为了适应冶金反应工程学科的发展,借鉴了化学反应工程学科体系的理念,讨论了冶金反应工程学科发展的状况,并提出了建立新的研究该学科体系的构想。考虑冶金应用基础的物性参数不足的现状,提出了将冶金反应工程学和冶金反应工程分别研究的构想。冶金反应工程学为该学科的基础部分(确定定解条件的相关基础试验和建立考虑全部定解条件的模型),冶金反应工程为该学科在生产中将模拟结果放大和优化的应用部分。该学科的目标是要能够解决生产实际问题,通过模型进行模拟要达到定量结果,以对实际生产进行指导。需要进行长期、认真、细致、艰苦的研究工作,以逐步丰富和完善冶金反应工程学科的内涵。另外,为了给冶金反应工程学求解方程的定解条件提供必要的参数,提出了用分段尝试法研究冶金反应过程动力学的新思路,既可满足冶金反应工程学的自身需要,又能为建立独立的学科体系提供必要的保障。 In order to adapt to the development of the metallurgy reaction engineering discipline, the concept of the chemical reaction engineering discipline system was used for reference. The development of the metallurgy reaction engineering discipline was discussed. A new conception of the subject system was proposed. Considering the current situation that the physical parameters of the metallurgical application are not enough, the conception of separately studying metallurgical reaction engineering and metallurgical reaction engineering is put forward. Metallurgical reaction engineering is the basic part of the discipline (the basic test to determine the conditions of the solution and the establishment of a model that takes into account all the conditions of the solution), metallurgical reaction engineering for the subject in the application of the simulation results to enlarge and optimize the application. The goal of this discipline is to be able to solve practical problems in production and simulate it through models to achieve quantitative results to guide actual production. Long-term, careful, meticulous and painstaking research work is needed to gradually enrich and improve the connotation of metallurgical reaction engineering disciplines. In addition, in order to provide the necessary parameters for solving the solution conditions of metallurgical reaction engineering equations, a new idea to study the kinetics of metallurgical reaction process by piecewise method is proposed, which can not only meet the needs of metallurgical reaction engineering but also Establish an independent discipline system to provide the necessary protection.