引用本文:王鹤超,吴明,杨蕊,程猛猛,张尚洲. 建筑群外埋地燃气管道泄漏的风险性评估[J]. 石油与天然气化工, 2015, 44(1): 93-98.
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建筑群外埋地燃气管道泄漏的风险性评估
王鹤超1,吴明1,杨蕊1,程猛猛2,张尚洲3
1.辽宁石油化工大学石油天然气工程学院;2.新疆油田公司油气储运公司 ;3.辽河石油勘探局油田建设工程一公司
摘要:
针对建筑群外埋地燃气管道穿孔泄漏问题,利用Gambit2.4建立三维仿真模型,并运用CFD软件Fluent14.0分别对不同环境温度、湿度条件下,燃气在土壤和大气中的连续泄漏扩散工况进行了数值模拟。对比分析了环境温度、相对湿度耦合作用下对燃气扩散的影响及浓度分布规律。研究结果表明,从泄漏口喷出的燃气首先在土壤层中迅速扩散,致使上方地表附近的浓度值很快达到了爆炸下限和上限。透过地表的燃气遇到两侧建筑物时,在迎风侧和背风侧方向分别形成不同的浓度扩散区域。受不同湿度和温度的影响,部分建筑物表面的预警浓度所处高度发生了明显的变化。案例研究结果可评估燃气泄漏事故的范围大小 和指导人员及时有效地疏散。
关键词:  建筑群  燃气管道  扩散  耦合作用  风险  评估
DOI:10.3969/j.issn.1007-3426.2015.01.021
分类号:TE88
基金项目:国家质检总局科研项目“质检公益性行业科研专项项目”(201010025)。
Leakage risk evaluation of buried gas pipeline outside the buildings
Wang Hechao1, Wu Ming1, Yang Rui1, Cheng Mengmeng2, Zhang Shangzhou3
(1.Academy of Petrol and Natural Gas Engineering, Liaoning Shihua University, Fushun 113001, China;2. Oil and Gas Storage and Transportation Company of Xinjiang Oilfield Company, Karamay 834000, China;3. Liaohe Oilfield First Construction Engineering Company of Liaohe Petroleum Exploration Bureau, Panjin 124120, China)
Abstract:
In view of the problem of buried gas pipeline piercing leakage outside the buildings, a three-dimensional simulation model was established with Gambit2.4. The continuous leak diffusion circumstance of gas in soil and atmosphere were carried out through numerical modeling by CFD software Fluent 14.0 under different ambient temperature and humidity. The influence factor of gas diffusion and the distribution regularity of concentration were comparatively analyzed under the coupling effect of ambient temperature and relative humidity. The research result showed that the gas ejecting from the leakage mouth first spread rapidly in the soil layer, resulting in the concentration of the upper surface quickly reaching the lower explosive limit and upper explosive limit. As the gas permeating through the earth surface, it influenced both sides of the building. Different concentration diffusion regions also formed on the windward side and the leeward side direction. Affected by different humidity and temperature, for some buildings, the warning concentration on the height of surface changed obviously. The case study results could assess the scope of the gas leak accident and effectively evacuate the masses in time.
Key words:  building group  gas pipeline  diffusion  coupling effect  risk  evaluation