基于LSTM-TCN的综采工作面顶板压力预测

顶板压力预测大多都使用1台液压支架的压力数据,缺乏相邻支架的压力相关性,基于相邻多台液压支架信息融合的LSTM-TCN模型预测一支架下一时刻的压力值。实验结果表明,该模型相比LSTM和TCN单支架预测模型,RMSE压力误差分别减小了12.3%和13.4%,MAE压力误差减小了10.3%和26.6%。

黄淮麦区假禾谷镰刀菌对3种杀菌剂敏感性测定

以假禾谷镰刀菌Fusarium pseudograminearum为主要病原菌引起的小麦茎基腐病已经成为黄淮麦区的主要小麦病害之一,对小麦生产安全带来严重威胁。为了解假禾谷镰刀菌对氰烯菌酯、戊唑醇和咯菌腈3种杀菌剂的敏感性,采用菌丝生长速率法对采自河南、河北、山东的108株假禾谷镰刀菌进行了室内毒力测定。试验结果表明:氰烯菌酯对假禾谷镰刀菌的EC_(50)为0.088~0.929μg/mL,EC_(50)均值为(0.471±0.181)μg/mL;敏感性分布为连续单峰曲线,经Shapiro-Wilk正态性检验符合正态分布(W=0.988,P=0.437>0.05),所以将所有菌株的EC_(50)平均值0.471μg/mL定为假禾谷镰刀菌对氰烯菌酯的敏感基线;戊唑醇对供试菌株的EC_(50)为0.015~0.961μg/mL,EC_(50)均值为(0.384±0.219)μg/mL,敏感性分布不符合连续单峰的正态分布;咯菌腈对供试菌株的EC_(50)为0.029~0.354μg/mL,EC_(50)均值为(0.153±0.075)μg/mL,敏感性分布不符合连续单峰的正态分布。不同地理来源菌株间敏感性存在差异,但对这3种杀菌剂都表现出较高的敏感性。本试验结果为3种杀菌剂在小麦茎基腐病上的防治应用提供了理论基础,为病原菌对药剂的敏感性、抗药性监测提供了重要信息。

终极埋存情景下二氧化碳驱油极限采收率探讨

基于国内外CO_(2)驱油矿场实践启示,探讨终极埋存情景下二氧化碳捕集、驱油利用与埋存(CCUS-EOR)开发方式的采收率问题。碳中和背景下,向地质体注入CO_(2)应追求永久埋存,CCUS-EOR成为一种终极开发方式,应追求采收率最大化,为此提出了CO_(2)驱油极限采收率概念,明确其与终极采收率、经济合理采收率概念的内涵区别,指出实现极限采收率已具备成熟配套的CCUS-EOR全流程技术基础。根据吉林油田黑79北小井距CO_(2)驱先导试验等国内外CO_(2)驱油项目生产实际数据,回归得到了混相气驱采收率与累计注入量的经验关系式;结合气驱增产倍数概念,建立了任意混相程度下CO_(2)驱提高采收率幅度计算的油藏工程方法。累计注气量为1.5倍烃类孔隙体积时,采出程度与极限采收率的相对偏差小于5%,绝对差值小于2.0个百分点。基于扩大波及体积技术的大孔隙体积倍数注入是逼近CCUS-EOR极限采收率的必要条件,需从大孔隙体积注入方案设计、提高混相程度和持续扩大波及体积3个方面入手实现。

复合驱表面活性剂乳化研究现状

乳化作用是化学驱提高采收率的重要机理之一,在复合驱过程中乳化作用能明显提高采收率。本文介绍了化学驱中表面活性剂形成胶束的结构、性质和增溶作用,概述了微乳液结构和性质及其在采油方面的应用,介绍了乳状液的稳定性及其在提高采收率方面的作用,归纳了复合驱乳化研究发展的方向。

