Difference between revisions of "Scavenger"

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== Description ==
 
== Description ==
  
Any substance that actively absorbs or consumes unwanted impurities and pollutants in a system. For example, [[vapor%20phase%20corrosion%20inhibitor|vapor phase inhibitors]] are used to scavenge hydrogen sulfide before it can tarnish silver. See [[hydrogen%20sulfide%20scavenger|hydrogen sulfide scavenger]] and [[oxygen%20scavenger|oxygen scavenger]].
+
Any substance that actively absorbs or consumes unwanted impurities and pollutants in a system. For example, [[vapor%20phase%20corrosion%20inhibitor|vapor phase inhibitors]] are used to scavenge [[hydrogen sulfide]] before it can tarnish [[silver]].
 +
 
 +
Test results from Schieweck (2020) show that both under active and passive conditions (with/without forced air exchange), pure and impregnated activated carbons have the best adsorption efficiency for substances often detected in museum environments, such as emissions from construction and furnishing materials. However, even under under active conditions, charcoal cloths/foams and zeolites, often specially designed for museum purposes, showed a low adsorption efficiency and exhibit breakthrough after only a short time. Silica gels, often installed to buffer RH were not shown to be effective VOC sorbents.
 +
 
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See also [[hydrogen%20sulfide%20scavenger|hydrogen sulfide scavenger]], [[oxygen%20scavenger|oxygen scavenger]] and [[desiccant]].
 +
 
