The study of computer simulation of extract recovery of metal irons

• Main Authors: Chen，Shou Tian, 陳守
• Other Authors: Kuo, Yang Ming
• Format: Others
• Language: zh-TW
• Published: 1996
• Online Access: http://ndltd.ncl.edu.tw/handle/19034874525340557818

碩士 === 文化大學 === 應用化學系 === 84 === The reutilization of the waste fluid of the metal industry is continually under study and investigation widely. It not only can make the valuation of the reuse for resource, but also can reduce the influence upon the environmental pollution to the least. The principle of balance is simple, but the conditions of the multi-balance reactions are quite complicated. The conditional factors include electric charges, mass balance, equilibrium function, concentration, temperature, and PH value. The application of the computer in chemistry field is in the natural fashion nowadays, such as in the system control of the chemical engineering, analysis, simulation and design. We do hope to make use of the characters of computer which like the high speed, accuracy and reliability to promote the production rate and the quality of products. In the meanwhile, we can economize the source, material, man power and also reduce the cost. Hence, the competition can be raised up. Our study here is applying the experimental data which obtain by separately dissolving the extractants of the D2EHPA, Lix-64N, TBP, Aliquant-336 into the kerosene, into computer. We will get the digital simulating function and then decide the best calculation mode for the optimum condition of balance. From above calculation, we are able to organize and arrange a detail block diagram for the calculation. Therefore, the user can easily obtain the balance information just by simply key in the data of the necessary condition. Normally, the figure can only be performed by 2-D figure. However, our study here, according to 2 non-power functions y1=f(x) and y2=f(x), will try to find the slopes of the two crossing extended curve-surfaces and then imitate a 3-D figure. Thus, the data will be changed from digit to segment, and even to a curve-surface. Therefore, we can understand more about the distributive situation of the extractants by the figure of extractants rate which is imitated under two environmental conditions.