山西寺河矿“三进三回”通风系统优化设计

金属矿山 ›› 2019, Vol. 48 ›› Issue (05): 147-153.

山西寺河矿“三进三回”通风系统优化设计

宋佰超^1,2，李雨成³，罗红波¹，郑义¹

1. 辽宁工程技术大学安全科学与工程学院，辽宁阜新 123000；2. 内蒙古自治区矿山压力重点实验室，内蒙古呼伦贝尔 021008；3. 太原理工大学安全与应急管理工程学院，山西太原 030000

出版日期:2019-05-15 发布日期:2019-07-03
基金资助:
辽宁省教育厅基金项目（编号：LJYL002）。

Optimization Design of the “Three Intake Shafts and Three Return Shafts” Ventilation System of Sihe Mine in Shanxi Province

Song Baichao^1,2，Li Yucheng³，Luo Hongbo¹，Zheng Yi¹

1. College of Safety Science and Engineering，Liaoning Technical University，Fuxin 123000，China；2. Key Laboratory of Mine Pressure of Inner Mongolia，Hulun Buir 021008，China；3. College of Safety and Emergency Management Engineering，Taiyuan University of Technology，Taiyuan 030000，China

Online:2019-05-15 Published:2019-07-03

摘要/Abstract

摘要： 寺河矿当前采用分区通风方式，由3个进风井和3个回风井组成，通风系统复杂。随着生产的持续，出现1#回风井所在分区通风系统风量利用率低、电力消耗较大、风机低压供电不稳定和2#回风井所在通风区域巷通风距离长、阻力大、通风能力近饱和等问题，整个矿井安全可靠性较差。通过对矿井进行通风参数测试与数据处理、通风系统网络普查，构建了通风仿真解算网络，从通风系统阻力合理性、矿井各用风地点风量供需对比、三区阻力分布和公共进风路线对风机工况扰动等角度详细分析了当前通风系统存在的具体问题。对主干风路（3个进风井和3个回风井）的过风能力和各用风点的需风量进行了核定，根据总进风量满足生产需求且总进风量与总回风量相匹配的原则，提出将当前3#进风井变为回风井、将1#回风井和2#回风井变为进风井的改造方案，即将“三进三回”通风系统改造为“四进两回”通风系统。对改造后的通风系统重新进行了盘区划分，按照选定的最优盘区划分方案对“四进两回”通风系统进行了调整，最终总回风量达到17 743.2 m3/min，回风量增加，总阻力降低，各用风点的风量满足要求，系统阻力分布合理，风机能耗降低。

关键词: 矿井通风, 通风系统, 分区通风, 通风网络解算, 多风机复杂风网, 通风阻力, 通风优化

Abstract: Zoning ventilation system is used in Sihe Mine currently，which consists of three intake shafts and three return shafts，and the ventilation system is complex.As production continues，many problems have arisen，such as low utilization rate of air volume，greater power consumption，unstable low-voltage power supply of fun in ventilation system of No.1 return shaft，long ventilation distance，large resistance and ventilation capacity near saturation in ventilation system of No. 2 return shaft，the safety and reliability of the whole mine is poor.In order to solve the above existing problems，the ventilation simulation computation network is established by means of ventilation parameters testing，data processing and ventilation system network surveying，and so on.The specific problems of current ventilation system of the mine are analyzed in detail from the aspects of resistance rationality of ventilation system，comparison between supply and demand of air volume in different using places，resistance distribution in the three zones and disturbance of public air intake route to fan working conditions.The ventilation capacity of main air routes （three intake shafts and three return shafts） and the required air volume of each using places are checked.According to the principle that the total air intake should meet the production demand and the total air intake should match the total air return，the optimization and improvement scheme of transforming 3# air intake shaft into return shaft and transforming 1# and 2# return shafts into intake shafts is proposed，that is，the “three intake shafts and three return shafts” ventilation system is transformed into “four intake shafts and two return shafts” ventilation system.The “four intake shafts and two return shafts” ventilation system is re-divided into different sections，and the new ventilation system is adjusted according to the selected optimal partition scheme.The study results show that the final total return air volume reaches 17 743.2 m3/min，the return air volume is increased，the total resistance is decreased，the air volume at each using place meets the requirements，the system resistance distribution is reasonable and the energy consumption of the fan is reduced.

Key words: Mine ventilation, Ventilation system, Zoning ventilation, Computation of ventilation network, Multi-fan complex network, Ventilation resistance, Ventilation optimization

宋佰超, 李雨成, 罗红波, 郑义. 山西寺河矿“三进三回”通风系统优化设计[J]. 金属矿山, 2019, 48(05): 147-153.

SONG Bai-Chao, LI Yu-Cheng, LUO Hong-Bo, ZHENG Yi. Optimization Design of the “Three Intake Shafts and Three Return Shafts” Ventilation System of Sihe Mine in Shanxi Province[J]. Metal Mine, 2019, 48(05): 147-153.

[1]	李晓刚, 王湘桂, 胡永泉. 矿井通风系统节能减阻研究[J]. 金属矿山, 2019, 48(04): 184-188.
[2]	朱强, 陈星明, 肖正学, 赵周能. 甘肃某地下铁矿通风系统现状分析与优化[J]. 金属矿山, 2016, 45(12): 176-180.
[3]	蒋复量, 杨增光, 李向阳, 张帅, 黎明. 矿井通风系统的组合赋权可拓模型安全综合评价[J]. 金属矿山, 2016, 45(05): 168-172.
[4]	马恒, 张跃, 周西华. 含自然风压通风网络的自动解算及应用[J]. 金属矿山, 2016, 45(01): 161-165.
[5]	杨艳国, 王祎, 周新雨. 基于无线传感器的矿井通风测试系统及软件开发[J]. 金属矿山, 2015, 44(05): 149-152.
[6]	龚开福, 李夕兵, 李国元, 时增辉. 大型机械化金属矿山通风系统优化[J]. 金属矿山, 2015, 44(01): 122-127.
[7]	任渊, 李宁, 王李管, 贾明涛. 基于WiFi传感器网络的矿井通风监测系统[J]. 金属矿山, 2014, 43(11): 117-120.
[8]	刘晓培, 宫锐, 常德强, 曲元龙, 柳静献. 金属矿山可控循环风利用与节能[J]. 金属矿山, 2014, 43(09): 132-136.
[9]	徐云龙, 杨栋, 康志勤. 近距离煤层联合开采的通风阻力测试及围岩破坏规律研究[J]. 金属矿山, 2014, 43(08): 166-169.
[10]	卢杰, 蒋仲安, 牛伟, 祁建东, 张发胜. 西石门铁矿通风系统改造[J]. 金属矿山, 2013, 42(06): 118-120+125.
[11]	刘多文, 李许胜, 韩宗欣, 赵振鹏, 施鲁兵. 黄金矿山深井制冷通风技术应用研究[J]. 金属矿山, 2013, 42(06): 129-133.
[12]	杨丽, 丁伟, 谭聪. 玉石洼铁矿通风系统优化效果模拟研究[J]. 金属矿山, 2013, 42(06): 138-142.
[13]	谢振华, 李正涛, 杨静. 基于模糊相似优选比的通风系统快速决策法[J]. 金属矿山, 2013, 42(04): 122-124+127.
[14]	黄绍明, 季现伟, 王晶. 网路降阻与风机调节相结合管理井下通风系统[J]. 金属矿山, 2013, 42(03): 137-140.
[15]	王运敏, 陈宜华, 贾敏涛. 金属矿山深井高温巷道通风预冷降温技术[J]. 金属矿山, 2013, 42(02): 143-146.