RU2689012C1 - Gas production method of gas at hydrate deposits - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to development of gas hydrate deposits. Proposed method comprises decomposing action of chemical reagent and heat on hydrates for extraction of gas therefrom. Chemical reagent used is an aqueous solution of hydrogen peroxide, which reduces the equilibrium temperature of hydrates. Heat is obtained from exothermic reaction of hydrogen peroxide dissociation at its direct contact with hydrates.EFFECT: higher gas output with minimum technogenic load.1 cl, 1 dwg

Description

The invention relates to the field of gas and oil industry and, in particular, to the development of deposits (deposits) of gas hydrates.

There is a method of gas production in the hydrate field by contacting the latter with a chemical reagent - methanol (as.S. USSR №390257, M. Cl. ² Е21В 43/00. Publ. 11.07.73. Byul. # 30).

A common feature of the known and proposed methods is the contact of hydrates with a chemical reagent.

The disadvantage of this method is the use as a chemical reagent of a highly toxic substance - methanol, which pollutes the environment in which there are hydrates. This environment is groundwater or sea and ocean water. Poisoning of these waters is unacceptable.

The closest in technical essence and the achieved result to the proposed method is gas production at the hydrate field, including the effect on hydrate of a chemical reagent - methanol and heat obtained from burning the target component of gas produced from hydrates (Patent RF №2433255. IPC E21B 43/24 (2006.01)).

Common signs of the known and proposed methods is the impact on the hydrate chemical reagent and heat.

The disadvantages of the described method are:

- use as a chemical reagent of a highly toxic substance - methanol, which pollutes the environment, poisoning the biosphere;

- obtaining heat from the combustion of the target component - gas produced from hydrates, firstly, reduces productivity, and secondly, pollutes the environment with combustion products, such as CO, CO ₂ , NO _x .

The objective of the invention is to increase the efficiency of the method of gas production in the hydrate field.

The technical result of the invention is to increase gas productivity with minimal anthropogenic stress on the ecosystem.

The technical result is achieved by the fact that in the method of gas production at the hydrate field, which includes the decomposing effect of chemical reagent and heat on hydrates for gas separation from them, a new one is that an aqueous solution of hydrogen peroxide is used as a chemical reagent, which reduces the equilibrium temperature of hydrates and heat is obtained from the exothermic dissociation reaction of the latter by its direct contact with hydrates.

The technical method of using an aqueous solution (for example, 3-5% by weight) of hydrogen peroxide as a chemical reagent, which lowers the equilibrium temperature of the existence of hydrates, when in direct contact with the hydrate, their equilibrium temperature decreases by 2.5-3 degrees, which is sufficient for complete decomposition into water and natural gas under conditions of their occurrence, i.e. under pressure. In the process of decomposition of hydrates no harmful side substances are released. Due to the fact that when this solution is exposed to hydrates, hydrogen peroxide decomposes into water and oxygen-induced technogenic load on the ecosystem is minimal.

Technique: heat is obtained from the exothermic dissociation of hydrogen peroxide

H ₂ O ₂ → H ₂ O + 1 / 2O ₂ with release of 98 kJ per mole H ₂ O ₂

in direct contact with hydrates, contributes to their local heating, intensifying the process of decomposition into gas and water. Local heating of hydrates by dissociation of a 3-5% aqueous peroxide solution promotes the process of gas production with minimal entropy. At the same time, heat practically does not affect the entire system surrounding hydrates. Thus, the use of an aqueous solution of hydrogen peroxide is safe and effective for the extraction of gas from hydrates with a minimum technogenic load on the ecosystem.

An aqueous solution of hydrogen peroxide (with a concentration of 3-5%) is not harmful and fire and explosion safe. Its use leads to increased gas production with minimal anthropogenic stress on the ecosystem.

The authors are not aware of the methods of gas production in the hydrate field in a similar way.

The practical implementation of the proposed method of gas production in the hydrate field is presented by the following example.

EXAMPLE

Gas production at the hydrate field includes the supply of an aqueous solution of hydrogen peroxide to the hydrate reservoir. When hydrogen peroxide contacts with hydrates, their equilibrium temperature decreases, respectively, to 269 K, at which they decompose with evolution of gas.

The decomposing effects of chemical reagent and heat with the release of gas from them. As a chemical reagent, an aqueous solution of hydrogen peroxide with a concentration of 5% is used. Heat is obtained from the exothermic dissociation of hydrogen peroxide by direct contact of its aqueous solution with hydrates.

The decomposition of 1 kg of hydrate with the release of 170 nm ³ gas occurs when exposed to 1.3 kg of an aqueous solution of hydrogen peroxide. Delivery of 1 kg of 5% aqueous hydrogen peroxide solution costs about 43 rubles. The cost of 170 nm ³ gas is 1,300 rubles. The efficiency of gas production in this way is obvious.

Claims (1)

A method of extracting gas from a hydrate field, which includes the decomposing effect of a chemical reagent and heat on hydrates to separate gas from them, characterized in that an aqueous hydrogen peroxide solution is used as a chemical reagent, reducing the equilibrium temperature of the hydrates, and the heat is obtained from the exothermic dissociation reaction of the latter through its direct contact with hydrates.