University of Virginia Library

Warming room

METHOD OF HEATING

The heating system of the Monks' Warming Room raises
interesting historical and technological questions. It consists,
as already pointed out, of an external firing chamber
(caminus ad calefaciendū) that transmits its heat to the
building through heat ducts (not shown on the Plan), the
necessary draft for which is generated by an external smoke
stack (euaporatio fumi).

Identical heating units appear in two other places on the
Plan, the "warming room" (pisale) of the Novitiate and
the "warming room" (pisale) of the Infirmary.[58] Keller's[59]
attempt to interpret these devices as simple fireplaces is
untenable and was convincingly repudiated by Willis.[60]
They are clearly descendants of the Roman hypocaust
system. The existence of such heating systems in the
Middle Ages is well attested both by literary and archeological
sources. A hypocausterium almost contemporary with
those of the Plan of St. Gall was built by Abbot Ewerardus
at the monastery of Freckenhorst.[61] An excavation conducted
in 1939 at Pfalz Werla, one of the fortified places of


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[ILLUSTRATION]

201. LORSCH, MONASTERY OF ABBOT RICHBOLD (784-804). ISOMETRIC RECONSTRUCTION

[after Selzer, 1965, 148]

The abbey grounds, of irregular ovoid shape, were surrounded by a masonry wall. Entering the monastery from the west the visitor stepped into
a large rectangular atrium where he had to pass through what can only be called the Carolingian equivalent of a Roman triumphal arch
accommodating over its passages a small royal hall
(a jewel of Carolingian architecture, built 768-774, the earliest wholly preserved building of
post-Roman times on German soil
). At the end of this atrium the visitor faced two massive towers flanking a gate that gave access to a second,
considerably smaller atrium lying before the monumental westwork of the church of St. Nazarius, an aisled basilica with low transept and
probably a rectangular choir, built between 767-774, and enlarged eastward in 876 by a crypt for royalty. The component building masses of
this architectural complex rose in dramatic ascent on successively higher levels of the gently rising slope of a natural sand dune; the west gate at
the bottom, the choir of the church at the top, the late Carolingian crypt eight meters below the level of the church on the steeply descending
east slope of the dune.

The walls of the monastery enclosed an area of roughly 25,000 square meters. Forming a veritable VIA SACRA, from gate to altar the route of
passage was nearly 260m. long.


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[ILLUSTRATION]

LORSCH, MONASTERY OF ABBOT RICHBOLD (784-804).

200.X

200.

12TH-CENTURY PLAN AND ISOMETRIC VIEW

Fig. 200: after Behn, 1964, 117; Fig. 200.X: after Hubert, Porcher, Volbach, 1970, fig. 377.B]

Toward the middle of the 12th century, the inner Carolingian atrium was converted into a fore church. At the same time, all the claustral
ranges were rebuilt on the foundations of their Carolingian predecessors.
(For remains of the latter see Vorromanische Kirchenbauten,
1966, 180).

Henry I of Saxony, tells us much about the details of construction
of such a hypocausterium. There, beneath a hall
constructed between 920 and 930, C. H. Seebach unearthed
a hypocaust in an excellent state of preservation.[62]
Its heating plant (fig. 209) consisted of a subterranean
firing chamber beneath the floor of the hall, which was
reached by an outside passageway. A system of radiant
ducts channeled the heated air from the firing chamber
into a circular flue which lay directly under the pavement
of the hall and was provided, at regular intervals, with
tubular vents through which the warmth ascended into
the hall above. Another large flue ran from this main duct
to the western gable wall where it emptied into a smoke
stack. This flue showed heavy traces of blackening, which
suggests that the hot air outlets into the hall could be
closed by stone lids during the initial firing stages, when
the volume of smoke and obnoxious gas was heaviest,
leaving the chimney as the only outlet.

Seebach believes that the hypocaust system of St. Gall
was identical with that of Werla. However, the two
systems are not alike in every detail. The Werla firing
chamber lay beneath the hall; the firing chambers of St.
Gall are external attachments. They must have been subterranean,
of course, for otherwise the heated air could not
rise into the hall above, but the general principle of construction
was doubtlessly the same, and the occurrence of
this type on the Plan of St. Gall is clear testimony that


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202. SILCHESTER, HAMPSHIRE, ENGLAND, ROMAN BASILICA AND FORUM

PLAN (after Joyce, 1887, pl. 16)

A provincial variant of a distinguished lineage of Roman market halls, Silchester is related to the basilicas of Trajan in Rome (fig. 239) and
Septimius Severus in Lepcis Magna
(fig. 159). To students considering history as a chronological progression, the similarity of layout of these
Roman market halls with that of the Carolingian
CLAUSTRUM is perplexing. Yet such a conceptual leap into the classical past may be even
more easily understood than the Carolingian revival of the Constantinian transept basilica. To study the layout of the latter, Frankish
churchmen had to travel to Rome, but they could see surviving or ruinous examples of the Roman market hall in their homeland. Basilicas of
the Silchester type existed in the Roman city of Augst in Switzerland
(Reinle, 1965, 34) and in Worms, Germany. The latter was well known
to builders of the Merovingian cathedral of Worms
(Fuhrer zu vor-und frühgeschichtlichen Denkmälern, XIII, 1969, 36).


