浅水水下控制系统集约化设计

针对水下控制系统在渤海海域浅水区应用所面临的水深较浅空间受限、外部干扰因素多、可靠性差及经济效益低等问题,通过系统研究提出了一种集约化、高可靠性、可用性和可维护性的浅水水下控制系统的设计方法。以水下管汇为控制中心,采用1套水下控制模块(SCM)控制2棵水下采油树的1控2模式,简化了水下结构物的尺寸和数量,实现了集约化设计并降低了成本;开展了水下控制模块对接盘和通信组网设计,保障了1控2模式的可行性;基于SCM冗余技术,提出了水下电子模块(SEM)交叉冗余及光纤通信叠加电力载波的双网通信设计方案,开发了控制系统故障诊断和预警模块,提高了浅水控制系统的可靠性、可用性和可维护性。研究成果已在锦州31-1气田开发中成功投运,对中国海域浅水受限区油气田开发中水下控制系统的设计具有重要参考价值。

渤海浅水水下生产系统开发模式及国产化装备研制现状

中国渤海海域油气资源储量丰富,但部分处于受限区,传统导管架平台开发模式无法适用。基于此,创新性提出了采用浅水水下生产系统开发模式盘活受限区油气储量。针对渤海特殊环境条件,分析了浅水水下生产系统较深水的差异及技术难点;基于渤海军事受限区和通航受限区的环境特点,分别提出了“泥面以上水下生产系统+保护装置+警示浮标”及“泥面以下钢圆筒水下生产系统”两种浅水水下生产系统开发模式,详细阐述了其所涉及的紧凑型设计与集成、水下异地控制、水下冗余通信、水下全防护设计以及基于潜水员模式的水下安装等关键技术;总结了浅水水下生产系统关键装备国产化研制现状及其技术特征;从促进浅水水下生产系统发展的角度,对浅水水下生产系统总体布局及国产化装备研制提出了建议。

浅水水下沉箱开发模式表层建井方法

中国渤海部分油气田由于渔业、通航等用海重叠,无法通过常规新建导管架进行开发,亟需改变开发模式。浅水水下沉箱开发模式,将采油树、管汇等设施安装在沉入泥线下的钢圆筒中,可避免在水面上新建工程设施,是解决受限区油气开发的创新设计。基于作业特点,本文针对钻入法、喷射法、锤入法开展了建井方式分析,优选锤入法并开展了针对性设计。首先,基于工程实际,从理论层面分析了水下井口的强度和疲劳寿命,可以满足作业需要;其次,对于采用自升式钻井平台作业下送入立管无支撑长度大的特点,采用有限元模拟分析了45 m立管自由段的应力和弯矩响应,结果显示可以满足最大3 500次锤击数的要求;最后,水下井口的上部接头螺纹需要在打桩后与送入工具倒扣,其能否顺利操作及倒扣后的接头是否损伤需要确认,采用工程实际装备开展原尺寸打桩实验,经过3 500锤锤击后,最终可以顺利卸扣,卸扣力可满足现场设备要求,超声波探伤结果合格。本文提出的浅水水下沉箱开发模式表层建井方法,可为渤海油田浅水水下开发提供借鉴。

浅水水下采油树风险评估方法适应性分析

调研水下采油树国内外可靠性分析的研究现状,指出可靠性分析中存在的不足之处。详细介绍几种典型的风险评估方法并对浅水水下采油树的适应性进行分析。针对渤海浅水水下采油树建立事故树分析模型,得出关键结构重要度排序,根据分析结果,结合实际渤海油气田特点,对油管悬挂器、采油树保护装置和生产阀组在设计方面提出一些实际工程建议,为形成一套适用于浅水油气田的水下采油树风险评估和可靠性分析体系提供理论基础,同时也对我国浅水水下采油树进行自主研发、优化设计和安全运行提供重要参考。

浅水受限区水下油气田开发方案

针对国内浅水油气资源开发环境影响及空间受限等问题,本文提出了国产浅水水下生产系统的总体设计方案。通过对浅水水下生产系统关键设备结构进行分析,提出了一种满足受限区海域开发要求的环境友好型设计思路。结果表明:通过系统和总体布置的设计,国产浅水水下生产系统与深水相比在单体重量、作业方式、维护检修方面更加经济。

浅水水下采油树发展现状分析

目前在油田开发中,水下采油树的应用日趋增多,现阶段水下采油树的应用主要集中在深水领域,而随着石油发展逐渐完善,规模逐渐增大,浅水水下采油树的应用势在必行。渤海油田属于典型的浅海,水深3 0 m左右,蕴藏着大量而又丰富的石油资源,有些区块处于比较敏感的地带,无法使用固定平台,所以水下采油树以及水下生产系统无疑成为很好的一种选择,而一些国产的水下采油树厂家近年来加大投资和研究力度,从而使得水下采油树的成本有了下降,间接降低了油气田开发的投资。为确保浅水水下采油树的安全性和可靠性,需要特别考虑水下采油树的材料问题,并对浅水条件下的可靠性和风险进行分析。

