RU2000121125A - METHOD OF WATER TREATMENT FOR OIL PRODUCTION BY HEAT METHODS - Google Patents

Claims (27)

1. A method of producing energy for water treatment used in the extraction of crude oil from an oil reservoir containing crude oil and water, characterized in that it comprises the following steps: a) providing an incoming water stream,
b) processing the incoming water stream to form a vapor fraction and a liquid fraction, c) using a steam separator to separate a vapor fraction and a liquid fraction, d) separating a vapor fraction and a liquid fraction, e) using an oil and water separator and a water distillation unit, e) pumping steam fraction into the oil reservoir; g) collection of crude oil and produced water from the oil reservoir in the oil and water separator, h) separation of crude oil and produced water from the separator, and) supply of thermal energy contained in the liquid fraction to the unit water distillation; k) treatment of produced water in a water distillation unit.  2. The method according to p. 1, characterized in that the incoming water stream is conditioned before it is contacted with a steam generator.  3. The method according to p. 2, characterized in that the incoming water stream is conditioned to remove mineral impurities. 4. The method according to p. 1, characterized in that the crude oil from stage 3) has a density of 7 to 20 ^o on a scale of the American Petroleum Institute.  5. The method according to p. 1, characterized in that it further includes the step of using a heat exchanger to obtain at least a portion of the thermal energy in the liquid fraction.  6. The method according to p. 5, characterized in that it further includes the step of heating the incoming water stream using at least part of the energy received from the heat exchanger.  7. The method according to p. 1, characterized in that the extraction of crude oil includes gravity drainage method of production using steam.  8. The method according to p. 1, characterized in that the extraction of crude oil includes a method of cyclic steam stimulation.  9. The method according to p. 1, characterized in that the extraction of crude oil includes a method of pushing steam and gas.  10. A method of obtaining energy from equipment for the extraction of crude oil contained in an oil reservoir, wherein energy for processing water is obtained by extracting crude oil, wherein said method is characterized in that it comprises the following steps: a) using a steam source having a vapor fraction and a liquid fraction, b) using an oil and water separator and a water distillation unit, c) injecting at least one part of the vapor fraction and liquid fraction into the oil reservoir to extract crude oil, d) collecting crude oil and water from oil reservoir in the oil and water separator, e) separation of crude oil and produced water from the separator, e) supply of thermal energy contained in the liquid fraction to the water distillation unit, g) treatment of the produced water using a water distillation plant.  11. A method of generating energy in the processing of crude oil for processing water obtained from the extraction of crude oil, characterized in that it comprises the following steps: a) providing a high pressure purge stream, b) instantaneous evaporation of the high pressure purge stream by abruptly lowering the pressure to form a stream low pressure waste energy and concentrated stripped stream, c) evaporation of formation water using a low pressure waste energy stream, d) preheating of the incoming flow and formation water using a concentrated stripped stream, e) providing a fluid circulation circuit including a heated separator and an evaporator-heat exchanger communicating via a fluid stream, e) passing a preheated incoming stream of formation water into the heated separator, g) passing the waste energy to evaporator for receiving thermal energy, h) evaporation of the formation water stream using the spent energy in the evaporator-heat exchanger to form a vapor fraction and concentrate iodinated liquid fraction containing contaminants, and) circulation of at least part of the concentrated liquid fraction through the evaporator-heat exchanger and a heated separator to maintain the ratio of the mass of the concentrate to the vapor fraction 300 - 2, to obtain a vapor fraction from about 1 wt. % to less than 50 wt. % leaving the evaporator-heat exchanger to prevent clogging and scale formation in the evaporator; k) condensation of the vapor fraction using external condensation means; l) collection of the condensed vapor fraction and the waste energy stream essentially free of contaminants.  12. The method according to p. 11, characterized in that the compressor is selectively used to condense part of the vapor fraction to distilled water when the amount of waste energy is sufficient for the heated separator.  13. The method according to p. 11, characterized in that it includes the step of passing the vapor fraction into the crystallizer of solids to extract energy contained in the vapor fraction, to form solid contaminants in the crystallizer from non-volatile compounds present in the concentrated liquid fraction containing contaminants .  14. The method according to p. 11, characterized in that it includes the step of passing the vapor fraction into an external condenser to condense the vapor into a liquid.  15. The method according to p. 11, characterized in that the amount of treated waste water containing contaminants is equivalent to the amount of waste energy obtained by this method.  16. The method according to p. 11, characterized in that the incoming stream can be subjected to a pre-treatment scheme before pre-heating.  17. The method according to p. 16, characterized in that the pre-treatment scheme is selected from the group including the following: filtration, ion exchange, gravity separation, chemical treatment and evaporation.  18. The method according to p. 11, characterized in that it further comprises the step of subjecting the condensed distillate to a post-treatment scheme.  19. The method according to p. 18, characterized in that the subsequent processing scheme is selected from the group including the following: filtration, ion exchange, in-depth oxidation, adsorption and aeration.  20. The method according to p. 11, characterized in that the mass contains about 10 wt. % steam concentration.  