 +
Table for selected sorbents.
 +
{| class="wikitable"
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|-
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! Sorbent
 +
! Types
 +
! Form/Examples
 +
! Uses
 +
! Drawbacks
 +
|-
 +
| Pure  charcoal
 +
| * [[Activated carbon]], extra-fine  pores<br> * Activated carbon, high inner surface <br>* Granulated  activated carbon (GAC)
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| black powder, beads or pellets
 +
| A catchall sorbent that removes  small hydrocarbons, chlorine, nitrogen oxides, and VOCs (including organic  carbonyls); physically adsorbs on inner surface; used in HVAC systems to  filter gaseous pollutants; pore size determines sorption capacity
 +
| Difficult to determine when  exhausted; may be regenerated (by baking in high-temperature oven with vent)  or replaced; in some countries, used carbon is classified as a hazardous  waste material making disposal  costly;  when exposed to high humidity (rain), water or water vapor vapor can replace  organic compounds adsorbed within the pores of the carbon thus releasing VOCs  into the environment; small molecules not as effectively adsorped as large  molecules
 +
|-
 +
| Impregnated  charcoal
 +
| * GAC mixed with a base (NAOH,  KOH) <br> * GAC mixed with oxidizer (FeOH, KI, KMnO4) <br>* GAC  mixed with activated alumina impregnated with KOH or KMn04
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| black or gray irregular pellets
 +
| As above, removes hydrocarbons,  VOCs, and NO2 with additional removal of sulfur dioxide, hydrogen sulfide,  amines, and organic acids; permanganate is an indicator wthat is purple when  fresh and brown when spent.
 +
| Avoid direct contact with  impregnated materials; Can only be regenerated as activated carbon without  impregnated chemical(s)
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|-
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| Charcoal  cloth
 +
| * Activated carbon between two  layers of polyester non-woven cloth<br>* Composite carbon filter media  fabric<br>* Activated carbon felt, fiber structure<br>* Open-cell  polyurethane foam coated with activated carbon granules
 +
| soft fabric , pillow or shaped  filter ([ https://flexzorb.com/ Flexzorb])
 +
| Useful in microenvironments with  low-level emissions; eliminates same gases as activated charcoal; good  mitigation treatment for display cases and storage cabinets; easy to use;  durable; does not shed carbon particles
 +
| Small reserve of carbon to  adsorb pollutants; short longevity, thus requires frequent replacement;  cannot be regenerated.
 +
|-
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| [[Activated alumina]] with [[potassium permanganate]]
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| * Available in different pore  sizes
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| purple pellets ([https://www.purafil.com/ Purafil]); filters
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| Spherical, porous pellets remove gaseous pollutants from the air through chemisorption; harmful gases from the air into harmless materials that are irereversibly trapped inside the pellet; targets the removal of hydrogen sulfide (H2S), sulfur dioxide (SO2), nitric oxide (NO), and formaldehyde (CH2O).
 +
|
 +
|-
 +
| [[Molecular sieve|Molecular  sieves]] and [[Zeolite|Zeolites]]
 +
| * Available in different pore  sizes
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| white powder, sticks, granules
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| Naturally adsorbs water and  small volatile compounds; high sorption capacity;  selection of compounds is directly related  to pore size volume; may be regenerated with heat; best used for aliphatic  and aromatic hydrocarbons
 +
| Does not work well for polar materials, such as acids or amines; tends to be more expensive and difficult to obtain; are not as efficient as activated carbon.
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|-
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| [[Silica  gel]]
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| * Available with [[Lithium  chloride]] or [[Aluminum oxide|Al2O3]]
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| White powder or pellets, often in packages
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| Adsorb small amounts of VOCs;  best for polar molecules, such as alcohols and amines
 +
| Water molecules can replace  absorbed organics; degraded by acid compounds
 +
|-
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| Foam or  fabric embedded with [[silver]] or [[copper]]
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| cotton or polyester felted  acrylic cloth impregnated with finely ground silver or copper
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| ([[Corrosion Intercept]], [[Pacific Silvercloth]])
 +
| Reduces contaminants that can  tarnish metals (SO2, H2S and acids); acts as a sacrificial surface to rapidly  remove reduced sulfides before they can reach silver objects; cloth can be glued to drawers or cabinet  walls or ordered as bags to hold silver objects.
 +
| Limited lifetime, although the  cloth can be effective for several decades, depending on the environment  where the silver is stored.  Cannot be  regenerated.
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|-
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| Acid-free  cardboard embedded with zeolites
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|
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|
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| Acid-free, durable, absorbs and  neutralizes pollutants; best used for solvents and plasticizers
 +
| Cannot be regenerated.
 +
|-
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| Oxides
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| * [[Zinc oxide]] catalyst <br>  * Charcoal impregnated with oxides
 +
|
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| Oxides irreversibly capture  pollutants via reactions or chemisorption; designed to targed inorganic gases  (HCN, H2S, ammonia, acids, amines, phosphine and arsine)
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| Cannot be regenerated.
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|}
  
 
== Synonyms and Related Terms ==
 
== Synonyms and Related Terms ==
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getter; pollutant absorber; vapor phase corrosion inhibitor; activated charcoal; activated carbon; charcoal cloth;  
 
getter; pollutant absorber; vapor phase corrosion inhibitor; activated charcoal; activated carbon; charcoal cloth;  
  
Brand names: Purafilter; Pacific silvercloth; Ageless®; Scavengel [Art Preservation Services]
+
Brand names: Purafil; Puracarb; Pacific silvercloth; Ageless®; Scavengel [Art Preservation Services]
  
 
==Resources and Citations==
 
==Resources and Citations==
 +
* Schieweck, A. "Adsorbent media for the sustainable removal of organic air pollutants from museum display cases". Herit Sci 8, 12 (2020). [https://heritagesciencejournal.springeropen.com/articles/10.1186/s40494-020-0357-8#citeas Link]
 +
* Cecily Grzywacz, [https://www.getty.edu/publications/virtuallibrary/0892368519.html "Monitoring for Gaseous Pollutants in Museums"], Getty Publications, 2006.
 