浅水干式沉箱水下生产系统爆炸风险分析

浅水干式沉箱水下生产作为一种全新海上油气田开发模式,为浅水受限海域开发提供科学的解决方案。采用危险源辨识(Hazard Identification,HAZID)分析,识别干式沉箱水下方案的危险因素。引入定量爆炸风险分析,对干式沉箱潜在的烃类气体泄漏及爆炸风险进行分析。浅水干式沉箱水下生产系统最大爆炸超压为0.0178 bar,对应累计概率为2.78×10^(7)/a,从风险角度来看,爆炸超压值和概率在可接受范围内。分析方法可准确评估浅水干式沉箱水下生产系统各设施的风险水平,研究内容可为干式沉箱防爆设计及运维阶段的人员救生、逃生工作提供参考依据。

水下沉箱冲淤特性模型实验研究

水下沉箱是渤海通航区水下生产系统的重要防护装置,但海流冲刷作用可能导致沉箱暴露,使其面临被渔业活动、船舶抛锚等破坏的风险。为支撑渤海浅水水下生产系统水下沉箱方案设计,以某实际工程闭口型水下沉箱为例,通过物理模型实验,研究沉箱凸出高度、回填砂与原场砂等对沉箱冲淤特性的影响。实验中考虑海床面与沉箱顶面相对位置的不同,设置了凸出式、齐平式(沉箱顶面与海床表面齐平)与掩埋式3种水下沉箱模型实验,研究沉箱在不同掩埋情况下其周边海床土层的冲淤特性。结果表明,闭口型沉箱顶部高于海床面或与海床面齐平时,沉箱来流方向上游发生了局部冲刷,下游则出现了不同程度的淤积,且淤积高度随沉箱凸出高度增大而增大;对于掩埋式沉箱,回填沙在极限流速下会被完全冲走,但原场砂会重新回填、淤积并覆盖沉箱;但如果上游泥砂量供给不足,随着时间发展,沉箱周围的泥砂将被冲刷并导致沉箱暴露。综合模型实验结果,建议该工程使用齐平式或者掩埋式闭口沉箱形式。本研究为水下生产系统水下沉箱的设计提供了参考。

渤海通航区海床下防护系统设计方案及关键技术

考虑通航和水下设备安全,海床下浅水水下生产系统开发模式是通航区油气资源开发的唯一有效途径,而海床下防护系统是该类水下生产系统正常工作的基本保障。以渤海通航区某油田水下开发方案为例,针对湿式和干式、基槽开挖和钢圆筒支护、多井口和单井口等多种防护系统方案开展研究,综合技术可行性、经济性及对海洋环境的影响等,提出了一体化钢圆筒湿式防护系统方案,并对方案所涉的岩土设计、钢圆筒结构设计、槽口密封、安全预警、设备安装等核心技术开展了研究。结果表明:钢圆筒结构可振沉至设计深度且具备一定安全储备,基坑稳定性亦满足规范要求;考虑钻井船插桩产生的挤土力和抛锚荷载,所设计的钢圆筒筒体和顶盖结构均满足强度和刚度要求;钢性补板结构+橡胶密封的槽口密封方案,可有效避免钢圆筒外部海床土体进入钢圆筒内部,满足工程密封需求;所研发的安全预警系统,可实现监测数据的实时采集及整理。此外,提出了一体化钢圆筒水下防护系统安装方案,解决了钢圆筒振沉和水下生产系统电液飞线的连接等难题。海床下水下防护系统总体设计方案和关键技术的提出与形成,为渤海通航区油气资源的开发提供了有效解决方案。

自升式钻井平台插桩对泥线下沉箱影响模拟研究

渤海地区因用海矛盾,超过80%油气探明储量无法通过常规新建导管架模式开发。中国海油创新性引入泥线下沉箱,将开发设备放置到沉箱内,即可避免对通航等造成影响。在该模式下,自升式钻井平台靠近插桩作业,是影响沉箱安全性的关键操作,需要着重分析。首先采用拟静力法理论,对自升式钻井平台插桩产生的挤土效应开展分析,计算得出不同插桩深度下桩身所受挤土作用的影响半径和深度。然后,基于有限元分析软件,模拟分析了在实际作业情况下的钻井船插桩对钢圆筒的影响,给出了最小安全距离。最后,通过1:20模型的实验,模拟了现场全作业流程,应用土压力计和应变片记录了力学响应,分析得到影响规律。形成的分析方法可为现场作业提供理论参考。

Shallow groundwater dynamics in North China Plain

The groundwater level of 39 observation wells including 35 unconfined wells and 4 confined wells from 2004 to 2006 in North China Plain(NCP) was monitored using automatic groundwater monitoring data loggers KADEC-MIZU II of Japan.The automatic groundwater sensors were installed for the corporation project between China and Japan.Combined with the monitoring results from 2004 to 2006 with the major factors affecting the dynamic patterns of groundwater, such as topography and landform, depth of groundwater level, exploitation or discharge extent, rivers and lakes, the dynamic regions of NCP groundwater were gotten.According to the dynamic features of groundwater in NCP, six dynamic patterns of groundwater level were identified, including discharge pattern in the piedmont plain, lateral recharge-runoff-discharge pattern in the piedmont plain, recharge-discharge pattern in the central channel zone, precipitation infiltration-evaporation pattern in the shallow groundwater region of the central plain, lateral recharge-evaporation pattern in the recharge-affected area along the Yellow River and infiltration-discharge-evaporation pattern in the littoral plain.Based on this, the groundwater fluctuation features of various dynamic patterns were interpreted and the influencing factors of different dynamic patterns were compared.

