标准解读

《GB/T 44883-2024 流程生产能效管控系统 设计要求》是一项国家标准,旨在为流程工业中的能效管理提供一套系统化的设计指导。该标准适用于各类流程生产企业,如化工、钢铁、造纸等行业的能效管理系统设计与实施过程。根据此标准,企业能够更好地规划和执行节能减排措施,提高能源利用效率,同时也有助于促进企业的可持续发展。

标准中明确了能效管控系统的架构应包括数据采集层、数据处理层以及应用服务层三个主要部分。其中,数据采集层负责收集来自生产设备的各种能耗信息;数据处理层则对这些原始数据进行清洗、分析,以形成有用的信息或知识;应用服务层基于上述处理结果向用户提供决策支持服务,比如通过可视化界面展示关键指标、异常预警等功能。

此外,《GB/T 44883-2024》还强调了在设计过程中需要考虑的安全性、可靠性原则,确保系统能够在长期运行中稳定工作,并且保护好企业和个人的数据安全。对于如何选择合适的硬件设备及软件平台也给出了具体建议,提倡采用开放标准和技术,以便于不同系统之间的互联互通。

标准里还特别提到了关于人员培训和文档编制的重要性,指出良好的操作维护习惯是保证系统有效运行的关键因素之一。同时,鼓励企业建立持续改进机制,定期评估系统性能,及时调整优化策略,以适应不断变化的内外部环境需求。


如需获取更多详尽信息,请直接参考下方经官方授权发布的权威标准文档。

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文档简介

ICS

25.040

CCS

N10

中华人民共和国国家标准

GB/T44883—2024

流程生产能效管控系统设计要求

Energyefficiencycontrolsysteminprocessproduction—Designrequirements

2024-11-28发布2025-06-01实施

国家市场监督管理总局发布

国家标准化管理委员会

GB/T44883—2024

目次

前言

·····································································································

1

范围

··································································································

1

2

规范性引用文件

······················································································

1

3

术语和定义

···························································································

1

4

缩略语

································································································

2

5

流程生产能效管控系统架构

··········································································

2

5.1

流程生产能效管控系统定位

·····································································

2

5.2

流程生产能效管控系统总体架构

································································

3

6

网络设计要求

·························································································

4

7

功能分类与信息流

····················································································

4

7.1

功能分类

·························································································

4

7.2

信息流

···························································································

5

8

能效模型应涉及的因素

···············································································

6

8.1

能源预测模型应涉及的因素

·····································································

6

8.2

能源优化模型应涉及的因素

·····································································

6

9

功能设计要求

·························································································

7

9.1

计划

······························································································

7

9.1.1能效预测

····················································································

7

9.1.2能源计划

····················································································

7

9.2

执行

······························································································

7

9.2.1能效实绩管理

···············································································

7

9.2.2能效报表管理

···············································································

8

9.2.3能效综合监视

···············································································

8

9.2.4异常报警

····················································································

8

9.3

分析

······························································································

8

9.3.1能效指标管理

···············································································

8

9.3.2能效诊断分析

···············································································

8

9.3.3能效对标管理

···············································································

9

9.4

优化

······························································································

9

9.4.1用能优化

····················································································

9

9.4.2产能优化

····················································································

9

9.4.3调配优化

····················································································

9

10

接口设计要求

·······················································································

9

参考文献

································································································

11

GB/T44883—2024

图1流程生产能效管控系统在企业功能层级中的定位

·················································

3

图2流程生产能效管控系统总体架构

··································································

3

图3流程生产能效管控系统网络拓扑图

································································

4

图4功能分类

···························································································

5

图5信息流图

···························································································

5

表1流程生产能效管控系统各功能间的信息流

·························································

6

GB/T44883—2024

前言

本文件按照GB/T1.1—2020《标准化工作导则第1部分:标准化文件的结构和起草规则》的规

定起草。

请注意本文件的某些内容可能涉及专利。本文件的发布机构不承担识别专利的责任。

本文件由中国机械工业联合会提出。

本文件由全国工业过程测量控制和自动化标准化技术委员会(SAC/TC124)归口。

本文件起草单位:机械工业仪器仪表综合技术经济研究所、冶金自动化研究设计院有限公司、中冶

赛迪信息技术(重庆)有限公司、河南平原智能装备股份有限公司、西门子(中国)有限公司、重庆工

业智能技术研究院、北京仪综测业科技发展有限公司、浙江中控技术股份有限公司、特变电工科技投资

有限公司。

本文件主要起草人:牛鹏飞、孙彦广、盛刚、唐春娥、李志、王靖、史春燕、郑二磊、程广奇、

田元超、冯尚科、王洲、郭志喜、郭峻源、师露宁、来晓、姚华、刘利辉。

GB/T44883—2024

流程生产能效管控系统设计要求

1范围

本文件规定了流程生产能效管控系统的架构、网络设计要求、功能设计要求和接口设计要求,给出

了流程生产能效管控系统的功能分类与信息流、能效模型应涉及的因素。

本文件适用于冶金、石化等流程生产企业能效管控系统的设计。

2规范性引用文件

本文件没有规范性引用文件。

3术语和定义

下列术语和定义适用于本文件。

3.1

能源energy

电、燃料、蒸汽、热力、压缩空气以及其他类似介质。

注1:在本文件中,能源包括可再生能源在内的各种形式,可被购买、贮存、处置,在设备或过程中使用以及被回

收利用。

注2:能源也被定义为一个系统产生外部活动或开展工作的动力。

[来源:GB/T23331—2020,3.5.1]

3.2

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