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1.
预测地层破裂压力是地下流体注入工程中的关键问题,关系到工程的稳定性和安全性。根据地测资料,岩石的抗拉强度会随着围压产生变化,然而目前常见的地层破裂压预测模型均未考虑该因素。基于厚壁圆筒法,针对2种砂岩开展不同围压条件下的砂岩致裂试验,根据试验数据,计算各组试验中试样的抗拉强度,并拟合围压与岩石抗拉强度的关系函数。研究岩石抗拉强度随围压变化的规律,提出能在实际地层中表征该规律的参数,基于该参数对现有的地层破裂压模型进行修正,并结合实测数据验证修正模型的可靠性。研究结果表明:岩石的抗拉强度随着围压的增加呈现明显的线性正相关关系,低围压下,新模型的预测结果与实测数据较为接近。随着围压增加,二者的差异逐渐增大,说明选取的特征参数在低围压下能较好地描述抗拉强度受围压的影响效应,而高围压下参数的取值需进一步研究。 相似文献
2.
为了解决吸附速率拟合公式缺乏而解吸经验公式众多的问题,通过替换解吸参数、定性和对比分析各经验公式对煤吸附CO2,N2,CH4吸附速率的适用性,选取4种不同煤质的煤样在0.5,1.0和2.0 MPa下进行定温吸附实验,分析压力和煤质对吸附速率的影响规律。研究结果表明:时间函数式对3种气体在不同压力和煤质下的吸附速率拟合效果最佳;压力和煤质对3种气体吸附速率的影响既存在共性又具有差异性,气体吸附速率与压力符合指数函数关系,与挥发分呈现出二次函数关系,并且压力升高会导致最低吸附速率趋向于较高变质程度煤样;CH4和N2的吸附速率随压力升高而升高,而CO2的吸附速率因煤样而不同,且在同压下,不同气体的最高和最低吸附速率煤样的变质程度也不同。 相似文献
3.
Evaluating potential hazards caused by accidental LNG release from underwater pipelines or vessels is a significant consideration in marine transportation safety. The aim of this study was to capture the dynamic behavior of LNG jet released under water and to analyze its vapor dispersion characteristics and combustion characteristics on the water surface during different release scenarios. Controlled experiments were conducted where LNG was jet released from a cryogenic storage tank. The dynamic process of LNG being jet released from orifices of different sizes and shapes, as well as the rising plume structure, were captured by a high-speed camera. The leakage flow rate and pipeline pressure were recorded by a flow meter and pressure gauge, respectively. The concentration distribution that emanated from the water surface was measured utilizing methane sensors in different positions with various wind speeds. The flame combustion characteristics of LNG vapor clouds, which immediately ignited upon the enclosed water tank, were also recorded. Additionally, the mass burning rate of the flame on the water surface was evaluated, and a new correlation between the ratio of flame length and width was established. The results indicated a large dimensionless heat release rate (Q*) and a continuous release flow rate in a limited burning area. This study could provide greater understanding of the mechanisms of LNG release and combustion behavior under water. 相似文献
4.
为了解盐度渐变对黄条鰤(Seriola aureovittata)渗透调节的影响,设置自然海水(对照组盐度为29),5,10,15,20,35六个盐度梯度,并对不同盐度下幼鱼鳃丝Na+/K+-ATP 酶活力、离子浓度、渗透压进行了检测和分析。结果显示:在盐度5~35,黄条鰤尿、血清、血浆的渗透压均随盐度升高而升高,盐度为35时渗透压均为最高,其中尿的渗透压显著高于血清和血浆渗透压。在盐度从29下降的过程中,鳃丝Na+/K+-ATP酶活力、离子浓度、渗透压呈现相似的变化规律,都随着盐度的降低而呈现总体下降的趋势;盐度从29升高到35时,各检测指标中仅有尿和血浆的K+ 含量无显著变化(P >0.05),其余均显著升高(P <0.05)。实验结果表明,黄条鰤生存和繁衍的自然海水盐度29是幼鱼存活的适宜盐度,在略低的盐度20~29均能较快适应,说明在盐度渐变过程中,黄条鰤幼鱼对外界盐度变化有较强的调节能力。 相似文献
5.
市政排污空间作为城市公共基础设施的重要组成部分,易积聚可燃气体形成爆炸性环境。结合排污空间的特殊环境条件,采用Fluidyn-MP多物理场数值模拟软件,建立了20 L球形爆炸罐分析模型,通过改变初始温度和初始压力,对排污空间甲烷-空气混合物爆燃特性及其变化规律进行模拟研究。结果表明:初始温度升高导致甲烷-空气混合物最大爆炸压力降低,缩短了到达最大爆炸压力的时间;初始压力增加导致最大爆炸压力急剧升高,并延长了到达最大爆炸压力的时间;最大爆炸压力对初始压力的敏感程度远大于初始温度的影响。此外,随着初始温度和初始压力的升高,爆炸火焰平均传播速度增加,而火焰传播速度对初始温度较敏感。 相似文献
6.
