石油钻采工艺
石油鑽採工藝
석유찬채공예
OIL DRILLING & PRODUCTION TECHNOLOGY
2009年
z2期
39-43
,共5页
周明顺%宁志英%于沛洲%殷洁%麦毅军%赵俊
週明順%寧誌英%于沛洲%慇潔%麥毅軍%趙俊
주명순%저지영%우패주%은길%맥의군%조준
天然气%常规测井%新技术测井%气层识别
天然氣%常規測井%新技術測井%氣層識彆
천연기%상규측정%신기술측정%기층식별
natural gas%conventional logging%new-tech logging%recognition technique
随着天然气市场需求的不断增加,冀中北部天然气勘探开发工作力度不断加大,对天然气层测井识别与评价技术提出了新的要求.鉴于常规的三孔隙度测井曲线重叠及中子伽马时间推移测井在识别常规砂岩天然气层存在的局限性,提出了常规三孔隙度测井及中子伽马时间推移测井识别天然气层的适应条件;针对冀中北部地区砾岩、碳酸盐岩潜山及深层砂岩低孔低渗储层天然气层测井识别存在的难题,研究应用偶极横波、核磁共振、核磁扫描、模块式地层测试等新技术测井识别气层技术.研究表明,常规三孔隙度及中子伽马时间推移测井,由于受岩性等方面影响存在多解性,而核磁扫描测井、模块式地层测试等新技术在天然气层识别方面具有明显优势.
隨著天然氣市場需求的不斷增加,冀中北部天然氣勘探開髮工作力度不斷加大,對天然氣層測井識彆與評價技術提齣瞭新的要求.鑒于常規的三孔隙度測井麯線重疊及中子伽馬時間推移測井在識彆常規砂巖天然氣層存在的跼限性,提齣瞭常規三孔隙度測井及中子伽馬時間推移測井識彆天然氣層的適應條件;針對冀中北部地區礫巖、碳痠鹽巖潛山及深層砂巖低孔低滲儲層天然氣層測井識彆存在的難題,研究應用偶極橫波、覈磁共振、覈磁掃描、模塊式地層測試等新技術測井識彆氣層技術.研究錶明,常規三孔隙度及中子伽馬時間推移測井,由于受巖性等方麵影響存在多解性,而覈磁掃描測井、模塊式地層測試等新技術在天然氣層識彆方麵具有明顯優勢.
수착천연기시장수구적불단증가,기중북부천연기감탐개발공작력도불단가대,대천연기층측정식별여평개기술제출료신적요구.감우상규적삼공극도측정곡선중첩급중자가마시간추이측정재식별상규사암천연기층존재적국한성,제출료상규삼공극도측정급중자가마시간추이측정식별천연기층적괄응조건;침대기중북부지구력암、탄산염암잠산급심층사암저공저삼저층천연기층측정식별존재적난제,연구응용우겁횡파、핵자공진、핵자소묘、모괴식지층측시등신기술측정식별기층기술.연구표명,상규삼공극도급중자가마시간추이측정,유우수암성등방면영향존재다해성,이핵자소묘측정、모괴식지층측시등신기술재천연기층식별방면구유명현우세.
In recent years, with the increasing demand for natural gas, gas exploration and development efforts in north Jizhong region continue to increase, which puts forward new requirements for logging identification and evaluation technique in the gas layers. Given the limitations of overlapped curve of three-porosity logging and neutron-gamma over time logging in natural gas layer identification, the adaptive conditions of these two logging modes were proposed. Because of problems in the gas pay identification of conglomerate, carbonate rocks buried hill and deep sandstone reservoirs with low porosity and permeability in north Jizhong region, new logging techniques for gas pay identification were studied and applied, such as dipole shear wave log, nuclear magnetic resonance, nuclear magnetic scanning, modular formation testing. Results show that conventional three neutron porosity and gamma over time logging have multiple solutions because of the lithology effect. On the contrast, nuclear magnetic scanning and modular formation testing have obvious advantages in the gas layer recognition.