Water Distribution in Ancient Rome: The Evidence of FrontinusUniversity of Michigan Press, 1997 - 168 páginas Water Distribution in Ancient Rome examines the nature and effects of Rome's system of aqueducts, drawing on the difficult but important work of the Roman engineer Frontinus. Among other questions, the volume considers how water traveled to the many neighborhoods of hilly Rome, which neighborhoods were connected to the water system, and how those connections were made. A consideration of Frontinus' writing reveals comprehensive planning by city officials over long periods of time and the difficulties these engineering feats posed. Water Distribution in Ancient Rome is essential reading for students and scholars of Frontinus, of Roman engineering and imperial policy, and of Roman topography and archaeology. "Clear style, good maps and photographs, notes, and bibliography make this work accessible and valuable for students at every level. An admirable contribution to knowledge of the Roman Empire." --Choice Harry B. Evans is Professor of Classics, Fordham University. He is a recipient of the Rome Prize and is past Secretary-Treasurer of the American Philological Association. This book was published with the assistance of a grant from the National Endowment for the Humanities. |
Índice
Sextus Julius Frontinus On the Water Supply of the City of Rome | 13 |
Frontinus Rule and Guide | 53 |
The Aqua Appia | 65 |
The Aqua Anio Vetus | 75 |
The Aqua Marcia | 83 |
The Aqua Tepula | 95 |
The Aqua Julia | 99 |
The Aqua Virgo | 105 |
The Aqua ClaudiaAnio Novus and Arcus Caelimontani | 115 |
Aqueducts after Frontinus The Aqua Traiana and Aqua Alexandriana | 129 |
Conclusions | 135 |
Works Cited | 149 |
| 155 | |
| 161 | |
Plates | |
The Aqua Alsietina | 111 |
Otras ediciones - Ver todo
Water Distribution in Ancient Rome: The Evidence of Frontinus Harry B. Evans Vista de fragmentos - 1994 |
Términos y frases comunes
acquedotti Agrippa Alsietina Ancient Rome Anio Novus Anio Vetus Appius Claudius Aqua Appia Aqua Claudia Aqua Julia Aqua Marcia Aqua Traiana Aqua Virgo aquaeductu aquarum arcade arches Arcus Caelimontani Ashby Augustan Augustus Aventine Bruun Caesar's name Campus Martius capacity castella castellum castra century A.D. channel Claudia and Anio Claudian aqueducts Coarelli Colini conduit construction consulship delivered Deman diameter digits emperor Esquiline evidence Forum Boarium fountains Frontinus cites Frontinus reports Grimal Hainzmann Hodge imperial indicates intake intra urbem introduced Kunderewicz lacus Lanciani milestone munera needs nomine Caesaris opera publica paces Palatine pipes piscina Platner-Ashby Porta Capena Porta Trigemina private consumers public basins Quilici quinariae record books regions Richardson Rodgers Roman Rome's aqueducts Servian settling tank Severan specus Spes Vetus statistics suggests tapped Textual Temptations Topografia Trajan Transtiber treatise Trionfo underground Untersuchungen Urbis Romae Vitruvius volume water commissioners water distribution water supply water system watermen
Pasajes populares
Página 7 - Morgan (1 914) describes how the aqueduct castellum worked (as presented in Evans, 1994): When it (the water) has reached the city, build a reservoir with a distribution tank in three compartments connected with the reservoir to receive the water, and let the reservoir have three pipes, one for each of the connecting tanks, so that when the water runs over from the tanks at the ends, it may run into the one between them. From this central tank, pipes will be laid to all the basins and fountains;...
Página 7 - If, however, there are hills between the city and the source of supply, subterranean channels must be dug, and brought to a level at the gradient mentioned above. If the bed is of tufa or other stone, let the channel be cut in it; but if it is of earth or sand, there must be vaulted masonry walls...
Página 7 - ... city, build a reservoir with a distribution tank in three compartments connected with the reservoir to receive the water, and let the reservoir have three pipes, one for each of the connecting tanks, so that when the water runs over from the tanks at the ends, it may run into the one between them. 2. From this central tank, pipes will be laid to all the basins and fountains; from the second tank, to baths, so that they may yield an annual income to the state; and from the third, to private houses,...