Dragon kiln
A dragon kiln (Chinese: 龍窯; pinyin: lóng yáo; Wade–Giles: lung-yao) or "climbing kiln", is a traditional Chinese form of kiln, used for Chinese ceramics, especially in southern China. It is long and thin, and relies on having a fairly steep slope, typically between 10° and 16°,[1] up which the kiln runs. The kiln could achieve the very high temperatures, sometimes as high as 1400 °C,[2] necessary for high-fired wares including stoneware and porcelain, which long challenged European potters, and some examples were very large, up to 60 metres long,[3] allowing up to 25,000 pieces to be fired at a time.[4] By the early 12th century CE they might be over 135 metres long, allowing still larger quantities to be fired; more than 100,000 have been claimed.[5]
History
According to recent excavations in
The type had certainly developed by the Warring States period,[7] and by the Eastern Wu kingdom (220–280 CE), there were over 60 kilns at Shangyu. Thereafter it remained the main design used in southern China until the Ming dynasty. The pottery areas of south China are mostly hilly, whereas those on the plains of north China typically lack suitable slopes; here the mantou kiln type predominated.[8]
The Nanfeng Kiln in Guangdong province is several centuries old and still functioning. It was a producer of Shiwan ware as well as architectural ceramics, and today also functions as a tourist attraction.[9]
Characteristics
The kilns were normally made of brick, and are one type of "cross-draught" kilns, where the flames travel more or less horizontally, rather than up from or down to the floor.
The main fire chamber was at the bottom, but there might be additional "stoke holes" to allow adding extra fuel at intervals up the slope, as well as peep holes to allow sight of the interior. At the far, top, end there was a chimney, but given the up-draught of the slope, this did not need to be tall, and might be omitted altogether.[15] The size and shape of the kilns and chambers within varied considerably. Firing was begun at the bottom end and moved up the slope.[16] The fuel might be wood or (generally less often) coal, which affected the atmosphere of the firing; wood giving a reducing atmosphere and coal an oxidizing one.[17] The weight of pottery produced was about the same as the weight of wood required.[18] Generally saggars were used,[19] at least in later periods. These were an innovation of Ding ware from the north in the Song dynasty.[20]
The kilns allowed large quantities of pottery to be fired at high temperatures, but the firing was not usually even across the length of the kiln, which often produced different effects on pieces at different levels. Very often the higher chambers produced the better pieces, as they heated up more slowly.
The large quantities fired were not unique to Asian pottery; the largest kilns making ancient Roman pottery, of a totally different form, could fire up to 40,000 pieces at a time.[26]
Notes
- ^ Vainker, 222
- ^ Medley, 14
- ^ Vainker, 222
- ^ Medley, 14
- ^ Kerr, 348; various sources estimate quantities, the highest being "hundreds of thousands" for Longquan celadon, in Eng, 18
- ^ Kerr, 348–350
- ^ Wood
- ^ Vainker, 50–51; Rawson, 364–365
- ^ "Ancient Nanfeng Kiln", China Tour Advisors
- ^ Rawson, 364; Wood
- ^ Kerr, 348
- ^ Wood
- ^ Medley, 14; Wood
- ^ Vainker, 222
- ^ Wood
- ^ Medley, 147–148; Vainker, 222
- ^ Vainker, 124
- ^ Eng, 18
- ^ Medley, 148
- ^ Vainker, 95
- ^ Medley, 147–148
- ^ Vainker, 72
- ^ Vainker, 95, 124
- ^ Wood
- ^ Kerr, 350–351; Wood
- ^ JP Hayes article from the Grove Dictionary of Art
References
- Eng, Clarence, Colours and Contrast: Ceramic Traditions in Chinese Architecture, 2014, BRILL,
- Medley, Margaret, The Chinese Potter: A Practical History of Chinese Ceramics, 3rd edition, 1989, Phaidon, ISBN 0-7148-2593-X
- ISBN 978-0-7141-2446-9
- Vainker, S. J., Chinese Pottery and Porcelain, 1991, British Museum Press, ISBN 978-0-7141-1470-5
- Wood, Nigel: Oxford Art Online, section "Dragon (long) kilns" in "China, §VIII, 2.2: Ceramics: Materials and techniques, Materials and techniques".