Environmental Systems for Art Storage

Environmental Systems for Art Storage and Transportation ENGI/HUMA 240 Matthew Wettergreen, PhD

Conservation’s history of Climate Control Duncan Cameron’s prescription for the ideal museum environment (Museum News, (46)9:17-22, 1968) The perfect preservation of a collection requires: Site on high land Fire-proof Vibration-free structure Protection against shock and sound waves Elaborate emergency backup control system Constant temperature (60-68F) Constant relative humidity (50-60%) Pollution free air Total darkness Absence of all organisms

Protection Environmental Systems Prevention Monitoring

Prevention Water Damage Roofs flood: storage away from top floor Basements flood: storage away from basement Fire Damage Fire resistant materials Sprinkler systems Loss Security systems

Protection Temperature Constant No extremes Light Low light No windows in storage facilities Water Raised platforms Humidity (RH) Constant No extremes Fire Fire retardant storage materials Sprinkler system Particulates High-efficiency filter

Inanimate vs. Animate Needs Stable RH 68-75 F High light Low Light Loosely regulated RH Low Temp

Monitoring Passively/Actively reports on conditions in storage system Enables staff to develop strategies for cost reduction due to energy costs Assist facilities staff in responding to human comfort Provides information to increase short and long-term preservation Aids in assessing environmental control

Types of T/RH Monitoring Equipment Nonrecording devices Paper strips impregnated with chemical salts for RH Mechanical devices measuring the expansion/contraction of a metallic strip Mechnaical devices that measure the expansion/contraction of a hygroscopic element Electronic devices that store and recall min/max values Recording devices Graphic devices (include pic of hygroscopic device) Thermostats Humidistats New Technologies for Monitoring Wireless, computer controlled

Types of T/RH Monitoring Equipment

T/RH Calibration Low cost devices require calibration Accuracy Repeatability Actual devices do not measure humidity, they measure deviation from a set point Most common device is psychrometer two thermometers: one that reads temperature, one that reads effect of cooling water as it evaporates Needs for calibration device Deionized water Saturated and nonsaturated salt solutions

T/RH Measuring Basics Appropriate single room location choice Center of room varies from exterior walls Necessary to develop an average Buildings w/o environmental control Singles spaces require one system per room Buildings with some environmental control Several systems for non-central control Buildings with HVAC systems One measuring device per subzone HVAC act independent of monitoring system

Light Monitoring Radiation divided into 3 categories Ultraviolet (<400nm) Visible (400-760 nm) Infrared (>760 nm) All three types result in deterioration Light damage is cumulative and irreversible UV light is high energy and results in many changes in museum materials Infrared light causes damage by increasing rate of chemical reactions and localizing heat on the specimen Visible light exists at the continuum of UV and IR and combines damage of both Color temperature

Light Levels Not to exceed 50 lux Costume, textiles, watercolor paintings, tapestries, furniture, prints and drawings, postage stamps, manuscripts, ephemera, miniatures, wallpaper, dyed leather, most natural history and ethnographic items Not to exceed 200 lux ,[object Object]

Special precautions taken for objects made of more than one material

Rooms with windows usually experience >200 lux on a daily basis,[object Object]

UV Radiation Very damaging to all materials Measured by UV-monitor Methods of protection Laminated glass UV filter Acrylic/polycarbonate sheets UV varnish application to windows or display cases Plastic filter sleeves for fluorescent lamp tubes

Monitoring Particulates Few simple or cost effective devices exist Best practice: visual inspection of the collections and collection containers Frequency of need for cleaning may indicate source Filtering system may collect particles due to environmental control systems Requires commercial grade filtration systems HEPA filters are sufficient

Monitoring Gaseous Pollutants Gas monitoring systems are expensive Devices measure short-term exposure of specific pollutants Formaldehyde SO2, SO3, O3, NO, NO2 Passive system uses measure the effect of exposure on polished metal samples

Pest Management All materials being accessioned made of organic materials are first quarantined Anoxic environment applied to art object Nitrogen Argon Carbon Dioxide Oxygen barrier films used with microclimates Low cost solution is oxygen deprivation

Microclimates Specialized or isolated environments Travel cases Display cases Useful for objects with unique composition Known outgassing components Multiple materials Unknown materials

Microclimates - Protection Object will create a problem and leach harmful chemicals Solution Sealed container Activated carbon and a sorbent for chemical absorption

Microclimates - Monitoring Object is composed of materials requiring special care Paper Unique compositions of dyes Sealed container Active T/RH control in case Nitrogen replacement for air

Environmental Systems for Art Storage

Recommandé

Recommandé

Contenu connexe

En vedette

En vedette (20)

Similaire à Environmental Systems for Art Storage

Similaire à Environmental Systems for Art Storage (20)

Plus de Matthew Wettergreen

Plus de Matthew Wettergreen (12)

Dernier

Dernier (20)

Environmental Systems for Art Storage