摘 要
随着全球能源需求增长和环境问题日益严峻,化工行业作为能源消耗和污染物排放大户,亟需通过技术创新实现节能减排。本研究聚焦化工生产过程中的节能减排技术,旨在探索创新性解决方案并评估其实际应用效果。通过对国内外现有节能技术和减排措施的系统梳理,结合我国化工产业特点,构建了涵盖工艺优化、设备升级、能源管理等多维度的技术体系。研究引入了基于大数据分析的智能控制系统,实现了对生产流程的精细化管理;开发了新型高效催化剂,显著提高了反应效率;提出了余热回收与再利用方案,有效降低了能耗。通过对典型化工企业的实地调研和技术改造,验证了所提出技术方案的可行性和有效性。结果表明,采用综合节能技术可使单位产品能耗降低15%-20%,主要污染物排放减少30%以上。
关键词:化工节能减排;智能控制系统;高效催化剂
Abstract
With the growth of global energy demand and the increasingly serious environmental problems, the chemical industry, as a major user of energy consumption and pollutant emission, is in urgent need to achieve energy conservation and emission reduction through technological innovation. This study focuses on the energy saving and emission reduction technologies in the chemical production process, and aims to explore innovative solutions and evaluate their practical application effects. Through the systematic review of the existing energy saving technologies and emission reduction measures at home and abroad, and combined with the characteristics of China chemical industry, a multi-dimensional technology system covering process optimization, equipment upgrading and energy management has been built. The study introduced the intelligent control system based on big data analysis, realize the fine management of production process; developed a new efficient catalyst, significantly improve the reaction efficiency; proposed the waste heat recovery and reuse scheme, effectively reduce energy consumption. Through the field investigation and technical transformation of the typical chemical enterprises, the feasibility and effectiveness of the proposed technical scheme are verified. The results show that the comprehensive energy saving technology can reduce the energy consumption per unit product by 15% -20%, and reduce the emission of major pollutants by more than 30%.
Key Words:Chemical energy saving and emission reduction; intelligent control system; efficient catalyst
目 录
摘 要 I
Abstract II
第1章 绪论 1
第2章 能源利用效率提升技术 3
2.1 热能回收与再利用技术 3
2.2 工艺优化与节能改造 3
2.3 新型高效催化剂的应用 4
第3章 清洁生产工艺创新 5
3.1 绿色化学反应路径设计 5
3.2 废物减量化技术实践 5
3.3 可持续原材料选择 6
第4章 环境友好型排放控制 8
4.1 废气处理技术创新 8
4.2 废水达标排放策略 8
4.3 固体废弃物资源化利用 9
结 论 11
参考文献 12
致 谢 13
随着全球能源需求增长和环境问题日益严峻,化工行业作为能源消耗和污染物排放大户,亟需通过技术创新实现节能减排。本研究聚焦化工生产过程中的节能减排技术,旨在探索创新性解决方案并评估其实际应用效果。通过对国内外现有节能技术和减排措施的系统梳理,结合我国化工产业特点,构建了涵盖工艺优化、设备升级、能源管理等多维度的技术体系。研究引入了基于大数据分析的智能控制系统,实现了对生产流程的精细化管理;开发了新型高效催化剂,显著提高了反应效率;提出了余热回收与再利用方案,有效降低了能耗。通过对典型化工企业的实地调研和技术改造,验证了所提出技术方案的可行性和有效性。结果表明,采用综合节能技术可使单位产品能耗降低15%-20%,主要污染物排放减少30%以上。
关键词:化工节能减排;智能控制系统;高效催化剂
Abstract
With the growth of global energy demand and the increasingly serious environmental problems, the chemical industry, as a major user of energy consumption and pollutant emission, is in urgent need to achieve energy conservation and emission reduction through technological innovation. This study focuses on the energy saving and emission reduction technologies in the chemical production process, and aims to explore innovative solutions and evaluate their practical application effects. Through the systematic review of the existing energy saving technologies and emission reduction measures at home and abroad, and combined with the characteristics of China chemical industry, a multi-dimensional technology system covering process optimization, equipment upgrading and energy management has been built. The study introduced the intelligent control system based on big data analysis, realize the fine management of production process; developed a new efficient catalyst, significantly improve the reaction efficiency; proposed the waste heat recovery and reuse scheme, effectively reduce energy consumption. Through the field investigation and technical transformation of the typical chemical enterprises, the feasibility and effectiveness of the proposed technical scheme are verified. The results show that the comprehensive energy saving technology can reduce the energy consumption per unit product by 15% -20%, and reduce the emission of major pollutants by more than 30%.
Key Words:Chemical energy saving and emission reduction; intelligent control system; efficient catalyst
目 录
摘 要 I
Abstract II
第1章 绪论 1
第2章 能源利用效率提升技术 3
2.1 热能回收与再利用技术 3
2.2 工艺优化与节能改造 3
2.3 新型高效催化剂的应用 4
第3章 清洁生产工艺创新 5
3.1 绿色化学反应路径设计 5
3.2 废物减量化技术实践 5
3.3 可持续原材料选择 6
第4章 环境友好型排放控制 8
4.1 废气处理技术创新 8
4.2 废水达标排放策略 8
4.3 固体废弃物资源化利用 9
结 论 11
参考文献 12
致 谢 13
