Научная статья на тему 'ABSORPTION AND ADSORPTION METHODS FOR NATURAL GAS PURIFICATION FROM HYDROGEN SULFIDE AND MERCAPTANS'

ABSORPTION AND ADSORPTION METHODS FOR NATURAL GAS PURIFICATION FROM HYDROGEN SULFIDE AND MERCAPTANS Текст научной статьи по специальности «Биологические науки»

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Ключевые слова
AMINES / ABSORBENT / CARBON DIOXIDE / SULFUR / GAS PURIFICATION

Аннотация научной статьи по биологическим наукам, автор научной работы — Makhmudov Mukhtor, Azimov Salohiddin

This article presents the results of various proposed new compositions of absorbents in the purification of gases from acidic components. At the same time, the corrosive effect of these absorbents on gas cleaning devices was studied, methods for reducing this corrosive activity were developed and proposed.

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Текст научной работы на тему «ABSORPTION AND ADSORPTION METHODS FOR NATURAL GAS PURIFICATION FROM HYDROGEN SULFIDE AND MERCAPTANS»

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CHEMICAL ENGINEERING

ABSORPTION AND ADSORPTION METHODS FOR NATURAL GAS PURIFICATION FROM

HYDROGEN SULFIDE AND MERCAPTANS

Mukhtor Makhmudov

Doctor of Chemical Sciences, Associate Professor, Bukhara Institute of Engineering and Technology, Republic of Uzbekistan, Bukhara E-mail: makhmudov. mukhtor@inbox. ru

Salohiddin Azimov

Integrity engineer-Mechanical of Plant integrity department of "Uzbekistan GTL"LLC, Republic of Uzbekistan, Guzor

АБСОРБЦИОННЫЕ И АДСОРБЦИОННЫЕ МЕТОДЫ ОЧИСТКИ ПРИРОДНОГО ГАЗА

ОТ СЕРОВОДОРОДА И МЕРКАПТАНОВ

Махмудов Мухтор Жамолович

д-р хим. наук, доц., Бухарский инженерно-технологический институт, Республика Узбекистан, г. Бухара

Азимов Салахиддин Турамурадович

инженер механик по Отделу обеспечения целостности оборудования ООО "Uzbekistan GTL ", Республика Узбекистан, г. Гузар

ABSTRACT

This article presents the results of various proposed new compositions of absorbents in the purification of gases from acidic components. At the same time, the corrosive effect of these absorbents on gas cleaning devices was studied, methods for reducing this corrosive activity were developed and proposed.

АННОТАЦИЯ

В данной статье представлены результаты различных предлагаемых новых композиций абсорбентов в очистке газов от кислых компонентов. В то же время было изучено коррозионное воздействие этих абсорбентов на устройства газоочистки, разработаны и предложены методы снижения этой коррозионной активности.

Keywords: amines, absorbent, carbon dioxide, sulfur, gas purification Ключевые слова: амины, абсорбент, диоксид углерода, сера, очистка газов

When RSH mercaptans interact with alkalis in the presence of O2 and CO2, which are always, albeit in small quantities, in gases, di- and polysulfide's are formed, which are poorly soluble in the absorbent. Carbon supplied, organic sulfides RSR' (and a number of other compounds) are neutral in nature and dissolve in these absorbents, although their sorption capacity is much less than that of RSH. The presence of CO2 in gases above 0.1-0.3% leads to its preferential dissolution, significantly reducing the absorption of RSH. In natural gases, the CO2 content is usually above 0.7%, which makes it difficult to use these methods for fine

purification. The methods are also inefficient for purification from thiophene C4H4S and its derivatives [1].

Solutions of mono- and diethanolamine with various activating additives, such as N-methylpyrrolidone-2, dipropanolamine, etc., are also widely used to remove acidic sulfurous substances [2].