Technology of groundwater reservoir construction in goafs of shallow coalfields

In exploiting shallow coal resources in western China, conservation of water resources is often subjugated to considerations of safety and production in coal mines. In order to maintain a sustainable development in the Shenfu-Dongsheng coalfield, we propose a technology of constructing groundwater reservoirs in goafs in shallow coalfields to protect fragile ecological environments. Given the premise of safe production, we selected an appropriate goaf as the site for constructing a groundwater reservoir and used a mine water recharge technique in combination with other related techniques for effective water conservation. Then filtering and purification techniques were used to purify the mine water given the physical and chemical properties of mine water and its filling material, ,thereby greatly reducing suspended matter, calcium and other harmful ions in the water. With the potential of widely application, the research result has been successfully applied in the Daliuta coal mine, to great economic and ecological effect. Therefore, this achievement provides a new way for mine water conservation in shallow coal resources in western China.

Managed Aquifer Recharge Using Infiltration Pond： Case Study of Ban Nong Na, Phitsanulok, Thailand

The Upper Chao Phraya River Basin, Thailand, has been facing continuous groundwater level decreases due to over-extraction for irrigation. MAR （managed aquifer recharge） using infiltration pond was investigated and constructed. A recharge experiment at the pilot site at Ban Nong Na, Phitsanulok Province, was conducted during 2009 to 2011 to mitigate the declining shallow groundwater level. The HELP3 and MODFLOW models were applied to explore the current groundwater recharge. The MODFLOW was used to simulate the recharge mechanism of the experiment in the 1,260 m2 infiltration pond during July to November, 2010. The simulated results showed the groundwater influx and outflux for the year 2010 were 1.34 Mm3 1.57 Mm3, respectively. The annual shallow groundwater extraction was 1.40 Mm3 resulting in the groundwater system deficit of 0.23 Mm3 and causing groundwater level decline at the rate of 0.25 m/yr. The critical zone with groundwater level deeper than 8 m from the ground surface covers 19% of the study area of 4.12 km2 and it would be increased up to 85% within the next 10 years （2020）. To achieve the groundwater system balance, the deficit amount of 0.23 Mm3 is needed and six infiltration ponds are required.

Hydrogeochemical Characteristics of Fluorine in Shallow Groundwater of Tongshan Area

Tongshan area,a part of the floodplain of the abandoned Huanghe River, is one of the popular endemic fluorosis areas in East China. One of the reasons is high concentration of fluorine in shallow groundwater. Test results of 36 groundwater samples show that fluorine concentration in shallow groundwater is 0.18–6.7 mg/L and 50 % of the samples exceed the Chinese drinking water quality standard. There exists a significant negative correlation in content between Ca2+ and F - . The correlations between fluorine concentration and other cations (for example Na+, K+, Mg2+) are not significant. The content of dissolved fluorine from the flooding sediments of the Huanghe River that varying from 5.6 mg/kg to 15.2 mg/kg plays an important role in forming the high fluorine groundwater. Usually, the dissolved fluorine content in silt is much higher than that in silty clay and clay. According to the geological investigation fluorine content in deep groundwater (over 60 m) is less than 1.0 mg/L and suitable for drinking, so it is an effective measure to prevent endemic fluorosis by extracting deep groundwater in disease areas.

水下测试树完成解脱与回接的现场新应用

我水下测试树是用于海上浮动式平台进行测试或完井作业时的一套安全控制装置,属于测试或完井管串中的一部分,位于套管头抗磨补芯以上及海平面以下。作业期间倘若遭遇到台风等恶劣天气,为了确保平台和水下井口的安全,需要紧急断开井下生产作业管柱,可以快速、安全地解脱水下测试树,从而使得入井管柱从海底防喷器盲板下方的位置上断开,以便平台应急避险和安全井控。险情过后,再回接水下测试树连通井下至地面作业流程,然后继续进行生产作业。目前,在国内的现场作业过程中,操作过两次水下测试树的解脱与回接,均成功顺利地完成了作业任务。本文简要总结了这两次水下测试树解脱与回接的作业过程,并结合水下测试树的作用原理及现场遇到的井下作业管柱遇卡的事故处理方法,拓宽了水下测试树的现场实际运用,赋予了水下测试树应用的新意义。