超临界蒸汽注射井筒散热损失及压力降的计算

注蒸汽是目前世界上热力开采稠油的有效方法之一 ,而超临界蒸汽注射是这一方法的新发展。通过对动量方程、能量方程、散热方程等控制方程的求解来研究井筒散热损失、压力降和套管温度随注入时间、注入流量和压力、井筒深度的变化规律 ,并用 FORTRAN语言编制计算机程序 ,得到计算结果。可供现场操作中选择注汽参数及设计加热系统时选择锅炉参数的参考。

多孔介质中热蒸汽的迁移特性及其修复氯苯污染土壤的效果

蒸汽注射法是一种新近发展起来并对包气带非水相液体(NAPLs)污染修复具有较好应用前景的修复方法。为了探讨热蒸汽在非饱和多孔介质中的运移特征和蒸汽注射技术修复氯苯污染土壤的效果,本文通过一维模拟柱分别开展了热蒸汽在多孔介质中的迁移规律实验和蒸汽注射修复氯苯实验。研究表明:模拟柱中给定点处温度随时间变化可分为环境温度段、升温段和饱和蒸汽温度段3个阶段,随着温度锋面向下迁移,其迁移速度逐渐减小;模拟柱中的压力分布在蒸汽覆盖区域且空间分布呈线性规律,给定点处的压力随时间先增加后趋于平稳;实验结束后测得的水饱和度随蒸汽迁移距离的增加逐渐增加。在注入蒸汽质量流量为0.3kg/h和氯苯初始质量分数为56.8mg/kg的条件下,热蒸汽修复细砂中氯苯3.5h后去除率达98.0%。模拟柱底部因蒸汽冷凝水达到饱和而产生出流液,出流10min时出流液中氯苯最大质量浓度达到152.98mg/L,70min后出流液中氯苯质量浓度低于7.00mg/L;介质中氯苯质量分数随距离的增加而增加,最大残留量为0.36mg/kg。蒸汽注射法有效地改善了SVE(土壤气相抽提)法"拖尾"现象。

蒸汽-空气混合注射修复TCE污染的二维土箱实验研究

蒸汽-空气混合注射法是一种新近发展起来的并具有较好应用前景的包气带非水相液体(NAPLs)污染修复方法.为探讨蒸汽-空气混合注射法的修复过程及机制,本研究采用石英砂模拟包气带松散介质,选取三氯乙烯作为典型污染物,在二维土箱内人工设置不同的污染方式和污染区域,开展混合注射修复实验.结果表明,混合注射有效地改善了SVE法后期出现的"拖尾"现象,其修复过程可分为SVE阶段、蒸汽加强阶段和热量穿透阶段;污染区域零散分布与单一分布相比,热量穿透土箱的时间变短,TCE去除率更高,去除速率更快.污染区域零散分布与单一分布条件下,热量穿透时间分别为60 min、69 min,去除率分别为93.5%、88.2%,去除时间分别为83.9 min、90.6 min,缩短了修复时间;另外,在污染区域单一分布的实验中发生TCE污染羽的积累与下渗现象,降低了TCE去除效率,在污染区域零散分布实验中温度过渡带更宽,温度峰前冷凝的NAPL态TCE减少.

浅谈氮气隔热助排技术在稠油开采中的应用

蒸汽吞吐的方法在开采稠油的过程中存在一些不足之处,而氮气隔热助排是在现阶段稠油开发基础上研制出的一种技术方面。氮气隔热助排技术利用了氮气的导热系数、压力可以在降低以后体积迅速膨胀的特点实现有效隔热助排。施工过程中,需要严格依照设计要求对管柱完井进行设计,随后环空连续注入一定量的氮气,通过油管注入一定量的蒸汽。蒸汽,氮气位于尾管的喇叭口混合以后进入到地层当中。结合施工现场的实际反应效果,使用氮气隔热助排技术可以保持地层能量,与此同时将原油产量提升,降低单位稠油开采成本。

Analysis and Calculation of the Flow Pressure in the Multipoint Steam Injection String of a Horizontal Well

The multipoint steam injection string of the horizontal well is a commonly used downhole component for high efficiency steam injection of the thermal recovery horizontal well. A reasonable layout of the valves to ensure an even steam output of each point is still not well designed. At present, a general design method which is urgently necessary isn＇ t applied by each factory. According to the balance relationship of the momentum, the energy and the mass of the fluid flowing in the string, the pressure distribution equation of the fluid flowing in the multipoint steam injection string is built. On the basis of this equation, the design calculation method of the multipoint steam injection string is come up with. A specific example is given in the paper. Study shows that, with the equation built in this paper, the string can be designed with each axial valve having the same output, so that the technical demand of an even steam injection of the horizontal well section can be met.

污染场地修复中原位热脱附技术与其他相关技术耦合联用的意义、效果及展望

在有机污染场地修复过程中,原位热脱附技术因具有土方不开挖、不转运、对周围环境干扰小以及污染物去除彻底等诸多优势,故其应用范围逐渐增多。但该技术也存在修复施工成本相对较高的弊端,且此弊端主要是由于采用单一热脱附技术能耗很高的原因造成的。原位热脱附技术与化学氧化、微生物降解以及蒸汽注射等手段的耦合可以很好地弥补这一不足,尤其是针对大型的复杂有机污染场地。针对目前原位热脱附技术在应用过程中存在的主要问题,在分析了国内外大量相关研究与案例的基础上,梳理了原位热脱附与化学氧化、微生物降解及其他原位热处理等技术耦合的应用情况,提出了原位热脱附耦合技术的工程应用建议。

Review on Closing Steam-injection Pressing Technology

The general steam-injection pressing is mainly used for produce particleboards and medium density fiberboard. However, it is difficult to produce soft fiberboard with desired strength. However, the closing steam-injection pressing that based on the steam-injection pressing could. The wooden frame sealing up the slab could prevent the steam from emitting when the steam injected into the slab. The caloric released by steam condensation make the slab reach high temperature level for a short period. This method is very appropriate for making thick panels in theory, especially for the soft fiberboard. It makes a great leap forward on the hot pressing process that for wood-based panels. Moreover, it will be a meaningful technological breakthrough in developing new products and improving wood utilization.