<報文>濾過速度の温度依存性に関する研究
スポンサーリンク
概要
- 論文の詳細を見る
In the present study, it was demonstrated that the effect of temperature, which had been not fully noticed, is to be important to improve the filtration rate. As a model of filtration process, the permeability of water through a sintered glass filter plate or calcium carbonate particle bed was investigated, using a batch-gravitational filtration method. Kinetic expressions were introduced from the experimental condition and Ergun's type pressure drop equation regarding the glanular bed. Observed filtration rates were proportional to unfiltered water volume V, corresponding to the following equation for laminar flow filtration : Rate =kV Rate constant k was compared at several temperatures below 100℃. The experimental results are summerized as follows : (1) In a series of tests of permeability of water through a glass filter plate, the rate constant k increased with increasing temperature. (2) Resistance factor obtained after eliminating an influence of viscosity of water from k remained constant over the whole temperature range. Temperature dependence of k between 5 and 95℃ was expressed by k=k°・exp(-A/T), A=1,760,where k° is a constant. From these facts, it was understood that the rate in this case was controlled only by viscous energy loss. (3) Using the constant resistance factor, the rate constant k at above 100℃ was simulated. It's temperature dependence was smaller than that below 100℃. (4) If the rate constant k_<To> is known at any reference temperature, To, the value of k at arbitary temperature can be calculated from the following equation : [numerical formula] (5) In a series of the tests of calcium carbonate particle bed, the rate constant k also increased with increasing temperature. (6) If allowed ±10% error in Kozeny constant in the Kozeny-Carman relationship, similar treatments those with described in (2) through (4) above are possible.
- 東北大学の論文
- 1973-11-24
東北大学 | 論文
- 通信調査にもとづく浅間山2004年9月1日噴火における空気振動の分布域
- 鬼界カルデラにおけるアカホヤ噴火以降の火山活動史
- Fe欠乏耐性遺伝子組み換えイネの環境への影響(投稿論文, 研究報告)
- 汚染防御研究分野 (1997.1-1997.12)(研究活動報告)
- 汚染防御研究分野 (1996. 1-1996. 12) (研究活動報告)