RU2138612C1 - Method for construction and operation of complex of ground stores for collection of drilling waste and brine fluid - Google Patents

Abstract

FIELD: oil and gas production industry. SUBSTANCE: method relates to environment pollution control in construction of oil and gas wells in land. According to method, in period before start of operation of collecting store, drilling waste in the form of drilling waste and effluent water when evaporation of moisture is maximal are partly withdrawn by pumping out. Waste and water are treated by coagulating agent and flocculating agent with simultaneous introduction of highly dispersive powder-like material. Thus created liquid is released into vessel with open top. This vessel is located on bottom of empty collecting store of brine fluid. Vessel is in state of waiting for start of operation. After collecting store is filled to depth of 0.10-0.30 m, release of liquid is discontinued. Liquid is settling with gravitational separation of produced sediment. In result, forming is additional sedimentation layer of counterfiltration screen. Collecting store is open until liquid is evaporated from it. Cycle is repeated not earlier than after 48 h upon thickening of additional sedimentation layer of counterfiltration screen. Release of treated drilling effluent water into collecting store is discontinued by 15-20 days before drilling of intervals in which oil or gas occurrences are possible to manifest. Application of aforesaid method enhances protective properties of counterfiltration screen of collecting store for brine water, maintains its operability at period which precedes start of its operation, with simultaneous utilization of drilling waste from oil and gas wells in the form of drilling effluent water and large amounts of industrial waste from cement production in the form of cement dust. EFFECT: higher efficiency. 2 cl, 2 dwg

Description

 The invention relates to the protection of the natural environment in the construction of oil and gas wells, in particular, to the construction and operation of earthen barns-waste storage, associated with drilling operations.

 A known method of constructing a settling and absorption pit in a permeable soil, including a fragment of the pit, drawing on its walls and the bottom of an insulating screen of clay paste before subsequent filling with drilling waste (see A.S. USSR N 1188185, class C 09 K 7/02 , 1983).

 The reasons that impede the achievement of the technical result indicated below when using the known method include the fact that in the known method the anti-filter screen made of clay paste does not protect the groundwater from pollution by liquid drilling waste accumulated in a foundation pit dug in permeable soil.

 A known method of construction and operation of a complex of earthen barns-accumulators of drilling waste and formation fluid, including a fragment of pits in mineral soil, waterproofing them on an alternative basis with metal sheets, synthetic film, reinforced concrete slabs, wooden shields with bitumen coating, clay, lime based compositions, cement and their subsequent filling (see. Instructions for environmental protection during the construction of oil and gas wells on land: RD39-133-94. M: NPO Burovaya Technika - 1994.- 118.).

 The disadvantages of this method include the fact that expensive waterproofing and other building materials are used for waterproofing, which are subsequently buried in pits along with industrial waste.

 The closest method of the same purpose to the claimed invention by the totality of features is the method of construction and operation of a complex of earthen barns-accumulators of drilling waste and reservoir fluid, including the excavation of pits in mineral soil, waterproofing them with clay, taking into account the results of engineering and geological surveys and their subsequent filling ( see STO 09-0147428-037-89. Technological measures for the construction and operation of systems for collecting and storing drilling waste. Grozny: SevKavNIPIneft.- 1990.-68 p.).

 The reasons that impede the achievement of the technical result indicated below when using the known method include the fact that excerpts and waterproofing of both types of earthen barns are carried out before the well is drilled, and the operation of the barn for collecting reservoir fluid begins only with possible oil and gas manifestations and at the final stage of well construction - its development, i.e. when the antifiltration clay screen, which has undergone intense negative meteorological effects, including weathering and solar radiation, as well as the destruction of the surface by shoots and the root system of plants, cracked and lost continuity. Thus, the protective properties of the anti-filter screen of an earthen barn for collecting reservoir fluid by the beginning of its operation are extremely low and do not provide the necessary protection of groundwater from pollution.

The disadvantages of this method also include the fact that the construction in the oil and gas well being constructed of two types of earthen barns designed to collect drilling waste (OB) in the form of cuttings of drill cuttings (BS), spent drilling mud (OBR) and drilling wastewater ( BSV), as well as for the collection of formation fluid (highly mineralized formation water and hydrocarbons during oil and gas occurrences and well development), which differ significantly in genesis, toxicity, and filtration properties, type-stand impervious screen of natural clay does not provide the necessary protection of groundwater against pollution. With an increase in the mineralization of NaCl and CaCl ₂ solutions, the clay permeability coefficient increases. The main increase is observed in the concentration range up to 10-30 g / l (see Goldberg V.M., Skvortsov N.P. Permeability and filtration in clays - M .: Nedra, 1986.- 160 p.). Consequently, a barn for collecting reservoir fluid and hydrocarbon materials requires more reliable waterproofing.

