摘要
石油是全球最主要的能源之一,也是我国的重要能源之一。近年来我国在当前市场竞争激烈的环境下,石油化工企业需要不断提升自身的综合竞争力,以保持市场地位和盈利能力。石油化工企业的发展在我国能源产业中扮演着至关重要的角色。为了给石油化工企业的战略规划提供有力依据,引导企业朝着正确的方向发展。并且使政府、企业和社会各界全面了解行业发展状况,从而制定有利于产业发展的政策和支持措施,推动产业链升级与发展。根据石油化工企业竞争的特点,构建了石油化工企业综合竞争力的评价指标体系,运用层次分析的相关理论和方法确定权重,采用模糊数学的相关理论与方法,创新性地构建了一种全新的评价模型,用于衡量石油化工企业的综合竞争力。通过该模型,企业能够在一定程度上得出决策参考,以提升其综合竞争力。
Oil is one of the most important energy sources in the world and also an important source of energy for China.In recent years,in the current fiercely competitive market environment,petrochemical enterprises in China need to continuously improve their comprehensive competitiveness in order to maintain their market position and profitability.The development of petrochemical enterprises plays a crucial role in China's energy industry.In order to provide strong basis for the strategic planning of petrochemical enterprises and guide them to develop in the right direction.And to enable the government,enterprises,and all sectors of society to comprehensively understand the development status of the industry,in order to formulate policies and support measures that are conducive to industrial development,and promote the upgrading and development of the industrial chain.Based on the characteristics of competition in petrochemical enterprises,an evaluation index system for the comprehensive competitiveness of petrochemical enterprises was constructed.The weights were determined using the relevant theories and methods of Analytic Hierarchy Process,and a new evaluation model was innovatively constructed using the relevant theories and methods of fuzzy mathematics to measure the comprehensive competitiveness of petrochemical enterprises.Through this model,enterprises can to some extent provide decision-making references to enhance their overall competitiveness.
作者
郑晓辉
ZHENG Xiao-hui(Qingdao University of Science and Technology China,Qingdao 266061,Shandong)
出处
《山东工业技术》
2024年第1期94-100,共7页
Journal of Shandong Industrial Technology
关键词
综合竞争力
石油化工
层次分析法
模糊评价法
comprehensive competitiveness
petrochemical industry
analytic hierarchy Process
fuzzy evaluation method