吸附天然气存储被认为是最有希望取代高压压缩天然气存储的低压存储技术。
Gas adsorbing storage is a gas storage technology with low pressure, which may take the place of the gas storage technology with high pressure very possibly.
天然气中油蒸汽的吸附采用了过滤分离器技术,达到了国内、外先进水平。
Filtrate separator technology is applied in the adsorption of oil steam in gas, this technology reached advanced level in the world.
天然气脱水方法有低温分离法、溶剂吸收法、固体干燥剂吸附法。
Methods for dehydration of natural gas includes the low temperature separation method, solvent adsorption method, and solid desiccant adsorption method.
并结合地震、地质资料,以及岩石吸附烃分析和图像处理结果,对该地区的天然气遥感勘探进行了讨论。
On such a basis, with a combination of seismic and geological data and images processing techniques, the application of remote sensing on natural gas exploration were dis- cussed.
分布广泛的煤层吸附气也是重要的潜在天然气资源。
The widely distributed coal layer adsorbed gas is also an important potential natural gas resource.
实验室水平的吸附式天然气(ANG)储气只需用CNG约1/6的压力即可达到其3/4的体积能量存储密度。
The volumetric storage density of ANG can be 3/4 of CNG at 1/6 the gas pressure in laboratory research.
页岩气是一种非常规天然气,主要以吸附或游离状态存在。
Shale gas, as an unconventional natural gas, mainly exists in states of absorption or free.
综述了天然气和烃油中汞的含量、汞形态和汞的危害以及天然气和烃油中吸附脱汞方面的技术进展。
The content and endangerment of mercury and speciation of mercury compounds in natural gas and hydrocarbon oils are summarized, and the mercury removal technologies by adsorption are also mentioned.
天然气的运聚效率远小于石油,是由于天然气在溶解性、扩散性、吸附性等物理性质方面与石油有差异。
That the migration and accumulation efficiency of natural gas is far less than that of oil results from their differences in physical properties such as solubility, diffusion and absorptivity.
采用一种新型活性炭吸附剂,将天然气吸附贮存作为汽车燃料。
Absorb and stock natural gas as automotive fuel by using a kind of new activated carbon absorbent.
认为所开展的分析工作可为深入研究天然气吸附储存技术提供一种方法和思路。
These works give a method for an in-depth study of natural gas storage.
在以氢和天然气为主的车用燃气的存储技术中,吸附存储材料以其密度小、吸脱气体速度快等优点使吸附存储成为一类极具发展潜力的存储技术。
Among the storage technologies of automotive fuel gases (hydrogen and nature gas), adsorption storage is a promising technology for the low density and fast desorption of adsorption storage materials.
分析了天然气吸附床的传热过程,建立了简化的吸附床内传热模型,讨论了传热模型的分析解。
The heat transfer process in an adsorbent bed for natural gas storage is analyzed. Its simple models are developed and their theoretical solutions obtained are discussed.
分析了天然气吸附床的传热过程,建立了简化的吸附床内传热模型,讨论了传热模型的分析解。
The heat transfer process in an adsorbent bed for natural gas storage is analyzed. Its simple models are developed and their theoretical solutions obtained are discussed.
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