 The invention consists in the following.

 The construction of oil and gas wells is inevitably accompanied by the accumulation of drilling waste on the day surface, which is accumulated, as a rule, in earthen slurry barns constructed directly on the territory of the drilling site. The contaminating ability of drilling waste is due to the toxicity of chemicals used to process the drilling fluid, which is pumped to the bottom of the well and carries the cuttings to the surface. As a result of washing technical devices with water (vibrating screens, sand separators, sludge separators), a chute system, hydraulic boxes of mud pumps (during their repair, replacing a piston-sleeve pair and sealing elements) and diluting drilling mud residues, drilling wastewater is formed. The presence of fine and colloidal clay particles in the OBR and BSW during their discharge into the earthen sludge barn and sedimentation can enhance the protective properties of the antifiltration screen, which is certainly a positive phenomenon. The ratio of the volume of OBR and BSV is approximately 1: 2.

 The accumulation in the territory of the land allotment provided for temporary short-term use during the construction of the well, liquid drilling waste, in addition to the need to exclude pollution of groundwater, creates the problem of environmentally friendly elimination of earth slurry pits after completion of the well and causes payments for waste storage, the size of which reaches 100 thousand. denominated rubles.

 The discharge of formation fluid through the throttling line of blowout equipment into an empty earthen barn, while drilling while waiting for possible oil and gas manifestations and well development, with a destroyed anti-filter screen due to negative meteorological impact and growth of the plant root system, will cause groundwater pollution.

 The problem to which the claimed invention is directed is to increase the protective properties of the anti-filter screen of an earthen barn-reservoir of formation fluid, maintaining its operability in the period preceding the start of its operation, while disposing of drilling waste oil and gas wells in the form of drilling wastewater and large-tonnage industrial waste cement production in the form of cement dust.

 The specified technical result in the implementation of the invention is achieved by the fact that in the known method of construction and operation of a complex of earthen barns-accumulators of drilling waste and formation fluid, including the excavation of pits in the mineral soil, waterproofing the cavity of the pits with clay, taking into account the results of engineering and geological surveys and their subsequent filling with liquid drilling waste, a feature is that before the start of operation of the reservoir fluid storage barn from the waste storage barn During the period of maximum moisture evaporation, drilling wastewater is partially pumped out, treated with a coagulant and flocculant with the simultaneous introduction of highly dispersed powder material, the resulting liquid is discharged into an open top tank installed on the bottom of the empty reservoir reservoir of the reservoir fluid that is in standby mode of operation until it is filled to a depth of 0.10-0.30 m, stop the release of liquid, defend it with the gravitational separation of the formed sediment, forming an additional colm tation layer of clay antifiltration screen, withstand an earthen barn-reservoir of formation fluid until the liquid evaporates from it, repeat the cycle no earlier than 48 hours after thickening of the additional mud layer, stop the discharge of treated wastewater 15-20 days before drilling intervals in which geological and technical outfits are forecasted oil and gas occurrences, as well as before the start of well development. The discharge of treated wastewater into an empty reservoir fluid storage barn is immediately stopped when an unpredictable oil and gas occurrence occurs. In addition, the peculiarity of the method lies in the fact that as a highly dispersed powder material, large-tonnage industrial waste in the form of cement dust is used in the amount of 3-18% by weight of the treated waste water.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information, and the identification of sources containing information about analogues of the claimed invention, made it possible to establish the absence of a source characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype, as the closest in the totality of the features of the analogue, allowed us to establish a set of significant distinctive features in relation to the applicant’s perceived technical result in the claimed method set forth in the claims.

 Therefore, the claimed invention meets the condition of "novelty."

