摘要
东营凹陷位于渤海湾盆地济阳坳陷,该区经历了近五十年的油气勘探,发现油田33个,探明地质储量24.88亿吨,已经成为一个重要的油田区。东营凹陷沙四段上亚段发育了丰富的滩坝沉积成因砂体,滩坝砂体是东营凹陷西部沙四上亚段的主要储层,已上报探明滩坝砂石油地质储量1.4亿吨,滩坝砂是东营凹陷重要的勘探方向之一。滩坝砂体非均质性强,油水分布规律复杂,开发效果差,导致开发成本高,制约了该地区低渗透滩坝砂岩的高效开发。因此,探索滩坝砂储层分布规律准确预测油藏分布、掌握渗流机理形成有效开发技术成为滩坝砂油藏实现高效勘探开发的关键。
论文在结合前人研究成果及各种资料的基础上,总结东营凹陷低渗透滩坝相油藏的沉积特征、储层特征、成藏特征和储层开发特征。通过室内试验与现场开发试验先导区实践相结合的方式,分析研究了一系列适合低渗透滩坝相油藏特征的开发技术,评价了这些技术对滩坝砂油藏开发的适应性。在提高滩坝砂油藏储量动用率和采收率方面进行了有益的探索,并取得了明显的进展和显著的效果。在储层分布规律、微观特征和开发技术方面取得了认识突破和技术创新,并在矿场实践中得到验证。
论文创新性研究取得点如下进展:
1)明确了滩坝成因砂岩的控制因素及分布规律,建立了滨-浅湖滩坝砂体的沉积模式。古地形与浪基面控制了滩坝砂发育范围,古水动力控制了滩坝砂的相分异,基准面的升降变化控制了滩坝砂的叠置样式。细分滩坝相为坝亚相和滩亚相,其中坝亚相可分为坝主体和坝侧缘微相,滩亚相可分为滩脊、滩席微相。
2)建立了基于控砂机制的滩坝砂储层地质预测方法以及薄储层地震描述技术。高分辨率层序地层分析确定滩坝砂发育有利层段,沉积相、古地貌和古水动力分析确定滩坝砂岩有利分布区,综合地球物理技术预测确定滩坝砂岩勘探目标。
3)形成了基于滩坝砂储层油藏渗流理论和开发技术。建立针对坝砂储层厚度大、物性相对较好的小井距注水开发、直井注水水平井采油开发的技术与理论;建立滩砂储层物性差、层系多特点的实施大型压裂开发的技术与理论;建立针对滩坝砂储层分布稳定、吸水能力差的滩坝砂油藏,研究并形成注CO2混相驱技术与理论。
Dongying sag is in the jiyang depression of bohai bay basin. After50years ofprospecting and developing,33oilfields have been found, and the proven reserves is2.488billion tons. It has become a very important oilfield. Beach-bar sand body ismain sedimentary reservoir of the upper part of the fourth member of the Shahejieformation (Es4s) in the west part of Dongying depression, and the reported provenreserves of beach-bar sand body is0.14billion tons. Because of the strongheterogeneity of the Es4member reservoir and the complexity of oil distribution,thecost of exploration is very high, which constrained the efficient development of thisarea. Thus exploring the formation distribution rules of beach-bay sand body,precisely predicting the reservoir distribution, understanding the penetratingmechanism and building the effective developments becomes the master keys torealize efficient development of beach-bay sand body.
Combined with some previous results, analysis of various material basics, Isummarized the geological characteristics, fluid property and formation energycharacteristics of the low permeability beach-bar sand body in dongying sag in thispaper. Through the combination of laboratory test and field test of pilot area, Idiscoveried series of suitable technology and development for low permeabilityreservoir characterized beach and bar, and evaluated the adaptability of thesedevelopments. I also did some work in improving reservoir reserve producing rate andrecovery, which made some significant progress. I achieved some new understandingin the aspects formation distribution rules, microscope characteristics and developingtechnologies, which are verified in field practise.
The main achievements are as follows:
(1) Cleared the controlling factors and distribution laws of beach bar sandstone,built the deposition mode of the foreshore-shallow lake bar sand body. The ancienttopography and wave base control the range of beach and bar sands development, theancient hydrodynamic controls the beach bar sand facies differentiation, datum levelchange controls beach bar sandbody superposition style. Subdivided beach bar phase as the dam sub-phase and beach sub-phase, among which dam sub-phase can bedivided into microfacies of the main dam and the margin of dam, and beach sub-phasecan be divided into microfacies of beach creast and beach matS.
(2) Built the geological prediction method and the thin reservoir earthquakedescription technique based on sand control mechanisms of the beach and bar sandsreservoir. Used high-resolution sequence stratigraphic analysis to determine thebeneficial layers of beach and bar sands, used sedimentary facies, ancient landformsand ancient hydrodynamic analysis to determine the favorable distribution of beachbar sandstones. I also used integrated geophysical techniques to determine the beachbar sandstones exploration targets.
(3) Built percolation theory and development technology basing on the beach andbar sands reservoir. Considering the thick dam sand reservoir and relatively goodproperties, this paper built the developing technologies as small well spacingwaterflooding, vertical well injection together with horizontal well production; Andfor the reservoir with poor property and multiple layers, large scale fracturing shouldbe done; For the reservoir with stable distribution and poor water absorption capacity,CO2miscible flooding procedure should been taken.
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