MONSOON STEEL Intangible archaeologies of hot air
Mar 29, 2015
MONSOON STEELIntangible archaeologies of hot
air
Sri Lanka
Samanalawewa
Archaeological survey and excavation over a number of years revealed a major industry (80+ sites) of the 7th and 11th centuries AD, based on a wind-powered linear furnace design
Reconstructed furnace from archaeological evidence
Experimental smelts in 1994 and 2007
mid-smelt - 1994 towards end of smelt - 1994
Flow of air and flame up the front wall - 2007
Smelting at night
Smelting at night gave clues to the complex air flows through and over the furnace
Breaking apart thefurnace and slagto retrieve themetal ‘blooms’
Metal products of smelts
Analysis showed this to be high quality high-carbon steel
At the time the wind-powered furnaces of Sri Lanka were producinghigh-carbon steel the Early Islamicwriter al-Kindi praised Sarandibisteel as one of the most desirablefor sword-making
High-carbon steels and Damascus swords
Data visualisation
Data sets• wind direction and velocity for region and macro-environment• wind direction and velocity for site-level environment• wind velocities at furnace level during experimental smelting• furnace temperatures at tuyere (air inlet) and charcoal bed during smelting• ore and charcoal fuel charging weights and rates• tap slag running times
The results of the field experiments were published in Nature (379, 1996)
Tangible and Intangible Archaeology
Collected hard evidence – slag waste, metals, furnace remains, experimental experience, images, data
How do we ‘capture’ the fugitive but critical evidence of natural and managed air flow and combustion?
How do we visualise it and importantly use it as a tool for further research?
First interpretation of air flow through furnace based on observations and recorded data (furnace cross-section)
Further research using computationalfluid dynamics (CFD) at Exeter refinedthe initial analysis. Paper with Gavin Tabor published in Journal of Archaeological Science
Arrangement of instruments to measure temperature
Computation of all temperature readings across furnace through duration of smelt (Matt Baker)
Further applications: other furnace technologies
Sri Lanka: small, bellows-driven shaft furnace last used in early 20th century
Well-recorded example with archaeological, ethnographic and documentary records
Furnace shape and size reconstructed from excavation and written accounts
Experimental example built and run in Exeter by engineering students (MJ Baker, R De Salis, D Dawson)
CFD analysis of airflows including quasi-sinusoidal flow model
THANK YOU
POTENTIAL
With good datasets from archaeological excavations and experimental smelting Visualise and model CFD data• Potential as a tool for study and interpretation of ancient pyrotechnologies• Potential to make visible intangible archaeology• Potential for interdisciplinary knowledge transfer and public dissemination• Potential to engage with creative industry to present science and technology