 To verify the compliance of the claimed invention with the condition "inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed method from the prototype. The search results showed that the claimed invention does not follow explicitly from the prior art for the specialist, since the influence of the transformations provided for by the essential features of the claimed invention was not revealed from the prior art determined by the applicant to achieve a technical result. In particular, the claimed invention does not provide for the following transformations: supplementing a known product with any known part (s) attached to it according to known rules to achieve a technical result in respect of which the effect of such an addition is established; the replacement of any part (s) of a known product with another known part to achieve a technical result in respect of which the effect of such a replacement is established; the exclusion of any part (element, action) of the product with the simultaneous exclusion of the function due to its presence and the achievement of the usual result for such exclusion; the increase in the number of elements of the same type of action, to enhance the technical result due to the presence in the tool of just such elements, actions; the implementation of a known tool or part (s) of a known material to achieve a technical result due to the known properties of this material; creating a tool consisting of known parts, the choice of which and the connection between them are based on known rules, recommendations and the technical result achieved in this case is due only to the known properties of the parts of this tool and the connections between them.

 The described invention is not based on a change in a quantitative sign (s), the presentation of such signs in relationship or a change in its form. This refers to the case when the fact of the influence of each of the indicated features on the technical result is known, and new values of these signs or the relationship could be obtained on the basis of known dependencies and patterns.

 Therefore, the claimed invention meets the condition of "inventive step".

 The method is carried out by the following actions in the order of presentation: constructing on the territory of the drilling site a complex of earthen barns-accumulators of drilling waste and reservoir fluid by extracting pits in mineral soil taking into account the results of engineering and geological surveys; waterproofing cavities of foundation pits with clay, taking into account the results of engineering and geological surveys; fill the storage barn with liquid drilling waste: prior to the operation of the formation fluid storage barn during the period of maximum moisture evaporation, drilling wastewater is partially pumped from the drilling waste storage barn; treating drilling wastewater with a coagulant and flocculant with the simultaneous introduction of highly dispersed powder material, which is used as a tonnage industrial waste in the form of cement dust; the resulting liquid is released into an open top tank mounted on the bottom of the empty storage fluid storage barn until it is filled to a depth of 0.10-0.30 m; stop the release of fluid; liquid is settled in the barn storage reservoir fluid with a gravitational separation of the formed sediment, forming an additional mudding layer of clay antifiltration screen; maintain an earthen barn drive until the liquid evaporates; maintain an additional colmatation layer of a clay antifiltration screen before its transition to a thickened state; repeat the cycle of work no earlier than 48 hours after evaporation of the liquid from the reservoir fluid storage barn and thickening of an additional mud layer from the sewage sludge and fine powder material; the operation is carried out 15-20 days before drilling the intervals in which the geological and technical order predicts oil and gas manifestations, as well as before the start of well development; immediately stop the release of treated wastewater in the event of an oil and gas occurrence.

 The invention is illustrated by drawings, where in FIG. 1 shows a plan of a drilling site; in FIG. 2 - section of the barns along the line AA (poses 12, 13, 14, 15, 16 are not shown).

 At the stage of preparatory work (before the start of the drilling of the well) on the territory of the drilling site 1 with the wellhead 2, a foundation pit 3 is excavated in mineral soil 3 under an earthen barn storage tank for drilling waste and a pit 4 under an earthen barn to collect formation fluid (on a throttle line 5 equipment installed at the wellhead 2).

 The depths of pits 3 and 4 are determined on the basis of the results of engineering and geological surveys carried out on the territory of the drilling site prior to excavation and the delivery of construction machinery, as well as drilling equipment. The distance from the bottom of the barns to the highest groundwater level 6, taking into account its seasonal fluctuations, should be at least 2 m.

The cavities of the pits 3 and 4 are covered with an anti-filter screen 7 and 8, respectively. As a waterproofing material, clay is used, the thickness of which, the method of its laying and compaction are determined depending on the lithological section of the site and the need to ensure the filtration coefficient for liquid wastes of hazard class IV according to GOST 12.1.007-76 ^* no more than 10 ^-5 cm / s ( 0.01 m / day).

 In the process of drilling a well, the drilling fluid exiting on the day surface from a drain funnel (not shown in the drawing) at the wellhead 2, is directed through the trench 9 to a cleaning unit 10, in which the cuttings discharged into the earthen barn 3 are separated. rock in the barn 3 gets part of the drilling fluid lost in treatment devices. Drilling wastewater generated during technical water flushing of equipment and work sites through a system of concrete trays (not shown in the drawings) is also sent to an earthen barn 3.

 In the process of drilling a well, the antifiltration screen 8 of the empty barn 4, which is in the standby mode of possible oil and gas manifestations, becomes unusable due to the negative meteorological impact and destruction of its surface by shoots and the root system of plants.