Adsorption methods have become widely used. They are based on the selective absorption (adsorption) of sulfur compounds by solid sorbents. As a rule, adsorption is carried out at a temperature of 20-50 °C and elevated pressure, and regeneration (desorption) of an adsorbent saturated with sulfurous substances is carried

Библиографическое описание: Makhmudov M.J., Azimov S.T. ABSORPTION AND ADSORPTION METHODS FOR NATURAL GAS PURIFICATION FROM HYDROGEN SULFIDE AND MERCAPTANS // Universum: технические науки : электрон. научн. журн. 2022. 9(102). URL: https:// 7un iversum. com/ru/te ch/ar-chive/item/142 77

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out at low pressure and a temperature of 100-350 °C. For regeneration, any of the inert gases, low-sulfur natural or petroleum gas, water vapor, etc. are passed through the adsorbent layer [3].

In a number of cases, catalytic reactions proceed simultaneously with adsorption, as a result of which sulfurous substances are converted into elemental sulfur, which is extracted during regeneration and then used.

As an adsorbent, activated carbon of the AR-3, SKT-1 and other brands, as well as coal with alkali additions, is used. At the same time, along with purification from sulfurous substances, benzene and toluene are also extracted from gases, which are then released during regeneration.

For the purification of polysulfurous natural and petroleum gases, molecular sieves (zeolites) of the CaA and, especially, NaX brands have become widely used as adsorbents. Their adsorption capacity largely depends on the content of H2O, CO2 and higher hydrocarbons in gases, operating conditions and the degree of purification and ranges from 2 to 18% [4].

The presence of heavy hydrocarbon vapors in the gas has a significant effect on the capacity of zeolites for sulfur compounds. According to the degree of sorption on zeolites, the compounds that are part of natural gas can be arranged in a row:

H2O>RSH>H2S>COS>CO2.

The main problem of adsorption purification of gas on zeolites from hydrogen sulfide in the presence of CO2 is that during the adsorption of CO2 and H2S, carbon sulfide (COS) is formed according to the reaction:

CO2 + H2S ^ COS + H2O.

Although the equilibrium constant of this reaction is small and amounts to 6.6-10-6 at 298 K, however, the almost complete removal of H2O vapors in the frontal layer of the zeolite shifts the equilibrium to the right, and this leads to the formation of significant concentrations of COS. The regeneration of zeolites is carried out with nitrogen, low-sulfur natural or petroleum gas, and in the regeneration gases (regenerators) the content of sulfu-rous substances increases by 5-10 times compared to the initial one. In addition to coals and zeolites, aluminum oxide, bauxites, aluminosilicates, etc. are also used in the purification process. The advantage of adsorption methods is the possibility of carrying out the process at low temperatures, as well as fine purification of gases not only from hydrogen sulfide, mercaptans, organic sulfides, but also from substances that are difficult to remove by other means, such as thiophene and its derivatives.

This method also has a number of significant drawbacks. Almost all gases contain a certain amount of H2O, CO2 vapors, higher hydrocarbons, which are well adsorbed by coals and zeolites, which reduces the sulfur capacity of adsorbents. The periodic purification process requires the installation of several columns operating in parallel: on some, sulfurous substances are absorbed

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(adsorption stage), and on others, adsorbents are regenerated.

Chemisorption and catalytic methods

The disadvantages inherent in absorption and adsorption methods force the use of more universal catalytic and chemisorption methods.

They can be divided into the following groups:

a) catalytic: organosulfur substances undergo hy-drogenolysis to saturated hydrocarbons CnH2n + 2 and H2S, destruction (cracking) with the formation of unsaturated hydrocarbons CnH2n and H2S, hydrolysis with elimination of H2S and its oxidation to SO2;

b) chemisorption: interaction of sulfurous substances with metals or their oxides occurs with the formation of metal sulfides;

c) chemisorption-catalytic: in its first stage, chemisorption processes occur, in the second, after partial sul-fidation of the contact, simultaneously chemisorption and catalytic processes on the formed metal sulfides as catalysts, and in the third, after complete sulphurization, only catalytic processes.

