深層開采 的英文怎麼說
中文拼音 [shēncéngkāicǎi]
深層開采
英文
deep production-
Practice on fully mechanized coal mining under village with deep mining depth and thick alluvium
厚沖積層大采深村莊下綜放開采實踐Based on the development feature analysis, this paper studies thoroughly the reservoir flood feature and remaining oil distribution through the microstructure, sendimentary phase, reservoir heterogeneity and well control, and proposes the comprehensive adjustment based on the injection and development well net structure and improvement the result of the research is obvious with the production degression rate from 9. 14 % of 1997 to present - 1. 46 %, and water rate from original 0. 33 % to present 0. 16 %. in summary, the research idea, method and new achievement of the thesis provide a scientific geological basis for the oilfield development improvement
在對本區開發歷程和開采特徵分析的基礎上,從微構造、沉積微相、儲層非均質性、井網控制等方面深入地分析了油藏水淹特徵及剩餘油分佈規律,提出了以完善注采井網、調整注采結構為目的的綜合調整措施,已見到了明顯的效果:油田遞減由1997年的9 . 14降至目前的- 1 . 46 ,綜合含水上升率由原來的0 . 33降至目前的0 . 16 。Those research results will be applied on some important civil engineering such as china national high level radioactive waste deposal, energy storage project, the deep exploitation of petroleum and gas, and the construction of the exceed deep and exceed long tunnel of “ south to north of water ” project
開展大型材料模擬試驗技術、節理巖體三場耦合理論和關鍵試驗技術的研究,為國家高放廢物處置、能源戰略儲存、石油深層開采、南水北調西線超深超長隧道營建等重大工程服務。In order to control the land subsidence, adjusting three dimensional exploitive positions and moderately utilizing the leakage recharge from its upper shallow groundwater play a key role in realizing the sustainable development of deep groundwater resources in this area
在控制地面沉降的條件下,深層地下水持續利用的對策是調整開采三維布局,適度開發利用淺層地下水對深層地下水的越流補給。The over - exploited deep confined water, which is replenished by surface water and phreatic water, is also polluted
由於大規模開采,深層承壓水受到地表水和淺層地下水的補給,水質也有污染。Dynamical destabilization analysis of steep and heavy thick coal seam in a deep - mine under the complex - variable environment based on ae
的深部復變環境下急斜特厚煤層開采動力失穩分析Then, it summarizes the present situation of geophysical methods, and presents an introduction to some methods such as mine direct current method, mine transient electromagnetic method and geological radar exploration
本文簡要介紹了我國煤礦生產的發展趨勢,說明地質構造及煤層頂、底板水問題是當前煤礦深部開采中所面臨的主要地質問題。Because the ore has been mined for long time, the nature geological environment has been getting worse and worse, such as the baldness of mountain body, the rock is weathered to pieces, a lot of loose material distributing along the gully and its banks, the disaster of debris flow is seriowsly, and the production of the mine is constrained by debris flow disaster ; for example, a debris flow broke out on august 1999 and resulted in catastrophic hazards to the jingtieshan iron mine, resulted in a huge economic losses of 50 million yuan
鏡鐵山礦是酒鋼最主要的鐵礦石生產基地,礦區山高溝深,地質構造復雜,自然地質環境較差,在長期人為開采活動的影響下,地質自然環境進一步惡化,山體裸露,巖層破碎,大量鬆散固體物質堆積在溝道及溝道兩側,泥石流災害十分嚴重,嚴重製約了礦山的生產與發展。 1999年8月礦區黑溝南溝暴發生了嚴重的泥石流災害,致使礦山停產10多天,造成5000多萬元的經濟損失。With the development of oil fields, many old reservoirs in the east of china enter the high water - bearing development period. sustaining a high and stable production rate faces severe challenge. the key to preserve oil output in high water cut period is dependent upon the understanding degree to the properties of residual oil distribution. from 1980 ' s, while the study of the reservoir flow unit was proceeded alongside, it has been more widely utilized to characterize reservoir feature and remnant oil distribution. study of reservoir flow unit plays. both theoretically and practically. an important role in recognizing reservoir heterogeneity. performing a high - definition reservoir delineation and understanding the distribution of the remnant oil in the reservoir