The inhibition effect of heptafluoropropane (CF3CHFCF3) on methane explosions under different inhibitor concentrations in a closed vessel was studied. A high-speed camera and a pressure sensor were adopted respectively to record flame propagation characteristics and pressure data. Results indicate that the relationship between flame propagation and pressure rising was correlated. As the equivalent ratio (ϕ)≤1, the pressure presented a trend of rising firstly and then decreasing with increasing CF3CHFCF3 concentration, and it was found that there existed a critical concentration for pressure decrease. As ϕ > 1, the pressure exhibited a decreasing trend. Although the pressure appeared to seemingly increase, the moment that the pressure began to rise (trise) and the moment that the maximum explosion overpressure appeared (tPmax) were obviously delayed. The average rate of pressure rise ((dP/dt)ave) was decreased as the concentration of CF3CHFCF3 increased. It indicates that CF3CHFCF3 can effectively reduce the explosion reaction rate. The critical concentration of CF3CHFCF3 for complete inhibition was determined. Meanwhile, the synergy of CF3CHFCF3-inert gas can improve the inhibition effect. Compared with CF3CHFCF3–N2, the synergy of CF3CHFCF3–CO2 presented a better inhibition effect, and the inhibition effect was increased with increasing inert gas concentration. And the mechanisms of physical and chemical effects on explosion inhibition were analyzed. 相似文献
7.
为探索瓦斯爆炸过程中温度变化规律,基于球形爆炸实验,研究不同初始瓦斯浓度条件下爆炸温度及爆炸温度与爆炸压力之间的相互作用关系。结果表明:随初始瓦斯浓度升高,在6.5%(低浓度)、9.5%(当量浓度)、12%(高浓度)时出现爆炸温度极大值,分别为995,932,1 153 K;爆炸过程中温度延迟时间及升温时间与初始瓦斯浓度曲线均呈U型变化,当初始瓦斯浓度约为9.5%(当量浓度)时,温度延迟时间及升温时间变化较小;当初始瓦斯浓度在爆炸上限浓度(16%)和下限浓度(5%)附近时,受瓦斯浓度影响变化较大;初始瓦斯浓度在9.5%时,瓦斯爆炸过程中的压力波促进火焰燃烧波的反向传播,出现二次升温现象。研究结果可为完善瓦斯爆炸温度变化机理、提高灾害防控技术提供依据。 相似文献
8.
为研究三元锂离子电池在空运低压环境中的安全性,通过自主设计搭建的封闭式变压实验舱开展相关实验,对不同荷电状态(SOC)下的三元锂离子电池在不同压力环境(101,80,60,40 kPa)下的热失控特性进行研究,采集电池热失控过程中的温度以及实验舱内的压力变化,并对热失控后实验舱内的气体成分进行分析。结果表明:三元锂离子电池热稳定性随着SOC的升高而下降,常压下100%SOC的电池热失控温度可达650.8 ℃,初始环境压力越低,相同SOC的电池热失控最高温度越低。随着环境压力的降低,相同SOC的电池在热失控后会生成更多CO,且电解液占比升高。研究结果可为锂离子电池空运安全性研究提供理论依据。 相似文献
9.
10.
Reducing the release pressure of fire extinguishing systems can decrease potential safety hazards in large transport airplanes. To explore whether reducing the release pressure can achieve the release effect required by the airworthiness standards or not, the transportation characteristics in the pipeline and diffusion behaviors in the enclosure space of a typical fire extinguishing agent (Halon 1301) were investigated under five release pressures in the present study. The effects of the release pressure on the degree of superheat, injection duration, jet structure, and concentration distribution of Halon 1301 were analyzed. The results show that both of the degree of superheat and the injection duration decrease with an increase in the release pressure. The supplement of bubble expansion in the fire extinguishing agent can slow down the pressure decrease in the vessel. Both of the maximum and mean values of the pipeline differential pressure increase with an increase in release pressure. The maximum value of the jet angle decreases linearly with the increase in release pressure, and the jet deflects upward owing to the effects of buoyancy. The maximum concentration value decreases with an increase in the distance from the nozzle. The maximum concentration values in the near field from the nozzle increase with an increase in the release pressure. Under five release pressures, the concentration and holding time (duration above 6% volume concentration) of Halon 1301 on the centerline of the jet meet the requirements of airworthiness provisions. 相似文献