 To maintain the anti-filter screen 8 of the barn 4 in working condition while enhancing its protective properties, minimizing the amount of drilling waste located in the barn 3 during the period of maximum evaporation of moisture by a pump of type 11MGr 11 or the like. drilling wastewater is pumped out from the barn 3 and sent to its processing unit 12. The processing unit includes a hydraulic mixer 13, to which pipes from containers with a coagulant solution 14, a flocculant solution 15 and a hopper 16 with powdered finely dispersed material are brought in.

 Aluminum sulfate is used as a coagulant, polyacrylamide solution is used as a flocculant, and a large tonnage industrial waste in the form of cement dust is used as a powder material.

 The drilling wastewater treated in the hydraulic mixer 13 with the indicated reagents and material is discharged into the barn through a pipe 17. To prevent the destruction of the anti-filter screen 8 of the barn 4 by a stream of water, the pipe 17 is fed to an open metal tank 18, from which water flows uniformly through the barn 4 The water is discharged until the water layer in the barn 4 is 0.1-0.3 m thick. The upper and lower limits of the level of discharged water in the barn 4 are due to the need to wet the entire bottom surface, which oraya not always strictly horizontal.

 After reaching a predetermined level, the release of treated water to the barn 4 is stopped, where, as a result of coagulation and flocculation, water is clarified with clay colloidal particles and finely dispersed cement dust precipitating, forming an additional clogging layer of the antifiltration screen 8.

 After evaporation of the clarified liquid from the barn 4, which does not pollute the atmospheric air, and keeping the additional mud layer of the clay antifiltration screen until it passes into the thickened state, the cycle is repeated no earlier than 48 hours later.

 The discharge of treated wastewater into the barn 4 is stopped 15-20 days before drilling the intervals in which the oil and gas manifestations are forecasted by the geological and technical outfit, as well as before the start of the well development.

 The discharge of treated wastewater into the barn 4 is stopped immediately when an unpredictable oil and gas occurrence occurs.

 The consumption of utilized cement dust to create an additional mud layer of clay antifiltration screen 8 is from 3 to 18% by weight of the treated wastewater. A decrease in the introduction of cement dust (<3%) into the BSV will not lead to an increase in the protective properties of the 8 barn anti-filter screen 4. An increase in the input of cement dust (> 18%) complicates the process of physico-chemical cleaning of the BSV and causes an increased consumption of coagulant and flocculant.

 The implementation of the proposed method, in addition to the above technical result, minimizes the volume of drilling waste and reduces the size of payments for their disposal, as well as for the storage of large-tonnage industrial waste of Sebryakovcement JSC in the form of cement dust.

Thus, the above information indicates the fulfillment when using the claimed invention (method) of the following set of conditions:
the tool embodying the claimed method in its implementation is intended for use in industry, namely in the oil and gas industry in the construction of wells on land:
for the claimed method in the form described in the independent clause of the claims, the possibility of its implementation using the means and methods described in the application or known prior to the priority date is confirmed.

 Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (3)

 1. The method of construction and operation of a complex of earthen barns-accumulators of drilling waste and reservoir fluid, including the excavation of pits in mineral soil, waterproofing the cavity of pits with clay, taking into account the results of engineering and geological surveys and their subsequent filling, characterized in that before the operation of the barn-accumulator formation fluid during the period of maximum moisture evaporation from the barn storage of drilling waste, partially pump drilling wastewater, treat it with a coagulant and flocculant from the same by the introduction of finely divided powdery material, the resulting liquid is discharged into an open top container installed on the bottom of the empty reservoir fluid storage barn that is in standby mode until it is filled to a depth of 0.10 - 0.30 m, the liquid is discontinued, it is settled with the gravity compartment of the sediment formed, forming an additional mud layer of the clay antifiltration screen, can withstand an earthen barn-reservoir of formation fluid until it evaporates from its fluids, repeat the cycle no earlier than 48 hours after the thickening of the additional mud layer, stop the discharge of treated wastewater 15 to 20 days before drilling the intervals in which the oil and gas manifestations are predicted by the geological and technical outfit, and also before the start of well development.  2. The method according to claim 1, characterized in that the release of treated wastewater into an empty reservoir fluid reservoir immediately stops when an oil and gas occurrence occurs.  3. The method according to p. 1, characterized in that as a highly dispersed powdered material using large-tonnage industrial waste in the form of cement dust in the amount of 3 to 18% by weight of the treated wastewater.

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