Adsorption device treatment of associated petroleum gas for power generation

Q3 Engineering

EUREKA: Physics and Engineering Pub Date : 2023-09-29 DOI:10.21303/2461-4262.2023.003025

Abdulaga Gurbanov, Ijabika Sardarova, Javida Damirova, Ismayil Huseynov

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Abstract

Hydrocarbon resources were considered as the basis of Azerbaijan's energy security. Ensuring the most complete and rational use of oil-associated gas resources is important for improving the efficiency of the oil industry and the national economy as a whole. Associated gas from oil fields remains the least demanded hydrocarbon raw material. The perspectives for the use of oil-associated gas are associated with new directions in the technique and technology of its use as a result of the creation and implementation of mobile and stationary power plants that consume gas. Unlike natural gas produced from gas and gas condensate fields, propane-butanoic and pentane fractions, there are hexanes, heptane’s and heavy hydrocarbons, including aromatic and naphthene tic compounding. The properties of APG were studied in the laboratories. It is known that the composition of petroleum gas in a particular area, due to changes in the volume of its production on fields, is constantly changing, so it is necessary to periodically update characteristics. The standard technology on gas conditioning for combustion is supplemented with an operation to remove heavy fractions of hydrocarbons in order to prevent these fractions from sticking to the surfaces of these installations with plugs formation and to support optimal fuel burning conditions. The problem of using oil gas in small power must be solved through new, cost-efficient developments that will be widely used both in high-output and small fields. To prepare associated oil gases for combustion, the design of an adsorption device is proposed, which makes it possible to reduce such phenomena when using this type of fuel as the formation of oil and paraffin deposits on the design details of gas burners, the accumulation of products of incomplete combustion of fuel on the heating elements of power plants. With the help of the newly proposed adsorption plant, the process of emulsifying and transporting petroleum gases has become more efficient. The use of this device has increased economic efficiency

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发电用伴生气的吸附装置处理

碳氢化合物资源被认为是阿塞拜疆能源安全的基础。确保油气资源的最完整、最合理利用，对提高石油工业乃至整个国民经济的效益具有重要意义。来自油田的伴生气仍然是需求量最小的碳氢化合物原料。使用石油伴生天然气的前景与使用石油伴生天然气的技术和技术的新方向有关，这是由于建立和实施消耗天然气的移动和固定发电厂的结果。与天然气和凝析气田生产的天然气、丙烷-丁烷和戊烷馏分不同，天然气中含有己烷、庚烷和重碳氢化合物，包括芳烃和环烷化合物。在实验室中研究了APG的性能。众所周知，由于油田产量的变化，特定地区的石油天然气成分是不断变化的，因此有必要定期更新特征。除了气体调节燃烧的标准技术外，还需要进行去除碳氢化合物重馏分的操作，以防止这些馏分通过塞的形成粘在这些装置的表面，并支持最佳的燃料燃烧条件。在小型电力中使用油气的问题必须通过新的、具有成本效益的开发来解决，这些开发将广泛应用于高产和小型油田。为了制备伴生气供燃烧，提出了一种吸附装置的设计，可以减少使用该类燃料时在燃气燃烧器的设计细节上形成油和石蜡沉积，燃料不完全燃烧的产物在电厂加热元件上的积累等现象。在新设计的吸附装置的帮助下，石油气体的乳化和输送过程变得更加高效。这种装置的使用提高了经济效益

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来源期刊

EUREKA: Physics and Engineering Engineering-Engineering (all)

CiteScore

1.90

自引率

0.00%

发文量

审稿时长

12 weeks