Difference between revisions of "Pollutant"

From CAMEO
Jump to navigation Jump to search
 
(8 intermediate revisions by the same user not shown)
Line 1: Line 1:
 
== Description ==
 
== Description ==
  
A gaseous, [[aerosol|aerosol]], or [[particulate|particulate]] contaminant. Pollutants are generated by natural and man-made sources, such as decomposition, abrasion, or combustion. Pollutants may be damaging or toxic to the environment, people, and materials. Currently the pollutants with the highest outdoor concentrations generally occur in big cities ([[nitrogen%20oxides|nitrogen oxides]], [[hydrocarbon|hydrocarbons]], [[ozone|ozone]], [[carbon%20monoxide|carbon monoxide]], [[particulate|particulates]]) or near smoke stacks ([[sulfur%20dioxide|sulfur dioxide]], nitrogen oxides). Very dense ([[haze|haze]], or combination of smoke and fog, is called smog. Indoor air pollutants ([[organic%20acid|organic acids]], [[aldehyde|aldehydes]], hydrocarbons, ozone, particulates, etc) are emitted from construction materials (wood, insulation, carpets, paints), office machines (copiers, printers) or are transported inside from the outdoor environment. The concentration of air pollutants may be decreased by minimizing sources or by reacting or absorbing the pollutants from the air. Once inside a museum, pollutants can deposit and interact deleteriously with museum materials.  [[Scavenger|Scavengers]] are used to minimize the concentration of air pollutants in contained spaces.
+
An [[aerosol|aerosol]], or [[particulate|particulate]] contaminant. Pollutants are generated by natural and man-made sources, such as decomposition, abrasion, or combustion. Pollutants may be damaging or toxic to the environment, people, and materials. Currently the pollutants with the highest outdoor concentrations generally occur in big cities ([[nitrogen%20oxides|nitrogen oxides]], [[hydrocarbon|hydrocarbons]], [[ozone|ozone]], [[carbon%20monoxide|carbon monoxide]], [[particulate|particulates]]) or near smoke stacks ([[sulfur%20dioxide|sulfur dioxide]], nitrogen oxides). Very dense [[haze|haze]], or combination of smoke and fog, is called smog. Indoor air pollutants ([[organic%20acid|organic acids]], [[aldehyde|aldehydes]], hydrocarbons, ozone, particulates, etc) are emitted from construction materials (wood, insulation, carpets, paints), office machines (copiers, printers) or are transported inside from the outdoor environment. Once inside a museum, pollutants can deposit and interact deleteriously with museum materials. The concentration of air pollutants may be decreased by minimizing sources or by reacting or absorbing the pollutants from the air. [[Scavenger|Scavengers]] provide one method to minimize the concentration of air pollutants in contained spaces.
 
 
TABLE
 
  
 +
Comparison table of aerosol pollutants information from Canosa and Norrehed (2019) and Jean Tétreault (2011).
 
{| class="wikitable"  
 
{| class="wikitable"  
 
|-
 
|-
 
! Pollutant
 
! Pollutant
 
! Sources
 
! Sources
! Collection Rsks
+
! Collection Risks
 +
|-
 +
| Acetaldehyde;  acetic acid
 +
| Fuel combustion; wood  (especially oak, cedar, etc.) and wood products, biological processes, PVC  flooring, laminated materials, paints, adhesives, sealants, tobacco smoke,  cellulose acetate decomposition; acetaldehyde is a precursor of acetic acid
 +
| Metal corrosion, reaction with  calcareous materials, cellulose and protein embrittlement, degradation of  soda-rich glass, enamels, and pigments; acidification of paper
 +
|-
 +
| Formaldehyde;  formic acid
 +
| Fuel combustion, wood and wood  products, resins, oil-based paints, natural history specimens, fiberglass,  photocopiers, textiles, construction materials,  PVC carpeting, laminates, tobacco smoke,  gas ovens, adhesives, sealants;  formaldehyde is a precursor of formic acid
 +
| Metal corrosion, reaction with  calcareous materials, cellulose and, protein embrittlement, discoloration of  dyes, pigments, and textiles; acidification of paper
 
