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“Note D is on water filtration. It includes a description of a new device that seems to simply and economically resolve the problem of filtering water.

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Presentation on theme: "“Note D is on water filtration. It includes a description of a new device that seems to simply and economically resolve the problem of filtering water."— Presentation transcript:

1 “Note D is on water filtration. It includes a description of a new device that seems to simply and economically resolve the problem of filtering water to supply a large city. To obtain this result, I take into consideration the law of water flow through sand, a law that I have demonstrated experimentally….. I have not seen the documents that are included in Note D collected in any special book. In particular, to my knowledge at least, no one has experimentally determined the laws of water flow through sand.” Bobeck translation, p. xxv Darcy’s Law for Flow through Porous Medium, first published in 1856 Translation, Patrica Bobeck, 2004 Published in Paris by Victor Dalmont, Publisher for Imperial Corps of Bridges, Roads and Mines Quai des Augustins, 49 1856

2 Darcy’s Law e s P+h P ± h 0 q k Pressurized water supply in a hospital Description of experiments and equation, p. 455-459, as part of Appendix D in the book of 506 pages. Sand column is 2.3 m high 0.35m diameter Diagram from Plate 24

3 Tests conducted on 29-30 October, and 6 November, 1855 Test 1 – sand was not washed Test 2 – sand was not washed Test 3 – sand was washed Test 4 – washed sand with a slightly larger grain size “Thus, it appears that for an identical sand, it can be assumed that the volume discharged is proportional to the head and inversely proportional to the thickness of the sand layer that the water passes through.” Ratio of discharge/pressure head ~ constant for each test

4 Hydraulic Conductivity in Test 1, 29 Oct 1855 These are reasonable numbers for “slow sand” filters Modern “rapid sand” filters have conductivities of 5-12 m/hr The Green-Ampt conductivity for sand is 12 cm/hr

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