化工过程熵增指数及其在磷复肥清洁生产评价中的应用

Based on the second law of thermodynamics, it was stated in this paper that the thermodynamic essential of cleaner production is to control the conversion of matters from order to random in the most beneficial way. The efficiency can be indicated by the entropy production in the process. Adopting the principle of minimum entropy production in a steady process of a complex system, a simplified methodology was deduced to calculate the entropy production for complex chemical processes based on the information of mass and heat flux exchanged between the system and environment. A indicator of entropy production was proposed to evaluate the thermodynamic impact of a process by the ratio of total process entropy production to the entropy contained in the valid products. A pair of practical processes of phosphate compound fertilizer, in which sulfur and ammonia are used as energy carrier respectively, were chosen to be calculated and compared. The indicator of entropy production is 6.753 for the sulfur route and 4.571 for the ammonia route. It becomes clearer that the sulfur route makes more thermodynamic impacts to the environment because the matter of sulfur is discharged as waste while the matter of ammonia conversed to the valid products of compound fertilizer.