隨著油田的不斷開發,我國東部許多老油田已進入高含水期開采階段,保持油氣產量的穩定面臨嚴竣的挑戰,而高含水油田穩產的關鍵取決于對剩餘油分佈的認識程度。八十年代以來,隨著對儲層流動單元研究的不斷深入,它越來越廣泛地被應到油藏描述和剩餘油研究中來,流動單元研究對于認識儲層的非均質性、提高油藏描述精度、搞清剩餘油分佈具有重要的理論意義和實際意義。With the rapidly development of minefield and the rapidly increase of coal output, the excavation scope and depth will extremely rise, the excavation work is under the overlying by the thin rock strata, and under the thick loose bed, the population in mine field will be more and more, the relevant basic industries will also develop rapidly. the mines will discharge more water from the underground, and the production and living will also consume more water. so the original water resource balance system in the minefield will be broken, the ecological environment formed by the nature will be destroyed in some degree
隨著礦區迅速發展而煤炭產量的快速增長,既定在薄基巖厚鬆散層下的神東煤田開采范圍和深度勢必急劇增大,相應的人口也增加,與其相匹配的其它基礎工業一併迅猛發展,導致礦井外排水和生產生活用水直線猛增,這一系列生產和生活巨量用水必然會打破礦區原始的水資源平衡體系,不同程度的破壞自然形成的脆弱的生態環境。Practice of comprehensive meehanized mining technology in deep pressure - bearing water seam
深部承壓水體上煤層綜合機械化開采技術實踐But during long time, it is very difficult for the exploration and development of sandstone oil layers on the upper part of the fouth member of shahejie formation. it is mainly represented as it ca n ' t be got the optimum production test effect and ca n ' t keep long term rate - maintenance
該區深層沙四上段砂巖油層的勘探開發一直存在較大的難度,集中體現于不能有效獲得最佳試采效果並長期穩產,產量有時在短短幾天內可由數十噸降至工業品級之下。On the basis of the monitoring results of land subsidence and calculation of deep groundwater resources by using water balance method, it is shown that the leakage recharge from its upper shallow groundwater account for approximately 38. 2 %, drainage of the clay layers, about 41. 3 %, water release from the aquifers, around 5. 6 % and lateral inflow, some 14. 9 %, of the total groundwater resources
摘要根據天津平原地面沉降監測結果,採用水量均衡法,計算出深層地下水開采量中,淺層地下水越流補給量佔38 . 2 % ,粘土性壓密釋水量佔41 . 3 % ,彈性釋水量佔5 . 6 % ,側向流入量佔14 . 9 % 。Land subsidence due to withdrawal of water soluble natural gas from deep marine sediments
海洋沉積環境中深層地下水溶性天然氣開采引起的地面沉降The use of different mining methods may cause some changes in gas emission, gas distribution rule and gas migration when the long - wall top coal caving ( ltcc ) is used for the high gas content coal seam, leading to a hidden danger of safety production
摘要在綜采放頂煤開采高瓦斯煤層時,由於採用的開采方法不同,會帶來瓦斯湧出與分佈及運移規律的一系列變化,給煤礦的安全生產造成極大的事故隱患,因此必須對此進行深入的研究。The research on bolting net supporting with deep mining in pangzhuang coal mine
龐莊煤礦深層開采錨網支護的研究The oil field exploiting impacts on water resources are analyzed in this paper, points out that the current situation of water pollution as follow : the surface water have greatly polluted, the quality of the phreatic water is going worsen, and the deep groundwater quality is not be good, and make out the main pollutants, then utilizes the artificial neural network analyses the collected water quality information data and predicts the water quality in the daqing area, makes a reasonable assessment, which will present theoretic basis for water resources protection and pollutant prevention in oil field
摘要首先分析了油田開采對大慶地區水資源的影響,指出水污染現狀:地表水嚴重污染,潛水水質趨于惡化,深層地下水水質不佳,同時指出水污染的主要污染物,並運用人工神經網路度對長期收集的水質監測資料進行了分析和預測,對該區水資源水質做出了比較合乎實際的評價,為油田水資源的保護和污染防治工作提供了理論依據。Research on minimum traveltime of tomography for ground stress anomaly and karst collapse column in deep coal mining
深部開采地應力異常及陷落柱最小走時層析成像研究They are mined from rock formations deep inside the earth called pipes
它們是從地球深處叫作管子的巖層中開采出來的。Production of non - fossil energy in deep zone
開采地層深部的非化石能源分享友人