煤層瓦斯含量 的英文怎麼說

中文拼音 [méicénghánliáng]
煤層瓦斯含量 英文
coal seam gas-bearing capacity
  • : 名詞(黑色固體礦物) coal
  • : i 量詞1 (用於重疊、積累的東西 如樓層、階層、地層) storey; tier; stratum 2 (用於可以分項分步的...
  • : 瓦動詞(蓋瓦) tile; put tiles on a roof; cover (a roof) with tiles
  • : Ⅰ名詞(古代驅疫時用的面具) an ancient maskⅡ形容詞[書面語] (醜陋) ugly
  • : 動詞1 (東西放在嘴裏 不咽下也不吐出) keep in the mouth 2 (藏在裏面; 包含) contain 3 (帶有某種...
  • : 量動1. (度量) measure 2. (估量) estimate; size up
  • 煤層 : [地質學] coal rake; coal seam; coal bed
  • 瓦斯 : [采礦工程] gas; mashgas瓦斯爆炸 gas explosion; 瓦斯濃度 gas density; 瓦斯燃燒 gas combustion; 瓦斯筒 gas cylinder
  1. Analysis and forecasting on geological factors of coal bed methane content

    煤層瓦斯含量的地質要素分析及預測
  2. Probe into the coal bed methane content and methane emission rate based on methane geological drawings

    基於地質編圖中煤層瓦斯含量湧出關聯特徵的探討
  3. Advanced instrument and testing techniques including adopting mercury injection apparatus, specific surface analyses apparatus, porosity - permeability measurement apparatus, isothermal adsorption instrument and drill core flow experiment system, etc., are also adopted. on the basis of study on gas zoning, known cbm show and its component, generating mechanism of low coal rank cbm are discussed. the author pointed out that generated cbm should consist of primary biogenic methane gas in lignite stage, thermogenic methane gas in long - flame coal to gas / fat coal stage, and deuterogenic biogenic methane gas in coal seam imbedded stage

    在本區分帶、已知氣顯示及其組分研究基礎上,探討了低氣的生成機制,指出生成的氣應包括褐階段的原生生物甲烷氣、長焰?氣肥階段的熱成因甲烷氣和埋藏階段的次生生物甲烷氣三種成因甲烷氣體;進而論述了氣飽和度、臨界解吸壓力、臨儲壓力比、地解壓差等甲烷解吸特徵,實測與理論氣資源與資源豐度等氣性特徵。
  4. Fracturing of faults affects the coalbed gas content and gas - gushing volume during mining

    摘要斷裂構造作用對開采時的湧出都會產生影響。
  5. The major factors affecting gas burning in drill hole such as working skills for drill hole, reasonable air, flux coal bed gas content and so on are determined as dominating one from the model, which can provide coal miner or technician with correct suggestion to prevent and control gas burning during drilling in coal mine

    計算結果表明:鉆孔施工工藝、合理的配風煤層瓦斯含量等是防止鉆孔燃燒中優先考慮的影響因素,為礦防止及治理鉆孔燃燒提供了科學的理論依據。
  6. Methane content distribution law and analysis method

    礦井煤層瓦斯含量分佈規律分析方法
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