As a member of the Corps, he built an adequate pressurized water distribution system in Dijon following the failure of attempts to supply adequate fresh water by drilling wells. The system carried water from Rosoir
Spring away through a covered
aqueduct (watercourse) to reservoirs near the city, which then fed into a network of 28,000 meters of pressurized pipes delivering water to much of the city. The system was fully closed and driven by gravity, and thus required no pumps with just sand acting as a filter. He was also involved in many other public works in and around Dijon, as well as in the politics of the Dijon city government. During this period he modified the
Prony equation for calculating head loss due to friction, which after further modification by
Julius Weisbach would become the well-known
Darcy–Weisbach equation still in use today. In 1848 he became Chief Engineer for the
département of which Dijon is the capital. Soon thereafter he left Dijon due to political pressure, but was promoted to Chief Director for Water and Pavements and took up office in Paris. While in that position, he was able to focus more on his hydraulics research, especially on flow and friction losses in pipes. During this period he improved the design of the Pitot tube, into essentially the form used today. He resigned from his post in 1855 due to poor health but was permitted to continue his research in Dijon. In 1855 and 1856 he conducted experiments where water flowed through a column filled with sand that established what has become known as
Darcy's law; initially developed to describe flow through sands, it has since been generalized to a variety of situations and is in widespread use today e.g. for calculating the resistance of any type of porous media flow. The
unit of measure of
material permeability, the
darcy is named in his honour. Darcy died of pneumonia while on a trip to Paris in 1858 and is buried in Cimetière de Dijon (formerly known as Péjoces) in
Dijon. == Publications ==