. Concepts for drilling and excavating in and below the ocean bottom. Underwater drilling; Ocean bottom. 1-inch ID, T) = 9% A Motor input B Motor exhaust 57 gpm 100 hp 20,000-foot depth / pressure limit for commercial 2-inch-ID hose (Knechtel, 1967) 3-inch ID, Ti = 96% 2-inch ID, T) = 74% i 0 10 20 10 Surface Bottom Length of Hose (feet X 10-^) Figure 14. Hydraulic gradient for three two-hose filtered seawater systems: 57 gpm. 0 Surface A Motor input B Motor exhaust 1-inch ID, T) = 41% 29 gpm 100 hp 20,000-foot depth pressure limit for commercial 2-inch-ID hose (Knechtel, 1967). 20 Bottom Leng
. Concepts for drilling and excavating in and below the ocean bottom. Underwater drilling; Ocean bottom. 1-inch ID, T) = 9% A Motor input B Motor exhaust 57 gpm 100 hp 20,000-foot depth / pressure limit for commercial 2-inch-ID hose (Knechtel, 1967) 3-inch ID, Ti = 96% 2-inch ID, T) = 74% i 0 10 20 10 Surface Bottom Length of Hose (feet X 10-^) Figure 14. Hydraulic gradient for three two-hose filtered seawater systems: 57 gpm. 0 Surface A Motor input B Motor exhaust 1-inch ID, T) = 41% 29 gpm 100 hp 20,000-foot depth pressure limit for commercial 2-inch-ID hose (Knechtel, 1967). 20 Bottom Length of Hose (feetxIO^) Figure 15. Hydraulic gradient for three two-hose filtered seawater systems: 29 gpm. 16. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Naval Civil Engineering Laboratory (Port Hueneme, Calif. ). Port Hueneme, Calif. : Naval Civil Engineering Laboratory
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Keywords: ., bookcentury1900, bookcollectionbiodivers, booksubjectoceanbottom