Among the catalytic methods, the methods of hy-drogenolysis of organosulfur substances are the most widely used [3]. For this purpose, catalysts based on Ni, Mo, Co, W, etc. are widely used. At the same time, the following reactions can occur in the temperature range of 300-450 °C:

RSH + H2 ^ RH + H2S, RSR' + 2H2 ^ RH + R'H + H2S, C4H4S + 4H2 ^ C4H10 + H2S, COS + H2 ^ CO + H2S, COS + 4H2 ^ CH4 + H2O + H2S, CS2 + 2H2 ^ C + 2H2S, CS2 + 4H2 ^ CH4 + 2H2S.

Catalysts based on elements of groups VI and VIII are widely used for hydrodesulfurization. Basically, Co or cheaper Ni (3-5%) and Mo (10-15%) deposited on active у-АЬОз are used. For stable operation of catalysts, it is necessary that the gas contains at least 5% (preferably 9-11%) hydrogen. The presence of CO and CO2 in the purified gas in the amount of 1-2% does not affect the purification process.

A simplified approach to the calculation of the hydrogenation stage is as follows [5]. Assuming that: a) the reaction order in terms of organic total sulfur is the first; b) the temperature along the gas is constant; c) ideal displacement occurs in the catalyst layer, we get

V = k/ln(cin/cout),

where V is the volumetric velocity of the gas flow; k is the rate constant; cin and cout are the input and output contents of organic total sulfur, respectively.

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With different input contents ciin and c2in for the corresponding volumetric velocities Vi and V2, at which the values of cout are the same, we have:

V2 / V1 = ln(c1in /cout)/ln(c2in /cout).

With an allowable content of organic sulfur after the hydrogenation stage of 1 mg/m3, nominal value ciin = 80 mg/nm3, actual maximum single content (JSC Metafrax, Gubakha, Perm region, see section 3) c2in = 11.1 mg/m3, Vi = 1650 h-1 (nominal load of the hydrogenation appa-

ratus), we obtain for the maximum allowable hydrogenation volumetric rate at the actual sulfur content V2 » 3000 h-1. A more active catalyst, with a higher k value, can be loaded even less.

In gas and petrochemistry, desulphurization masses based on oxides of zinc, copper, chromium are mainly used, which have received significant distribution. Chemisorbents can also be used for single-stage purification, if the source gas contains practically only H2S or organic sulfur substances in an amount of not more than 5-7 mg/m.

References:

1. Daneshpayeh M., Khodadadi K., Mostoufi N., Mortazavi Y., Talebizadeh A. Kinetic modeling of oxidative coupling of methane over Mn/Na2WO4/SiO2 catalyst // Fuel Processing Technology. -2019. -V.90. -N.3. -P.403-410.

2. Daneshpayeh M., Khodadadi A., Mostoufi N., Mortazavi Y., Sotudeh-Gharebagh R., Talebizadeh A. Kinetic modeling of oxidative coupling of methane over Mn/Na2WO4/SiO2 catalyst // Fuel Processing Technology. - 2019. V.90(3). -№ 5. -p.400-411.

3. Olah G., Lukas J. Stable Carbonium Ions. LIV. Protonation of and Hydride Ion Abstraction from Cycloalkanes and Polycycloalkanes in Fluorosulfonic Acid-Antimony Pentafluoride // Journal of the American Chemical Society. 1998. - feb. Vol. 90, no. 4. P. 933-938.

4. Santiesteban J.G., Calabro D.C., Chang C.D. et al. The role of platinum in Pelucchi, M. Improved kinetic model of the low-temperature oxidation of n-heptane / M. Pelucchi, M. Bissoli, C. Cavallotti et al. // Energy and Fuels. - 2014. - Vol. 28. -№ 11. - P. 7178-7193.

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