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203. PLAN OF ST. GALL. CLOISTER YARD

Although in plan displaying striking similarities with the great galleried courts of the Roman market halls (cf. figs. 202, 239) the four-cornered
medieval cloister shows marked differences in elevation
(cf. fig. 192). The Roman basilican courts are vast areas for open-air assembly and
the conduct of business, surrounded by relatively small offices and shops of modest height
(fig. 202). The open yard of a medieval cloister, by
contrast is small in relation to the buildings by which it is enclosed. The latter rise high and are surmounted by steep-pitched roofs. Internally,
although composed of two levels, they form open halls extending the entire length of the building. The galleried porches are the only connecting
links between these huge structures, none of which possess interconnecting doors or entrances. The tint block on the opposite page shows the above
cloister
(100 feet square) at the scale of the Silchester basilica (1:600).


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204. DIOSCURIDES. MATERIA MEDICA

Vienna, National Library, CODEX VINDOBONENSIS, fol. 48v

SAVIN PLANT (JUNIPERUS SABINA)

[by courtesy of the National Library of Vienna]

Pedanios Dioscurides of Anazarbos, a physician of Greek descent
who served in the army of Nero, wrote his
Materia Medica around
50 A.D. It details the properties of about 600 medicinal plants and
describes animal products of dietetic and medicinal value. The writing
of Dioscurides was well known and widely read in the Middle Ages
and served as a standard text for learning in all medical schools.
The illustration shown above is from a richly
(in places even
brilliantly and very realistically
) illuminated copy of this treatise
executed by a Byzantine artist in 512, and now available in a
magnificent facsimile edition.

hypocausts with a complete system of heat-distributing air
ducts, and a chimney stack for draft and evacuation of
obnoxious gas were, at the time of Louis the Pious, a
standard system used in the construction of monastic
warming rooms. Whether or not the heat produced by this
system could also be conducted into the Dormitory above
remains a moot question.

 
[58]

See below, pp. 311ff (Novitiate) and 313 (Infirmary).

[59]

Keller, 1844, 21.

[60]

Willis, 1848, 100.

[61]

Nec ab incoepto destitit donec in circuitu oratorii refectorium hiemale et
aestivale, hypocaustorium, cellarium, domum areatum, coquinam, granarium et
dormitorum, et omnia necessaria habitacula aedificavit.
" (Vita S. Thiadildis
abbatissae Freckenhorsti;
see Schlosser, 1896, 86, No. 283). For previous
discussions of the hypocausts of St. Gall see Keller, 1844, 21; Willis,
1848, 91; Stephani II, 1903, 77-83; Oelmann, 1923/24, 216.

[62]

Seebach, 1941, 256-73. The remains of the channels and a freestanding
chimney of the hypocaust which heated the calefactory and the
scriptorium of the Abbey of Reichenau, built at the time of Abbot Haito
(806-823), were excavated by Emil Reisser in the immediate vicinity of
the nothern transept arm of the Church of St. Mary's at Mittelzell
(see Reisser, 1960, 38ff). For other medieval calefactories with hypocausts,
see the article "Calefactorium" by Konrad Hecht in Otto
Schmidt, Reallexikon zur Deutschen Kunstgeschichte, III, 1954, cols.
308-12; and Fusch, 1910.

PURPOSE

The primary function of the calefactory, we learn from
Adalhard, was to give the monks an opportunity to warm
themselves in wintertime in the intervals between the
divine services,[63] to hang up their clothes for drying,[64] and
to meet at certain hours for conversation.[65] This was also
the place, he cannot resist adding, "where the monks on
occasion succumb to drowsiness and neglect their reading
because of the pleasant warmth."[66]

It is possible, as Hafner has pointed out,[67] that the calefactory
was also used as a general work room, where the
monks did their sewing and mending, or other domestic
chores, when the weather was not mild enough to permit
them to do this in the cloister. The calefactory may also,
during the winter or on days of inclement weather, have
been the place for the weekly washing of the feet of the
monks.[68] To provide the wood for the hypocaust was the
responsibility of the chamberlain.[69]

 
[63]

Consuetudines Corbeienses; ed. Semmler, Corp. cons. mon., I, 1963,
416: "Si autem hyemps fuerit et calefatiendi necessitas ingruerit, prout ei
qui praeest uisum fuerit siue ante seu post peractum officium aliquod interuallum
fiat, quando se calefacere possint.
" See Jones, III, 123.