21. The method according to p. 11, characterized in that the steam is condensed in a plate-plate type heat exchanger.  22. A method of producing energy in the processing of crude oil for processing water obtained from the extraction of crude oil, characterized in that it comprises the following stages: a) providing a high pressure purge stream, b) instantaneous evaporation of the high pressure purge stream by drastically reducing the pressure to form a stream low pressure waste energy and concentrated stripped stream, c) evaporation of at least part of the produced water using a low pressure waste energy stream, d) preliminary the roar of produced water using a concentrated stripped stream, e) providing a circuit for circulating a fluid including communicating heated separator and an evaporator-heat exchanger, e) providing a circuit for circulating steam including communicating a heated separator, compressor and evaporator-heat exchanger; g) passing a pre-heated reservoir water into a heated separator, h) evaporation of pre-heated produced water using a stream of waste energy of low pressure and compressed steam in the evaporator-heat an exchanger with the formation of a vapor fraction and a concentrated liquid fraction, i) the extraction of the vapor fraction formed by the spent energy of low pressure using external condensation means, k) the extraction of any remaining amount of the vapor fraction using a compressor, l) circulation of at least part concentrated liquid fraction through the evaporator-heat exchanger and a heated separator to maintain the ratio of the mass of the concentrate to the vapor fraction from 300 to 2 to obtain a vapor fraction of about 1 wt. % to less than 50 wt. %, leaving the evaporator-heat exchanger, to prevent clogging and scale formation in the evaporator-heat exchanger, m) collecting the condensed vapor fraction and the waste energy stream, essentially free of contaminants.  23. A method of generating energy in the processing of crude oil for processing water obtained from the extraction of crude oil, characterized in that it comprises the following steps: a) providing a high pressure purge stream, b) instantaneous evaporation of the high pressure purge stream by drastically reducing the pressure to form a stream low pressure waste energy and concentrated stripped stream, c) formation water evaporation using a low pressure waste energy stream, d) formation water pre-heating at the help of a concentrated stripped stream, e) providing a fluid circulation circuit including a heated separator and an evaporator-heat exchanger communicating with a fluid stream, e) passing an incoming stream of produced water into the heated separator, g) passing a low pressure waste energy stream to the evaporator, h) evaporation of produced water using a stream of waste energy of low pressure in the evaporator-heat exchanger with the formation of the first vapor fraction and concentrated liquid fraction, soda rzhaschey contaminants and) the circulation of at least a portion of the concentrated liquid fraction containing the contaminants through the evaporator-heat exchanger and the heated separator to maintain a ratio of concentrate mass to vapor fractions 300 - 2 to obtain steam fraction from about 1 wt. % to less than 50 wt. %, leaving the evaporator-heat exchanger, to prevent clogging and scale formation in the evaporator, k) the use of crystallization means and the evaporator-heat exchanger communicating via a vapor fraction, l) removal of a part of the concentrated liquid fraction containing contaminants for feeding into the crystallization means, m) passing the vapor fraction into the evaporator to provide thermal energy for the deposition of solids from the concentrated liquid fraction containing contaminants, n) creating a second fraction steam from a crystallization means and a stream of substantially solid fraction; o) condensation of a second vapor fraction by a condensation means; p) collection of a condensed first vapor fraction, a condensed second vapor fraction, and a condensed waste energy stream.  24. A method of generating energy for water treatment used in the extraction of crude oil from an oil reservoir containing crude oil and water, characterized in that it comprises the following steps: a) providing an incoming water stream, b) processing the incoming water stream to form a fraction of water vapor and liquid fractions, c) the use of a steam separator to separate the water vapor fraction and the liquid fraction, d) the separation of the water vapor fraction and the liquid fraction, e) the use of an oil and water separator and a water distillation unit, e) n the injection of the water vapor fraction into the oil reservoir; g) the pressure relief in the flow of crude oil, produced water and water vapor leaving the oil reservoir; h) the transfer of energy contained in the water vapor by evaporation with a sharp decrease in pressure to the water distillation unit, and ) separation of crude oil and produced water.  25. The method according to p. 24, characterized in that it further includes the step of ensuring the supply of thermal energy contained in the liquid fraction to the water distillation unit.  26. The method according to p. 25, characterized in that it further includes the stage of treatment of produced water using a water distillation unit.  27. A method of producing energy for water treatment used in the extraction of crude oil from an oil reservoir containing crude oil and water, characterized in that it comprises the following steps: a) providing an incoming water stream, b) processing the incoming water stream to form a fraction of water vapor and liquid fractions, c) the use of a steam separator to separate the water vapor fraction and the liquid fraction, d) the separation of the water vapor fraction and the liquid fraction, e) the use of an oil and water separator and a water distillation unit, e) n the injection of water vapor fractions into the oil reservoir; g) the production of thermal energy from crude oil and produced water leaving the oil reservoir by means of heat exchange; h) the separation of crude oil and produced water; i) the supply of thermal energy from the heat exchanger to the distillation unit, k) the supply thermal energy contained in the liquid fraction to a distillation plant, l) treatment of produced water with a water distillation plant.