高端立磨在埃塞俄比亚万吨水泥生产线的应用

doi:10.19698/j.cnki.1001-6171.20255001

摘要
相关文章
推荐阅读
Metrics

下载:

PDF (3827KB)
输出: BibTeX | EndNote (RIS)

摘要立磨作为一种先进的粉磨设备，在水泥行业中发挥着重要的作用。本文详细介绍了在埃塞俄比亚投资建设的非洲首条万吨级水泥生产线中所采用的TRMK60.3水泥立磨、HRM58.4生料立磨及HRM43.3M煤粉立磨粉磨系统的工艺流程、主要设备组成以及实际运行效果。生产运行结果表明，各立磨系统运行平稳可靠、产品质量优良，TRMK60.3水泥立磨系统产量稳定在 280t/h，产品比表面积>3 900cm₂/g，系统电耗约为29.7kW·h/t；HRM58.4生料立磨系统产量470~480t/h，出磨生料80μm筛筛余为16%，系统电耗约为15.4kW·h/t；HRM43.3M煤粉立磨系统产量80~100t/h，粉磨后煤粉80μm筛筛余为6%，系统电耗约为22kW·h/t，各项生产运行指标均达到行业先进水平，具有较高的推广应用价值。

	服务
	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	（）
	作者相关文章
	申荣廷
	宋留庆
	刘运华
	孙延良
	任国鑫

关键词: 水泥立磨生料立磨煤粉立磨；粉磨系统电耗达产达标

Abstract: As an advanced grinding equipment, VRMs play avital role in the cement industry. This paper details the process flow, main equipment composition, and actual operation effect of the grinding systems of TRMK60.3 cement VRM, HRM58.4 raw meal VRM and HRM43.3M pulverized coal VRM adopted in Africa's first 10 000t cement production line, invested and constructed in Ethiopia. The production and operation results show that all vertical roller mill systems operate stably and reliably with excellent product quality: the output of the TRMK60.3 cement VRM system is stably maintained at 280t/h, the blaine of the product is >3 900cm₂/g, and the system power consumption is about 29.7kW·h/t; the output of the HRM58.4 raw meal VRM system ranges from 470t/h to 480t/h, the residue of the raw meal after grinding on an 80μm sieve is 16%, and the system power consumption is about 15.4kW·h/t; the output of the HRM43.3M coal VRM system is 80~100t/h, the residue of the pulverized coal on an 80μm sieve is 6%, and the system power consumption is about 22kW·h/t. All production and operational indicators have reached the advanced level of the industry, and the system has good promotion and application value.

Key words: cement vertical roller mill raw meal vertical roller mill coal vertical roller mill grinding system power consumption reaching design capacity and meeting standards

收稿日期: 2025-04-21 出版日期: 2025-09-25 发布日期: 2025-09-22 整期出版日期: 2025-09-25

ZTFLH:	TQ172
	TQ172.632.5

作者简介: 申荣廷（1996—），男，硕士，助理工程师，主要从事粉磨机械研究。E-mail：shenrongting@sinoma-tianjin.cn

引用本文:

申荣廷, 宋留庆, 刘运华, 孙延良, 任国鑫. 高端立磨在埃塞俄比亚万吨水泥生产线的应用[J]. 水泥技术, 2025, 1(5): 1-6.
SHEN Rongting, SONG Liuqing, LIU Yunhua, SUN Yanliang, REN Guoxin. Application of High-end Vertical Roller Mills in the 10 000t Cement Production Line in Ethiopia. Cement Technology, 2025, 1(5): 1-6.