[64]

Ibid., 418: "Et si forte quaedam ad eandem domum spetialiter pertinent
ut est de pannis infusis qui suspenduntur,
" and translated, III, 123.

[65]

Ibid., 418: "Cum . . . tam colloquendi quam coniugendi tempus licitum
aduenerit,
" and translated, III, 123.

[66]

Ibid., 418: "Et somnolentis et propter caloris suauitatem minus adtente
legentibus,
" and translated, III, 123.

[67]

Hafner, in Studien, 1962, 180-82.

[68]

See below, p. 307. According to the Usus ordinis Cistercensis the
calefactory is the place "where the brothers warm themselves, grease
their boots, and are bled; where the cantor and the scribes mix ink
and dry their parchment, and where the sacrist fetches light and glowing
cinders." See Migne, Patr. Lat., CLXVI, cols. 1387B, 1447A-C,
1466D, 1497C; and Mettler, 1909, 151.

[69]

"Ligna recipiet camerarius conventus et de illis procurabit ignemcopiosum
fratribus
" (see under "camerarius" in Du Cange, Glossarium).

RECONSTRUCTION

The reconstruction of the building containing the Calefactory
and the Dormitory poses no major problems (figs.
108 and 111.B). Although no Carolingian dormitory of significance
is preserved, as far as I know, we are fairly well
informed about the materials used in their construction by
contemporary chronicles. The dormitory of Fontanella
(St.-Wandrille), completely reconstructed under Abbot
Ansegis (823-833), is a good example. The Gesta Abbatum
Fontanellensium
[70] tells us that its "walls were built in well-dressed
stone with joints or mortar made of lime and sand"
and that it received its light through "glass windows."
Apart from the walls the entire structure was built with
wood from the heart of oak, and roofed by tiles held in
place with iron nails.[71] The layout of this dormitory
differed distinctly from the one shown on the Plan of St.
Gall, but like the dormitory of St.-Wandrille, the building
that houses the Dormitory on the Plan of St. Gall was a
masonry structure. This can be inferred from the fact that
the cloister walk with its arched openings attached to it was
unquestionably built in masonry. With its span of 40 feet
from wall to wall, this building required a roof structure
comparable to that of the adjacent church. In the latter the
tie beams of the roof must have crossed the nave in a single
span; in the dormitory—with its live load of seventy-seven
monks on the top floor—the girders that supported the
joists of the dormitory floor are likely to have found
additional support in one or two rows of free-standing
posts.[72]


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SAVIN PLANT (JUNIPERUS SABINA)

205.

206.

207.

IBIZA, SPAIN

205. Erect form, sheltered habitat, 300-400 yards inland, Bay of Santa Eulalia.
This globular, symmetrical specimen reaches h. 17 feet, dia. 12-14 feet.

206. Prostrate form, exposed habitat, cliffs near Santa Eulalia. This specimen
has dia. of ca. 15 feet, h. 3-4 feet.

207. Erect specimen, umbrella-shaped crown, beach near Santa Eulalia. H. ca.
15 feet, crown dia. ca. 22 feet.

 
[70]

Gesta Abbatum Fontanellensium, chap. 17; ed. Loewenfeld, Script.
rer. Germ.,
XX, 1886.

[71]

Gesta SS. Patr. Font. Coen., chap. 13(5), ed. Lohier and Laporte,
1936, 104-105: "Dormitorium fratrum . . . cuius muri de calce fortissimo
ac uiscoso arenaque rufa et fossili lapideque tofoso ac probato constructi
sunt . . . continentur in ipsa domo desuper fenestrae uitreae, cunctaque eius
fabrica, excepta maceria de materie quercuum durabilium condita est,
tegulaeque ipsius uniuersae clauis ferreis desuper affixae.
" See Schlosser,
1889, 30-31; Schlosser, 1896, 289, and Gesta abbatum Fontanellensium,
chap. 17; ed. Loewenfeld, Script. rer. Germ, XX, 1886, 54.

[72]

The same conditions apply to the building which contains the
Monks' Refectory and Vestiary, and the building which contains their
Cellar and Larder.