Energy efficiency improvement and carbon emission collaborative optimization strategy for ethylene cracking furnaces
乙烯裂解炉能效提升与碳排放协同优化策略

摘要

乙烯裂解炉作为石化行业中重要的生产设备，其能效提升和碳排放降低的协同优化具有重要意义。近年来，随着全球对碳减排要求的提高，如何在提高乙烯裂解炉能效的减少碳排放，成为了研究的热点。本文提出了一种协同优化策略，结合能效提升和碳排放减排两方面，探索通过工艺优化、热能回收、催化剂改性等多种手段，达到提升能效与减少碳排放的双重目标。通过模拟和实验研究，验证了该策略在实际生产中的可行性及效果。通过合理优化和创新，不仅能有效提高乙烯裂解炉的生产效率，还能为企业在实现碳中和目标方面提供支持。

Abstract

As an important production equipment in the petrochemical industry, the collaborative optimization of energy efficiency improvement and carbon emission reduction for ethylene cracking furnaces is of great significance. In recent years, with the global improvement of requirements for carbon emission reduction, how to reduce carbon emissions while improving the energy efficiency of ethylene cracking furnaces has become a research hotspot. This paper proposes a collaborative optimization strategy, combining energy efficiency improvement and carbon emission reduction, and explores various means such as process optimization, thermal energy recovery, and catalyst modification to achieve the dual goals of improving energy efficiency and reducing carbon emissions. Through simulation and experimental studies, the feasibility and effect of this strategy in actual production are verified. Through reasonable optimization and innovation, it can not only effectively improve the production efficiency of ethylene cracking furnaces but also provide support for enterprises in achieving the carbon neutrality goal.