超稠油油藏溶剂辅助蒸汽重力泄油室内实验研究

以国内某超稠油油藏为基础,应用二维物理模拟装置开展了蒸汽辅助重力泄油(SAGD)对比实验,研究了溶剂辅助SAGD技术对SAGD蒸汽腔发育特征、原油产量以及采收率的影响。研究结果表明,溶剂辅助SAGD中,溶剂以液相和气相共同存于油藏中,溶剂浓度越高,气相组分含量越高;溶剂中的气相组分在油藏中可以减少蒸汽在上覆岩层的热损失,提高蒸汽腔垂向扩展均匀性;合理溶剂浓度下,溶剂辅助SAGD可以显著提高峰值产量;低浓度溶剂辅助SAGD的单位原油产量的能耗明显低于纯蒸汽SAGD。实验结果表明,低浓度溶剂辅助SAGD对于开采超稠油油藏具有较大的应用潜力。

重大开发试验实践及启示

为实现开发方式转变和寻找战略性接替技术,2005年中国石油天然气股份有限公司启动了重大开发试验工程,目前已在14家油田开展了50项矿场试验项目。10多年的持续探索实践形成了4点认识:一是重大开发试验是油田开发领域战略性探索工程,是科技攻关成果向大规模生产力转化的关键环节,体现了油田开发技术的主要发展方向;二是全生命周期项目管理有助于写实项目全过程,整合力量,保障项目优质高效运行,加快工业化推广进程;三是秉承细节决定成败的工作理念,严守试验秩序,狠抓过程管理,建章立制,使日常管理有规可依、有章可循;四是注重典型试验的精细解剖,系统总结油田开发规律、驱油机理,为工业化推广做好各项准备工作。重大开发试验工程创新和发展了一批拥有独立自主知识产权的先进技术,长庆油田超低渗透油藏开发、大庆油田三元复合驱、辽河和新疆油田超稠油蒸汽辅助重力泄油和稠油火驱、吉林油田CO_2驱等技术已进入工业化生产,2018年产油达1600×10~4t以上;减氧空气驱、天然气混相驱和中低渗透油藏二元复合驱试验取得了重大突破,"十四五"期间有望工业化推广,年产量预计保持在2000×10~4t规模,将为公司上游业务加快发展做出新贡献。

陌夜蛾性信息素类似物的合成及其生物活性

【背景】陌夜蛾(Trachea atriplicis)作为一种重要食叶害虫,近年来,由于其数量以及危害程度的不断增加,已对我国华北、华东等地区的农林业造成重大危害,尤其是对荞麦等作物的产量构成严重威胁。【目的】以陌夜蛾性信息素主要组分顺-11-十六碳烯乙酸酯(Z11-16:Ac)为母体结构,合成6种具有不同生物活性的性信息素类似物,为陌夜蛾的综合治理开辟一种新型环境友好的防治策略。【方法】选用性信息素组分的前体顺-11-十六碳烯-1-醇(Z11-16:OH)为原料,在缚酸剂和催化剂的作用下,与酸酐或酰氯发生反应,通过硅胶柱层析进行分离纯化后,合成性信息素类似物共6种。包括极性基团为氨基甲酸酯的性信息素类似物M3、M4,极性基团末端引入不饱和键的性信息素类似物M5、M6,以及卤素原子修饰的性信息素类似物M7、M8。通过触角电生理试验(EAG)测定不同剂量性信息素类似物直接刺激下的EAG响应值,并于北京市延庆区进行田间试验对性信息素类似物的生物活性进行验证。【结果】EAG试验表明,类似物M1、M2、M6、M7和M8具有显著的剂量-效应关系。其中陌夜蛾雄蛾触角对类似物M7的响应最为强烈,在100μg剂量下响应值达2.36 mV,是同剂量条件下Z11-16:Ac响应值的77.9%。而M3—M5在10—1000μg剂量下,与性信息素组分Z11-16:Ac的相对响应值之间存在显著差异(P<0.05),M5的EAG响应整体活性表现较差,最高相对响应值仅为性信息素组分的21.2%。田间试验表明,类似物M1和M5在添加剂量为1μg时,平均诱捕量分别为38.00和35.67头/诱捕器/15 d,与性信息素对照相比存在显著差异;类似物M7在添加剂量为100μg时,平均诱捕量为29.67头/诱捕器/15 d,显著高于性信息素对照;类似物M4具有潜在的抑制活性,随着其添加剂量的增加,平均诱捕量逐渐减少,当添加剂量为1000μg时,平均诱捕量仅有3.33头/诱捕器/15 d。【结论】经过EAG试验和田间试验验证,类似物M1、M5和M7具有显著的增效活性,可以用作性信息素的增效剂,类似物M4具有显著的抑制活性,可以用作性信息素的抑制剂。研究结果可为使用性信息素类似物绿色防控陌夜蛾提供理论依据。

