Abstract
This paper presents an experimental study on the discharge head of Cherepnov water lifter that was continuously operated with the aid of the siphon. The energy used by the Cherepnov water lifter is derived from the potential energy of the water itself. The lifter consists of three interconnected tanks and five pipes, one of which is open and two others are hermetically sealed. The effects of varying operating parameters such as the tank and pipe size, the ratio between head of discharge and drop height were analyzed. As a result, factors that can maximize the efficiency and increase the average delivery rate were identified. When the ratio between head of discharge and drop height is about 0.5, the efficiency of Cherepnov water lifter is maximized. In order to design the efficient Cherepnov water lifter, the discharge head of the Cherepnov water lifter should be assigned to be twice as much as the drop height. The effect of tank size on the efficiency is less than 5%, while the effect of the pipe size is not negligible. The larger the pipe size is, the more the efficiency increases. (author). 13 refs., 4 tabs., 8 figs.
Lee, Kwan Soo;
Rhee, Kyoung Hoon;
[1]
Park, Sung Chun;
[2]
Jeong, Byoung Kyen
[3]
- Chonnam National Univ., Kwangju (Korea, Republic of)
- Dongshin University, Naju (Korea, Republic of)
- Sunchon Technical Junior College, Sunchon (Korea, Republic of)
Citation Formats
Lee, Kwan Soo, Rhee, Kyoung Hoon, Park, Sung Chun, and Jeong, Byoung Kyen.
A determination of discharge head of the Cherepnov water lifter with siphon.
Korea, Republic of: N. p.,
1996.
Web.
Lee, Kwan Soo, Rhee, Kyoung Hoon, Park, Sung Chun, & Jeong, Byoung Kyen.
A determination of discharge head of the Cherepnov water lifter with siphon.
Korea, Republic of.
Lee, Kwan Soo, Rhee, Kyoung Hoon, Park, Sung Chun, and Jeong, Byoung Kyen.
1996.
"A determination of discharge head of the Cherepnov water lifter with siphon."
Korea, Republic of.
@misc{etde_565489,
title = {A determination of discharge head of the Cherepnov water lifter with siphon}
author = {Lee, Kwan Soo, Rhee, Kyoung Hoon, Park, Sung Chun, and Jeong, Byoung Kyen}
abstractNote = {This paper presents an experimental study on the discharge head of Cherepnov water lifter that was continuously operated with the aid of the siphon. The energy used by the Cherepnov water lifter is derived from the potential energy of the water itself. The lifter consists of three interconnected tanks and five pipes, one of which is open and two others are hermetically sealed. The effects of varying operating parameters such as the tank and pipe size, the ratio between head of discharge and drop height were analyzed. As a result, factors that can maximize the efficiency and increase the average delivery rate were identified. When the ratio between head of discharge and drop height is about 0.5, the efficiency of Cherepnov water lifter is maximized. In order to design the efficient Cherepnov water lifter, the discharge head of the Cherepnov water lifter should be assigned to be twice as much as the drop height. The effect of tank size on the efficiency is less than 5%, while the effect of the pipe size is not negligible. The larger the pipe size is, the more the efficiency increases. (author). 13 refs., 4 tabs., 8 figs.}
journal = []
issue = {1}
volume = {29}
journal type = {AC}
place = {Korea, Republic of}
year = {1996}
month = {Feb}
}
title = {A determination of discharge head of the Cherepnov water lifter with siphon}
author = {Lee, Kwan Soo, Rhee, Kyoung Hoon, Park, Sung Chun, and Jeong, Byoung Kyen}
abstractNote = {This paper presents an experimental study on the discharge head of Cherepnov water lifter that was continuously operated with the aid of the siphon. The energy used by the Cherepnov water lifter is derived from the potential energy of the water itself. The lifter consists of three interconnected tanks and five pipes, one of which is open and two others are hermetically sealed. The effects of varying operating parameters such as the tank and pipe size, the ratio between head of discharge and drop height were analyzed. As a result, factors that can maximize the efficiency and increase the average delivery rate were identified. When the ratio between head of discharge and drop height is about 0.5, the efficiency of Cherepnov water lifter is maximized. In order to design the efficient Cherepnov water lifter, the discharge head of the Cherepnov water lifter should be assigned to be twice as much as the drop height. The effect of tank size on the efficiency is less than 5%, while the effect of the pipe size is not negligible. The larger the pipe size is, the more the efficiency increases. (author). 13 refs., 4 tabs., 8 figs.}
journal = []
issue = {1}
volume = {29}
journal type = {AC}
place = {Korea, Republic of}
year = {1996}
month = {Feb}
}