|-
 
|-
| Sulfur  dioxide; sulfuric acid
+
| Ammonia
| Fuel combustion, pulp and paper  production, biological activity, pyrite oxidation, vulcanized rubber,   proteinaceous materials inside enclosures
+
| Latex paints, cleaning products, food preparation, HVAC systems, people, concrete, biomaterial degradation, fertilizers
| Metal corrosion, dye fading,  cellulose embrittlement, photograph deterioration, leather “red-rot”, pigment  darkening, reaction with calcareous materials
+
| Crystal growth on cellulose nitrate objects, yellowing of linseed oil; corrosion of copper alloys
 
|-
 
|-
 
| Ozone
 
| Ozone
 
| Smog, photocopiers, laser  printers, electrostatic particle filters; UV light sources, arc welders
 
| Smog, photocopiers, laser  printers, electrostatic particle filters; UV light sources, arc welders
 
| Rubber, cellulose and protein  embrittlement, dye, ink and pigment discoloration, photograph and book  deterioration
 
| Rubber, cellulose and protein  embrittlement, dye, ink and pigment discoloration, photograph and book  deterioration
 +
|-
 +
| Peroxides
 +
| Secondary product from polymerization of alkyds, drying oil, urethanes, epoxies such as found in some adhesives and paints
 +
| Cellulose degradation, black spotting on photographs, oxidation of proteins (leather and wool), discoloration or bleaching
 
|-
 
|-
 
| Nitrogen  oxides; nitric acid
 
| Nitrogen  oxides; nitric acid
Line 23: Line 34:
 
| Cellulose and protein  embrittlement, dye, ink and pigment discoloration, photographic film  deterioration
 
| Cellulose and protein  embrittlement, dye, ink and pigment discoloration, photographic film  deterioration
 
|-
 
|-
 +
| Sulfur  dioxide; sulfuric acid
 +
| Fuel combustion, pulp and paper  production, biological activity, pyrite oxidation, vulcanized rubber,  proteinaceous materials inside enclosures
 +
| Metal corrosion, dye fading,  cellulose embrittlement, photograph deterioration, leather red-rot, pigment  darkening, reaction with calcareous materials
 +
|-
 
| Sulfides;  hydrogen sulfide
 
| Sulfides;  hydrogen sulfide
 
| Fuel combustion, humans, natural  gas,  marshes, volcanoes, wool, silk,  felt, furs, vulcanized rubber, waterlogged archaeological organic materials,  pyrite collections
 
| Fuel combustion, humans, natural  gas,  marshes, volcanoes, wool, silk,  felt, furs, vulcanized rubber, waterlogged archaeological organic materials,  pyrite collections
| Metal corrosion, photograph  ”silver mirroring” and redox spots, leather ”redrot”, lead pigment darkening,  stone deterioration; paper and fabric discoloration
+
| Metal corrosion, photograph  silver mirroring and redox spots, leather red-rot, lead pigment darkening,  stone deterioration; paper and fabric discoloration
|-
 
| Acetaldehyde;  acetic acid
 
| Fuel combustion; wood  (especially oak, cedar, etc.) and wood products, biological processes, PVC  flooring, laminated materials, paints, adhesives, sealants, tobacco smoke,  cellulose acetate decomposition; acetaldehyde is a precursor of acetic acid
 
| Metal corrosion, reaction with  calcareous materials, cellulose and protein embrittlement, degradation of  soda-rich glass, enamels, and pigments; acidification of paper
 
|-
 
| Formaldehyde;  formic acid
 
| Fuel combustion, wood and wood  products, resins, oil-based paints, natural history specimens, fiberglass,  photocopiers, textiles, construction materials,  PVC carpeting, laminates, tobacco smoke,  gas ovens, adhesives, sealants;  formaldehyde is a precursor of formic acid
 
| Metal corrosion, reaction with  calcareous materials, cellulose and, protein embrittlement, discoloration of  dyes, pigments, and textiles; acidification of paper
 
