套管外流动检测技术研究

在油田开发的各个不同阶段,经常需要了解油水井中套管的损伤、腐蚀及内径变化情况,射孔质量,管柱结构;检查套管外水泥胶结质量和管外窜通位置;判断出水层位;评价压裂酸化及封堵效果等。所有这些都需要通过测井来获得。因此,随着测井技术的发展,人们对套管外流动检测技术进行了越来越深的研究。本文着重对几种现场常用的套管外流动检测测井方法及应用技术进行了探讨。

管外壁面有流动水膜时横掠空气对流换热的相似解

采用相似解分析方法探讨了圆管外壁面上存在流动水膜且空气横向绕流圆管时，在驻点区域的水膜流动状况对空气对流换热的影响．分析结果表明，与空气横向绕流光圆管时相比，在驻点下方区域对流换热被加强。

管外上升R－113流体的沸腾换热试验

详细介绍了Ｒ－１１３流体管外上升流动的沸腾换热试验，包括试验台架、流量计和温度测量的修正，以及试验数据。拟合的换热关系式为ｑ＝５２８（Ｔｗ─Ｔｓ）１．３３。

一种全管束配水的蒸发式冷凝器及其风阻实验研究

全管束配水方式的特点是对每根工艺管单独配水。在喷淋量为0．5—1．2m。／h，迎面风速为0．5—4．0m／s下通过实验研究了喷淋水量和迎面风速对全管束配水蒸发式冷凝器管外流动阻力的影响，并与常规集中配水方式进行了对比。结果表明：在顺流及逆流状态下，喷淋量为1．2m3／h时，全管束配水蒸发式冷凝器管外空气流动阻力比集中配水蒸发式冷凝器，平均减少11．5％及49．7％。当逆流流动时，全管束配水空气流动阻力突增点的迎面风速为3．5m／s，高于集中配水蒸发式冷凝器。全管束配水蒸发式冷凝器与常规蒸发式冷凝器相比，应用于制冷系统中可节能2％左右。

水平管降膜蒸发器管外液体流动数值模拟

采用Fluent软件,针对换热管采用旋转三角形排布方式,换热管分别选用椭圆管、圆管的水平管降膜蒸发器(换热管内为水,换热管外为制冷剂),对布液口制冷剂入口流速(分别选取0.1、0.15 m/s)、管纵向间距(分别选取6.4、9.5 mm)对管间制冷剂流动状态(柱状流、滴状流)、管外成膜效果、液膜厚度的影响进行模拟研究。对于椭圆管管束,在管间距一定的条件下,随着制冷剂入口流速增大,管间基本能保持柱状流。与制冷剂入口流速0.15 m/s相比,制冷剂入口流速为0.1 m/s时,管束尾部的管外成膜效果变差。在制冷剂入口流速一定的条件下,随着管间距增大,管束尾部管间滴状流增多,管外成膜效果变差,但未出现明显的管与管之间滴状流的互相扰动。对于圆管管束,制冷剂入口流速、管间距对管间制冷剂流动状态、管外成膜效果的影响与椭圆管管束基本一致。相同条件下,圆管管间制冷剂流动状态及管外成膜效果均逊色于椭圆管,而且管束尾部出现了明显的管与管之间滴状流的互相扰动。在相同的管间距、制冷剂入口流速条件下,与圆管相比,椭圆管的管外液膜厚度更薄。较小的制冷剂入口流速有利于减小管外液膜厚度,促进换热效率的提高,但不利于管束尾部的管外成膜。管间距对管外液膜厚度的影响比较小,但不宜过大,以免影响管束尾部管外成膜效果。对于采用旋转三角形排布方式的水平管降膜蒸发器,换热管应选用椭圆管,制冷剂入口流速、管间距的选取应兼顾管外液膜厚度与管束尾部管外成膜效果。

Salusins protect myocardium against ischemic injury by alleviating endoplasmic reticulum stress

Salusins are regulatory peptides that affect cardiovascular function. We previously reported that salusin-a and -β protected cultured cardiomyocytes from serum deprivation-induced cell death through upregulating glucose-regulated protein 78 （GRP78）, an endoplasmic reticulum （ER） resident protein whose overexpression acts as a marker and suppressor of ER stress. The present study examined whether salusin-α and -β inhibit ER stress in ischemic myocardium. In a rat model of myocardial infarction created by ligating the left anterior descending coronary artery （LAD）, salusin-α or -β was intravenously injected at 5 or 15 nmol kg-1 15 min prior to 2 h of LAD occlusion. The high dose of salusin-α and -β3 significantly improved heart function and hemodynamics in LAD-occluded rats, but had no effects in sham-operated rats. The arrhythmias caused by LAD oc- clusion were markedly attenuated by salusin-α and -β. The apoptotic rate in ischemic myocardium was reduced from 31.5%±3.7% to 19.8%±2.2% and 12.3%±2.2%, and the infarct size was reduced from 53.4%±4.0% of the risk area to 26.5%±9.7% and 23.7%±8.9% by 15 nmol kg-1 salusin-α and -β, respectively. Furthermore, salusin-α and -β prevented the ac- tivation of GRP78 and ER stress-specific apoptotic effectors caspase-12 and CHOP （C/EBP homologous protein）, and attenu- ated the reduction of an ER stress-associated antiapoptotic protein Bcl-2 in ischemic cardiac tissue. The salusins also inhibited the ER stress induced by tunicamycin in cultured rat H9c2 cardiomyocytes. These results indicate that salusins protect myo- cardium against ischemic injury by inhibiting ER stress and ER stress-associated apoptosis.