关键词: 资源/能源, 化工产业链, 系统结构优化, 全生命周期分析, 可持续性研究

Abstract: In the background of global energy/resources shortage, alternative energy and new chemical processes are proposed, which are, however, not quantitatively and comprehensively evaluated, neither for long-term effect on the industrial sector and resources supply chain, nor for social development and ecological environment.We review advances in modeling, simulation, optimization, and integration of resource/energy chemical processes in recent years.The objective is to provide industry and decision makers with profound understanding of co-benefits and unintended impacts of the large-scale deployment of various process technologies on environment and resources in a life cycle perspective.By establishing life cycle models from feedstock, production, market, to recycling, integrated approaches are explored to evaluate the efficiency and sustainability of alternative processes.Furthermore, these approaches aim to rationalize and optimize flow-sheeting, reduce investment and operating costs, raise efficiency and minimize environmental impacts. Coal gasification syngas centered energy/chemical product chains are taken as the base cases. Multi-dimensional "technical-economical-environmental-societal" models are built, simulated, and optimized. Mass and exergy flow diagram, life cycle inventory, sustainability indicators are established.Resource/energy utilization efficiency, environmental impact, and economic benefits are quantitatively evaluated.Finally, a platform to support the life cycle analysis and decision-making is constructed for process evaluation, integrated innovation and optimization of existing and potential alternative energy/chemical processes.

Key words: resource/energy, chemical product chain, optimization, life cycle assessment, sustainability