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钢铁企业自备电厂机组配置优化.煤气系统优化调度

钢铁企业自备电厂机组配置优化.煤气系统优化调度

1星价 ¥33.8 (7.5折)
2星价¥33.8 定价¥45.0
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  • ISBN:9787564365547
  • 装帧:一般胶版纸
  • 册数:暂无
  • 重量:暂无
  • 开本:其他
  • 页数:122
  • 出版时间:2018-11-01
  • 条形码:9787564365547 ; 978-7-5643-6554-7

本书特色

作者长期从事钢铁企业、自备电厂煤气系统预测、优化调度等课题的研究,并跟踪国内外的研究动态。本书是作者多年研究的总结,同时也吸收了国内外的*新研究成果。本书综合考虑煤气放散和机组运行效率下降对整个煤气系统价值的影响,建立自备电厂机组配置优化模型;考虑到依靠人工经验无法对其煤气供人量进行准确预测,针对煤气供人量特性,建立自备电厂煤气供人量预测模型;在预测模型的基础上,从煤气系统全局出发,以总运行成本*小为目标,考虑锅炉负荷波动频繁的特点,建立优化调度模型。为此,本书将所建模型应用于实际钢铁企业自备电厂,从系统和全局视角出发研讨钢铁企业自备电厂机组配置优化、煤气优化调度问题,丰富钢铁企业自备电厂煤气系统预测、优化、调度问题的研究方法,以期为钢铁企业自备电厂煤气系统提供理论与方法上的指导。

内容简介

本书运用数学模型结合富余煤气的自身特性对自备电厂煤气系统进行预测及调度,对发展钢铁生产、降低能源消耗和产品成本是一种强有力的手段和途径,具有重要的理论意义和现实意义。综合考虑煤气放散和机组运行效率下降对整个煤气系统价值的影响,建立自备电厂机组配置优化模型;考虑到依靠人工经验无法对其煤气供入量进行准确预测,针对煤气供入量特性,建立自备电厂煤气供入量预测模型。在预测模型的基础上从煤气系统全局出发,以总运行成本很小为目标,考虑锅炉负荷波动频繁的特点,建立优化调度模型。为此,本书将所建模型应用于实际钢铁企业自备电厂,从系统和全局视角出发研讨了钢铁企业自备电厂机组配置优化、煤气优化调度问题,丰富了钢铁企业自备电厂煤气系统预测、优化、调度问题的研究方法,以期为钢铁企业自备电厂煤气系统提供理论与方法上的指导。本书可作为生产过程物流专业及相关专业的通用教材,也可供相关方向科研人员、企业在职人员培训使用。

目录

目 录 CONTENTS 1 绪 论································································································· 001 1.1 我国钢铁企业煤气资源及回收利用···················································· 001 1.2 钢铁企业富余煤气资源利用现状······················································· 006 1.3 钢铁企业自备电厂现状及存在的问题················································ 010 1.4 研究内容与创新点·········································································· 021 2 钢铁企业自备电厂机组优化配置研究······················································ 025 2.1 钢铁企业自备电厂煤气系统静态平衡分析·········································· 025 2.2 自备电厂富余煤气量的统计学特性···················································· 027 2.3 自备电厂机组配置优化模型····························································· 034 2.4 本章小结······················································································· 047 3 钢铁企业自备电厂煤气供入量预测研究··················································· 048 3.1 自备电厂煤气供入量影响因素及模型选择·········································· 048 3.2 ARMA时间序列预测建模································································ 051 3.3 模型验证······················································································· 058 3.4 本章小结······················································································· 066 4 钢铁企业自备电厂煤气系统优化调度研究················································ 068 4.1 自备电厂锅炉及燃料调节特点·························································· 068 4.2 自备电厂煤气系统优化调度模型······················································· 070 4.3 本章小结······················································································· 082 5 模型应用····························································································· 083 5.1 自备电厂机组配置优化模型在钢铁企业的应用··································· 083 5.2 自备电厂煤气系统化优化调度模型在钢铁企业的应用·························· 095 5.3 本章小结······················································································· 116 参考文献·································································································· 118
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作者简介

孟华,女,博士,副教授,重庆化工职业学院财经学院物流管理专业带头人。电子科技大学波博士后在读,主要研究方向为生产过程物流管理与控制。本人一直用系统工程的方法研究冶金工业节能和生产过程物流控

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