Discussion on the limit recovery factor of carbon dioxide flooding in a permanent sequestration scenario

Based on practices of CO_(2) flooding tests in China and abroad,the recovery factor of carbon dioxide capture,utilization in displacing oil and storage(CCUS-EOR)in permanent sequestration scenario has been investigated in this work.Under the background of carbon neutrality,carbon dioxide injection into geological bodies should pursue the goal of permanent sequestration for effective carbon emission reduction.Hence,CCUS-EOR is an ultimate development method for oil reservoirs to maximize oil recovery.The limit recovery factor of CCUS-EOR development mode is put forward,the connotation differences between it and ultimate recovery factor and economically reasonable recovery factor are clarified.It is concluded that limit recovery factor is achievable with mature supporting technical base for the whole process of CCUS-EOR.Based on statistics of practical data of CO_(2) flooding projects in China and abroad such as North H79 block CO_(2) flooding pilot test at small well spacing in Jilin Oilfield etc.,the empirical relationship between the oil recovery factor of miscible CO_(2) flooding and cumulative CO_(2) volume injected is obtained by regression.Combined with the concept of oil production rate multiplier of gas flooding,a reservoir engineering method calculating CO_(2) flooding recovery factor under any miscible degree is established by derivation.It is found that when the cumulative CO_(2) volume injected is 1.5 times the hydrocarbon pore volume(HCPV),the relative deviation and the absolute difference between the recovery percentage and the limit recovery factor are less than 5%and less than 2.0 percentage points respectively.The limit recovery factor of CCUS-EOR can only be approached by large pore volume(PV)injection based on the technology of expanding swept volume.It needs to be realized from three aspects:large PV injection scheme design,enhancing miscibility degree and continuously expanding swept volume of injected CO_(2).

Applicable scope of oxygen-reduced air flooding and the limit of oxygen content

The mechanisms of oxygen-reduced air flooding(ORAF)and the explosion limit and the corrosion control approaches were studied based on the pilots of oxygen-reduced air flooding(ORAF)in the Dagang,Changqing and Daqing oil fields in China.On the foundation of indoor investigations and pilots,the explosion limits,oxygen reduction limits and corrosion control approaches were clarified.When the temperature of reservoir is equal to and higher than 120℃,there is a violent reaction between oxygen and crude oil,that means the effect of low temperature oxidation would be fully taken use of to enhance oil recovery by air flooding directly;nitrogen dominated immiscible flooding with oxygen-reduced air should be applied in cases where reservoir temperature is below 120℃ with little oxygen consumption and little heat generated.The oxygen-reduced air flooding is suitable for 3 types of reservoirs:low permeability reservoir,water flooding development reservoir of high water-cut and high temperature and high salinity reservoir.In the process of development,in order to ensure safety,the oxygen reduction limits should be controlled fewer than 10%,while oxygen-reduced air can obviously reduce the corrosion rate of pipes;The surface pipelines and injection wells don’t need to consider about oxygen corrosion with no water,special materials and structure of pipe or corrosion inhibitor can be applied to the surface pipelines and injection wellbores with water.Air/oxygen-reduced air is a low-cost displacement medium and it could be applied in many special conditions of low permeability reservoir for energy supplement,huff and puff and displacement,that means oxygen-reduced air flooding has become the most potential strategic technology in 20 years.