related to this method here: [tag:h2s-copper-pipe] |
Revert | |
| 0 | gretchengehrke |
October 19, 2017 19:58
| about 7 years ago
This method, developed by Lionel Milberger, is a low-cost, accessible way to detect if hydrogen sulfide is present in the air. The elemental copper will react with hydrogen sulfide to produce a black-ish copper sulfide product, visible on the surface of the copper rod. This method has not been quantified or validated yet. Design goalsAs Lionel Milberger has written in an article in TEST Magazine, the goals of this method are to:
QuestionsThis method has not yet been quantified or validated. Mr. Milberger has observed black deposits (likely copper sulfide) forming under conditions where it is likely that hydrogen sulfide is present (near an oil field by his Texas home), and a reddish deposit (likely copper oxide) under other conditions. The lower concentration limit of this method, below which no visible copper sulfide would form, are not yet known. The rates of reaction between the copper rod and atmospheric hydrogen sulfide also are not known, nor are the influence of humidity or rain, or the relative rate of copper oxide formation. Thus, the questions are:
Other questions people have had when using this method include: [questions:h2s-copper-pipe] ActivitiesActivities people have designed using this method include: [activities:h2s-copper-pipe] ResearchSee research related to this method here: [tag:h2s-copper-pipe] |
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