 
|-
 
|-
 
| Particulates
 
| Particulates
Line 43: Line 50:
 
| Can produce both physical and  chemical deterioration; fluctuations can damage wood products; hydrolysis of  cellulosic materials including cellulose acetate and cellulose nitrate;  objects with salts, gelatin, natural varnish are susceptible; causes oxides  to convert to acids
 
| Can produce both physical and  chemical deterioration; fluctuations can damage wood products; hydrolysis of  cellulosic materials including cellulose acetate and cellulose nitrate;  objects with salts, gelatin, natural varnish are susceptible; causes oxides  to convert to acids
 
|}
 
|}
 
  
 
== Synonyms and Related Terms ==
 
== Synonyms and Related Terms ==
Line 50: Line 56:
  
 
==Resources and Citations==
 
==Resources and Citations==
 +
* Jean Tétreault, "Sustainable Use of Coatings in Museums and Archives" Canadian Conservation Institute, 2011 [ https://www.morana-rtd.com/e-preservationscience/2011/Tetreault-05-01-2011.pdf Link]
 
* 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/Monitoring_Pollutants_Inside_an_Exhibit_Case Monitoring Pollutants Inside an Exhibit Case]
 
* Exhibit Guidelines Technical Note: [https://www.conservation-wiki.com/wiki/Monitoring_Pollutants_Inside_an_Exhibit_Case Monitoring Pollutants 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]
 
* Exhibit Guidelines Technical Note: [https://www.conservation-wiki.com/wiki/Using_Pollutant_Absorbers_Inside_an_Exhibit_Case Using Pollutant Absorbers Inside an Exhibit Case]
 
* Jean Tétreault, Airborne Pollutants in Museums, Galleries and Archives: Risk Assessment, Control Strategies and Preservation Management. Ottawa, Canada: Canadian Conservation Institute, 2003.
 
* Jean Tétreault, Airborne Pollutants in Museums, Galleries and Archives: Risk Assessment, Control Strategies and Preservation Management. Ottawa, Canada: Canadian Conservation Institute, 2003.
* Cecily Grzywacz, Tools for Conservation: Monitoring for Gaseous Pollutants in Museum Environments. Los Angeles: Getty Publications. 2006.
+
* Cecily Grzywacz, Tools for Conservation: [https://www.getty.edu/publications/virtuallibrary/0892368519.html Monitoring for Gaseous Pollutants in Museum Environments]. Los Angeles: Getty Publications. 2006.
 
* Elyse Canosa & Sara Norrehed; Strategies for Pollutant Monitoring in Museum Environments, Swedish National Heritage Board, 2019. [https://www.diva-portal.org/smash/get/diva2:1324224/FULLTEXT01.pdf Link]
 
* Elyse Canosa & Sara Norrehed; Strategies for Pollutant Monitoring in Museum Environments, Swedish National Heritage Board, 2019. [https://www.diva-portal.org/smash/get/diva2:1324224/FULLTEXT01.pdf Link]
 
* Jean Tétreault, Agent of Deterioration: Pollutants [https://www.canada.ca/en/conservation-institute/services/agents-deterioration/pollutants.html#pollu2 Airborne Pollutants]
 
* Jean Tétreault, Agent of Deterioration: Pollutants [https://www.canada.ca/en/conservation-institute/services/agents-deterioration/pollutants.html#pollu2 Airborne Pollutants]
Line 63: Line 70:
  
  
[[Category:Materials database]][[Category: MWG]][[Category: Climate/Environment]]
+
[[Category:Materials database]][[Category: MWG]][[Category: Climate/Environment]][[Category: Comparisons]]