* AIC Conservation Wiki: [https://www.conservation-wiki.com/wiki/Category:Exhibit_Technical_Notes Exhibit Technical Notes: Environmental Control]
 
* AIC Conservation Wiki: [https://www.conservation-wiki.com/wiki/Category:Exhibit_Technical_Notes Exhibit Technical Notes: Environmental Control]
 
* Exhibit Guidelines Technical Note: [https://www.conservation-wiki.com/wiki/Using_Pollutant_Absorbers_Inside_an_Exhibit_Case Using Pollutant Absorbers Inside an Exhibit Case]
 
* Exhibit Guidelines Technical Note: [https://www.conservation-wiki.com/wiki/Using_Pollutant_Absorbers_Inside_an_Exhibit_Case Using Pollutant Absorbers Inside an Exhibit Case]
 +
* Delaney P, Healy RM, Hanrahan JP, Gibson LT, Wenger JC, Morris MA, Holmes JD. "Porous silica spheres as indoor air pollutant scavengers", J Environ Monit. 2010 Dec; 12(12):2244-51. [https://pubs.rsc.org/en/content/articlelanding/2010/EM/c0em00226g Link]
 
* Richard S. Lewis, ''Hawley's Condensed Chemical Dictionary'', Van Nostrand Reinhold, New York, 10th ed., 1993
 
* Richard S. Lewis, ''Hawley's Condensed Chemical Dictionary'', Van Nostrand Reinhold, New York, 10th ed., 1993
 
* Pam Hatchfield, ''Pollutants in the Museum Environment'', Archetype Press, London, 2002
 
* Pam Hatchfield, ''Pollutants in the Museum Environment'', Archetype Press, London, 2002
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[[Category:Materials database]][[Category: MWG]][[Category: Climate/Environment]]
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[[Category:Materials database]][[Category: MWG]][[Category: Climate/Environment]][[Category: Comparisons]]

Latest revision as of 09:49, 6 November 2023

Description

Any substance that actively absorbs or consumes unwanted impurities and pollutants in a system. For example, vapor phase inhibitors are used to scavenge Hydrogen sulfide before it can tarnish Silver.

Test results from Schieweck (2020) show that both under active and passive conditions (with/without forced air exchange), pure and impregnated activated carbons have the best adsorption efficiency for substances often detected in museum environments, such as emissions from construction and furnishing materials. However, even under under active conditions, charcoal cloths/foams and zeolites, often specially designed for museum purposes, showed a low adsorption efficiency and exhibit breakthrough after only a short time. Silica gels, often installed to buffer RH were not shown to be effective VOC sorbents.

See also Hydrogen sulfide scavenger, Oxygen scavenger and Desiccant.

Table for selected sorbents.