链接本文:

http://www.cemteck.com/CN/10.19698/j.cnki.1001-6171.20255001 或 http://www.cemteck.com/CN/Y2025/V1/I5/1

[1]	黄新云. 石灰石破碎系统改造 [J]. 水泥技术, 2025, 1(2): 43-46.
[2]	张高科, 姚营娇, 张一新. TRM53.41生料立磨节能降耗改造 [J]. 水泥技术, 2024, 1(4): 65-69.
[3]	安卫军, 银建军, 滑松, 刘迪, 彭凌云. TRMK5041水泥立磨粉磨系统优化升级 [J]. 水泥技术, 2024, 1(2): 13-18.
[4]	谢文虎. 提升水泥技术装备运行能效水平的探索实践[J]. 水泥技术, 2023, 1(5): 33-37.
[5]	王海, 胡晓东, 胥瀚, 王双军. ATOX50生料辊磨的节能降耗升级改造[J]. 水泥技术, 2023, 1(3): 56-60.
[6]	陈光华. 煤粉气力输送固气比对烧成系统能耗的影响[J]. 水泥技术, 2021, 1(4): 90-93.
[7]	杨晓乾, 马吉丰, 赵刚. CLM1700煤磨提质降耗改造实践[J]. 水泥技术, 2021, 1(4): 54-57.
[8]	邢愚, 戴建盛, 楼美善. 降低水泥粉磨电耗的改造实践 [J]. 水泥技术, 2021, 1(2): 97-99.
[9]	狄东仁, 孟军, 肖静. 水泥生产线烧成系统电能消耗指标分析 [J]. 水泥技术, 2020, 1(5): 15-18.
[10]	王培珺, 何建军, 张俊勇. 陶瓷研磨体在降低粉磨电耗中的应用 [J]. 水泥技术, 2020, 1(2): 40-43.
[11]	何毛, 李洪生, 马健, 王小峰, 杜鑫. 水泥辊压机终粉磨系统的工业化应用[J]. 水泥技术, 2020, 1(2): 17-20.
[12]	曹军波, 饶锐, 任森. 辊磨智能控制系统在水泥原料辊磨上的应用 [J]. 水泥技术, 2019, 1(5): 52-55.
[13]	崔雷, 王建光, 于玉, 张永林, 伍先舟. 5 000t/d生产线原料磨循环风机节能改造 [J]. 水泥技术, 2018, 1(3): 88-90.
[14]	侯龙华, 柴星腾, 贺孝一. 水泥辊压机预粉磨系统电耗评价探讨[J]. 水泥技术, 2017, 1(5): 19-24.
[15]	谢文虎. 篦冷机熟料锤式破碎机改辊式破碎机的实践[J]. 水泥技术, 2017, 1(2): 80-82.

[1]	. Review and Prospect of Engineering Practice of Waste Disposal in Cement Kiln in China[J]. Cement Technology, 2018, 1(1): 17 -21 .
[2]	DI Dongren, TAO Congxi, CHAI Xingteng. Revision of Cement Energy Consumption Standards and Energy Saving Technology(Ⅰ)[J]. Cement Technology, 2018, 1(1): 22 -26 .
[3]	LIU Yonggang, GAO Hongwei, XIAO Guiqing. Design Method of Road Structure Using Lean Concrete Base[J]. Cement Technology, 2018, 1(1): 27 -31 .
[4]	MA Debao. Finite Element Analysis of Inverted Cone in Raw Meal Silo[J]. Cement Technology, 2018, 1(1): 35 -38 .
[5]	HAN Zhongqi. [J]. Cement Technology, 2018, 1(1): 38 -48 .
[6]	GUAN Laiqing, HE Yongxian. [J]. Cement Technology, 2018, 1(1): 54 -59 .
[7]	WEI Can, ZHANG Yuanyuan, AI Jun. Application of Cement Intelligent Control System in Overseas Projects[J]. Cement Technology, 2018, 1(1): 60 -64 .
[8]	WANG Qingjiang. Analysis on Mechanical Performance of Typical Joints in Tubular Frame Structure[J]. Cement Technology, 2018, 1(1): 83 -88 .
[9]	LIU Xudong. How to Execute 60 kV Transmission Line EPC Project[J]. Cement Technology, 2018, 1(1): 89 -91 .
[10]	YAO Piqiang, HAN Hui, YU Weimin. Study on Calcining and Preliminary Application of New Low Calcium Cement[J]. Cement Technology, 2018, 1(2): 17 -25 .

Viewed

Full text

Abstract

Cited

Shared

Discussed