Latest revision as of 08:42, 9 October 2024

Description

An Aerosol, or Particulate contaminant. Pollutants are generated by natural and man-made sources, such as decomposition, abrasion, or combustion. Pollutants may be damaging or toxic to the environment, people, and materials. Currently the pollutants with the highest outdoor concentrations generally occur in big cities (Nitrogen oxides, hydrocarbons, Ozone, Carbon monoxide, particulates) or near smoke stacks (Sulfur dioxide, nitrogen oxides). Very dense Haze, or combination of smoke and fog, is called smog. Indoor air pollutants (organic acids, aldehydes, hydrocarbons, ozone, particulates, etc) are emitted from construction materials (wood, insulation, carpets, paints), office machines (copiers, printers) or are transported inside from the outdoor environment. Once inside a museum, pollutants can deposit and interact deleteriously with museum materials. The concentration of air pollutants may be decreased by minimizing sources or by reacting or absorbing the pollutants from the air. Scavengers provide one method to minimize the concentration of air pollutants in contained spaces.

Comparison table of aerosol pollutants information from Canosa and Norrehed (2019) and Jean Tétreault (2011).

Pollutant Sources Collection Risks
Acetaldehyde; acetic acid Fuel combustion; wood (especially oak, cedar, etc.) and wood products, biological processes, PVC flooring, laminated materials, paints, adhesives, sealants, tobacco smoke, cellulose acetate decomposition; acetaldehyde is a precursor of acetic acid Metal corrosion, reaction with calcareous materials, cellulose and protein embrittlement, degradation of soda-rich glass, enamels, and pigments; acidification of paper
Formaldehyde; formic acid Fuel combustion, wood and wood products, resins, oil-based paints, natural history specimens, fiberglass, photocopiers, textiles, construction materials, PVC carpeting, laminates, tobacco smoke, gas ovens, adhesives, sealants; formaldehyde is a precursor of formic acid Metal corrosion, reaction with calcareous materials, cellulose and, protein embrittlement, discoloration of dyes, pigments, and textiles; acidification of paper
Ammonia Latex paints, cleaning products, food preparation, HVAC systems, people, concrete, biomaterial degradation, fertilizers Crystal growth on cellulose nitrate objects, yellowing of linseed oil; corrosion of copper alloys
Ozone Smog, photocopiers, laser printers, electrostatic particle filters; UV light sources, arc welders Rubber, cellulose and protein embrittlement, dye, ink and pigment discoloration, photograph and book deterioration
Peroxides Secondary product from polymerization of alkyds, drying oil, urethanes, epoxies such as found in some adhesives and paints Cellulose degradation, black spotting on photographs, oxidation of proteins (leather and wool), discoloration or bleaching
Nitrogen oxides; nitric acid Biological processes, fuel combustion, cellulose nitrate decomposition, tobacco smoke, photocopiers Cellulose and protein embrittlement, dye, ink and pigment discoloration, photographic film deterioration
Sulfur dioxide; sulfuric acid Fuel combustion, pulp and paper production, biological activity, pyrite oxidation, vulcanized rubber, proteinaceous materials inside enclosures Metal corrosion, dye fading, cellulose embrittlement, photograph deterioration, leather red-rot, pigment darkening, reaction with calcareous materials
Sulfides; hydrogen sulfide Fuel combustion, humans, natural gas, marshes, volcanoes, wool, silk, felt, furs, vulcanized rubber, waterlogged archaeological organic materials, pyrite collections Metal corrosion, photograph silver mirroring and redox spots, leather red-rot, lead pigment darkening, stone deterioration; paper and fabric discoloration
Particulates Combustion residues (soot, smog, smoke, flyash), construction (roads, buildings, vehicles), humans (proteins), fibers (lint), biological specimens (spores, pollen), soil (dust, salt) Some objects are difficult to clean (feathers, minerals, microcracks, sticky objects, etc.); Dust can cause disfiguration of objects, attract pests, and scratch soft surfaces by friction.
Water vapor Water vapor from visitors, water-based paints, and adhesives, wet cleaning activities and outdoor environment; Can produce both physical and chemical deterioration; fluctuations can damage wood products; hydrolysis of cellulosic materials including cellulose acetate and cellulose nitrate; objects with salts, gelatin, natural varnish are susceptible; causes oxides to convert to acids

Synonyms and Related Terms

pollutants; air pollutants; pollution

Resources and Citations