Sorbent Types Form/Examples Uses Drawbacks
Pure charcoal * Activated carbon, extra-fine pores
* Activated carbon, high inner surface
* Granulated activated carbon (GAC)
black powder, beads or pellets A catchall sorbent that removes small hydrocarbons, chlorine, nitrogen oxides, and VOCs (including organic carbonyls); physically adsorbs on inner surface; used in HVAC systems to filter gaseous pollutants; pore size determines sorption capacity Difficult to determine when exhausted; may be regenerated (by baking in high-temperature oven with vent) or replaced; in some countries, used carbon is classified as a hazardous waste material making disposal costly; when exposed to high humidity (rain), water or water vapor vapor can replace organic compounds adsorbed within the pores of the carbon thus releasing VOCs into the environment; small molecules not as effectively adsorped as large molecules
Impregnated charcoal * GAC mixed with a base (NAOH, KOH)
* GAC mixed with oxidizer (FeOH, KI, KMnO4)
* GAC mixed with activated alumina impregnated with KOH or KMn04
black or gray irregular pellets As above, removes hydrocarbons, VOCs, and NO2 with additional removal of sulfur dioxide, hydrogen sulfide, amines, and organic acids; permanganate is an indicator wthat is purple when fresh and brown when spent. Avoid direct contact with impregnated materials; Can only be regenerated as activated carbon without impregnated chemical(s)
Charcoal cloth * Activated carbon between two layers of polyester non-woven cloth
* Composite carbon filter media fabric
* Activated carbon felt, fiber structure
* Open-cell polyurethane foam coated with activated carbon granules
soft fabric , pillow or shaped filter ([ https://flexzorb.com/ Flexzorb]) Useful in microenvironments with low-level emissions; eliminates same gases as activated charcoal; good mitigation treatment for display cases and storage cabinets; easy to use; durable; does not shed carbon particles Small reserve of carbon to adsorb pollutants; short longevity, thus requires frequent replacement; cannot be regenerated.
Activated alumina with Potassium permanganate * Available in different pore sizes purple pellets (Purafil); filters Spherical, porous pellets remove gaseous pollutants from the air through chemisorption; harmful gases from the air into harmless materials that are irereversibly trapped inside the pellet; targets the removal of hydrogen sulfide (H2S), sulfur dioxide (SO2), nitric oxide (NO), and formaldehyde (CH2O).
Molecular sieves and Zeolites * Available in different pore sizes white powder, sticks, granules Naturally adsorbs water and small volatile compounds; high sorption capacity; selection of compounds is directly related to pore size volume; may be regenerated with heat; best used for aliphatic and aromatic hydrocarbons Does not work well for polar materials, such as acids or amines; tends to be more expensive and difficult to obtain; are not as efficient as activated carbon.
Silica gel * Available with Lithium chloride or Al2O3 White powder or pellets, often in packages Adsorb small amounts of VOCs; best for polar molecules, such as alcohols and amines Water molecules can replace absorbed organics; degraded by acid compounds
Foam or fabric embedded with Silver or Copper cotton or polyester felted acrylic cloth impregnated with finely ground silver or copper (Corrosion Intercept, Pacific Silvercloth) Reduces contaminants that can tarnish metals (SO2, H2S and acids); acts as a sacrificial surface to rapidly remove reduced sulfides before they can reach silver objects; cloth can be glued to drawers or cabinet walls or ordered as bags to hold silver objects. Limited lifetime, although the cloth can be effective for several decades, depending on the environment where the silver is stored. Cannot be regenerated.
Acid-free cardboard embedded with zeolites Acid-free, durable, absorbs and neutralizes pollutants; best used for solvents and plasticizers Cannot be regenerated.
Oxides * Zinc oxide catalyst
* Charcoal impregnated with oxides
Oxides irreversibly capture pollutants via reactions or chemisorption; designed to targed inorganic gases (HCN, H2S, ammonia, acids, amines, phosphine and arsine) Cannot be regenerated.

Synonyms and Related Terms

getter; pollutant absorber; vapor phase corrosion inhibitor; activated charcoal; activated carbon; charcoal cloth;

Brand names: Purafil; Puracarb; Pacific silvercloth; Ageless®; Scavengel [Art Preservation Services]

Resources and Citations

  • Schieweck, A. "Adsorbent media for the sustainable removal of organic air pollutants from museum display cases". Herit Sci 8, 12 (2020). Link
  • Cecily Grzywacz, "Monitoring for Gaseous Pollutants in Museums", Getty Publications, 2006.
  • AIC Conservation Wiki: Exhibit Technical Notes: Environmental Control
  • Exhibit Guidelines Technical Note: Using Pollutant Absorbers Inside an Exhibit Case
  • Delaney P, Healy RM, Hanrahan JP, Gibson LT, Wenger JC, Morris MA, Holmes JD. "Porous silica spheres as indoor air pollutant scavengers", J Environ Monit. 2010 Dec; 12(12):2244-51. Link
  • Richard S. Lewis, Hawley's Condensed Chemical Dictionary, Van Nostrand Reinhold, New York, 10th ed., 1993
  • Pam Hatchfield, Pollutants in the Museum Environment, Archetype Press, London, 2002
  • Random House, Webster's Encyclopedic Unabridged Dictionary of the English Language, Grammercy Book, New York, 1997
  • The American Heritage Dictionary or Encarta, via Microsoft Bookshelf 98, Microsoft Corp., 1998