Abstract
The aqueducts built by the ancient Romans are among the most impressive evidence of their engineering skills. The water inside the aqueducts was transported for kilometers, exploiting only the slight but constant differences in altitude throughout the route. To keep the differences in height constant, the aqueducts could proceed underground or aboveground on well-known arched structures that supported lead, ceramic or stone pipes. In order to reconstruct the characteristics of these structures, it is necessary to carry out an accurate survey of the orthometric heights, and therefore the most suitable technology is geometric levelling. In this case, however, it is not applicable, and therefore here we propose an alternative methodology. The final goal of this work was to estimate the flow of some sectors of these aqueducts preserved in the area south of the city of Rome. This has two main purposes: The first is to reconstruct the flow rate of these aqueducts for historical studies; the second is to check how much the orthometric heights have changed over the centuries, in order to reconstruct the movements from a geophysical and geodynamic point of view. The latter analysis will be developed in a following phase of this research. For this purpose, a high-precision geomatic survey was carried out in the area under study, partly retracing a survey already carried out in 1917 whose purpose and methodologies are not known. The area has been affected by a gradual subsidence over centuries, including since 1917. The observed sections of the aqueducts showed average inclinations, slightly lower than the 2 per thousand that is reported in the literature for similar aqueducts. The measurements carried out allowed the flow rate of the two specific aqueducts to be estimated more accurately, both as they were originally and in the presence of deposits that have accumulated during the years of use of the aqueducts. The reconstruction of the initial geometry will later be used as a reference to estimate how much the geodynamic deformations of the area have deformed the aqueducts themselves.
Highlights
The aqueducts built by the ancient Romans are generally considered their most original and impressive engineering achievements
This paper aimed to evaluate the flow rate and to compare it with historical values, as well as to some results in the literature, including interpretations and experimental conclusions that can be drawn mainly with two main objectives:
The techniques used here made it possible to reconstruct an orthometric height difference with an accuracy prudentially limited to more or less 4 cm, allowing the geometric characteristics of two Roman aqueducts to be reproduced for the observable sections
Summary
The aqueducts built by the ancient Romans are generally considered their most original and impressive engineering achievements. Rome was founded at its location due to the presence of a river island (Tiber island), which made it possible to cross the Tiber river, which the Romans had a special emotional bond with. The ancient Romans managed to satisfy their water needs for centuries thanks to the river, and the springs and wells around it. In 312 BC, with the rapid development of the city, more water became necessary. This was due both to the increase in the number of inhabitants, and to the increasing spread of the thermal baths that characterized the entire history of the Roman
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