Innovative Energy Solutions-Shale Gas In India

EnergyRN: Unconventional Gas (Sub-Topic) Pub Date : 2020-02-05 DOI:10.2139/ssrn.3710412

Vidhu Gupta

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Abstract

Shale gas is a major domestic option for natural gas of a country where conventional gas reserves had been used up. It is entrapped in between shale formations, having low permeability that makes its commercial production extremely difficult. Major constituent is methane which is utilized for synthesizing Ammonia and Methanol. Natural Gas Liquids (NGLs) constituents such as Ethane, Propane and Butane are utilized for Ethylene synthesis. Ethylene synthesized by Shale gas is preferred over that of manufactured by Naphtha.CO2, N2 and H2S are small fraction non-hydrocarbon constituents. Production of shale gas had lowered the dependency of nations to Middle-east for their energy needs but shale production comes at a high cost of environment degradation. About 3% of extracted gas is being released in the atmosphere, fracturing of underlying rocks can induce small earthquakes and quick exhaustion of shale wells in comparison to conventional gas wells are major disadvantages. Fracking fluid being used for Hydraulic Fracking consists of large quantities of water, sand and chemicals. After the process, vital fractions of it left underground can possibly pollute underground water sources. A long term study of the process is still desired in order to reveal exact intricacies of Environment Contamination. A Shaft is drilled into the ground up to the depth of gas bearing layer Fracking fluid is then pumped using high performance pumps. Fluid mixture penetrates into the rock layer and produces innumerable tiny cracks. Water acts as solvent, sand holds up the opening, Chemicals condense water, kill off bacteria and dissolve minerals. Production of shale gas then begins. After the reserve is exhausted, some amount of fracking fluid is pumped in again and then the drill hole is sealed. A general observed fact is that in every hydrocarbon producing nation there is an equal likelihood regarding the presence of shales holding hydrocarbons. As published in the report of EIA, June 2013 amount of shale gas resources in India is 584 tcf and the technically recoverable amount is about 96 tcf (Cambay, Krishna-Godavari, Cauvery, Damodar Valley, Upper Assam, Pranhita-Godawari, Rajasthan and Vindhyan basins). Vital task before shale gas production includes the ultimate analysis of geological properties of shales in order to produce gas/oil from them. In this regard, government with the support of many private agencies had drilled several thousand wells (mainly in Cambay, KG and Cauvery basins).These wells had provided extensive data on extent, depth and nature of shale formations in sedimentary basins. However, a lot of work is still left to actually start commercial production of shale gas on Indian soil.

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创新能源解决方案——印度页岩气

页岩气是一个常规天然气储量已经耗尽的国家的主要国内天然气选择。它被困在页岩地层之间，渗透率很低，这使得它的商业生产非常困难。主要成分为甲烷，用于合成氨和甲醇。天然气液体(ngl)成分如乙烷、丙烷和丁烷用于乙烯合成。页岩气合成的乙烯优于石脑油合成的乙烯。CO2、N2和H2S为少量非烃组分。页岩气的生产降低了各国对中东能源需求的依赖，但页岩气生产的代价是环境恶化。开采出的天然气中约有3%被释放到大气中，与常规气井相比，页岩井的主要缺点是地层岩石破裂可能引发小地震，页岩井的快速枯竭。用于水力压裂的压裂液由大量的水、砂和化学品组成。在这个过程之后，留在地下的重要部分可能会污染地下水源。为了揭示环境污染的确切复杂性，仍然需要对这一过程进行长期研究。在地下钻一个竖井，直到含气层的深度，然后使用高性能泵泵入压裂液。流体混合物渗入岩层，产生无数微小的裂缝。水充当溶剂，沙子堵住洞口，化学物质凝结水，杀死细菌，溶解矿物质。随后，页岩气开始生产。在储量耗尽后，再次泵入一定量的压裂液，然后对钻孔进行密封。一个普遍观察到的事实是，在每个碳氢化合物生产国，存在含碳氢化合物的页岩的可能性是相等的。根据EIA的报告，2013年6月印度的页岩气资源量为584万亿立方英尺，技术可采储量约为96万亿立方英尺(Cambay、Krishna-Godavari、Cauvery、Damodar Valley、Upper Assam、pranita - godawari、Rajasthan和Vindhyan盆地)。页岩气开采前的关键任务包括对页岩的地质特性进行最终分析，以便从中开采油气。在这方面，政府在许多私人机构的支持下钻了几千口井(主要在Cambay、KG和Cauvery盆地)。这些井提供了有关沉积盆地页岩地层的范围、深度和性质的大量数据。然而，要在印度土地上真正开始页岩气的商业生产，还有很多工作要做。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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EnergyRN: Unconventional Gas (Sub-Topic)

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