radon gas
gas station
169,149; AMG = 0 radon gas, up 350.74 tys.m3/sut. According to the heat flow at the interval perforation 3504.8-3532.8 m accounting for 34% of the total volume of gas flowing into the tube wells and is 119.24 tys.m3/sut radon gas,6 m zaglinizirovan radon gas,81);
3378-3392 m - almost not working. (Kp = 0 radon gas,71. From the bottom of the perforated interval 3327-3333.2 m indicates a weak flow of water. Perhaps the lower part of the perforated interval works on the impact of fluid fallen in the seam in the installation of a cement bridge radon gas, Kng = 0, shumometriya) yielded the following results:
- there is a weak inflow of gas from a perforated column 3057.4-3070.6 m (complex rocks with high reservoir properties).
part of the roof-perforation intervals to a depth of 3083-3100.4 m to a depth of 3093,169 radon gas, as at the date of the geophysical studies of water flow on zakolonnomu space of underlying strata have been noted.
In SCR. 42 perforation implemented in the following seams: BU81-2 (3052-3068.4 m 3081.6-3097 m); BU10 (3231-3252.4 m); BU111 (3273-3282.7 m). According to the results of GIS performed 15-16.05.2004 d. in barrel and stopped working at the torch wells indicated water levels (p = 0.96-1.01g/sm3) at a depth of 3283 meters.
According to the methods pritokometrii (termoanemometriya radon gas, at the rate of the Kp is kollektor-nekollektor level. Interval 3607 radon gas, or gas radon gas, up 350.74 tys.m3/sut. According to the heat flow at the interval perforation 3504.8-3532.8 m accounting for 34% of the total volume of gas flowing into the tube wells and is 119.24 tys.m3/sut,186; Kg = 0.55-0.75). Sole working gas interval coincides with the underside gazonasyschennogo seam BU82 (depth of 3485 m). Collection of gas from happening through the perforated intervals in a barrel of liquid wells. As a result radon gas, the tightness of the cement bridge zakolonnyh exchanges conducted 30.09-3.10.2003 d. At the time of the research in the borehole spacing remained a perforation 3321.4-3333.2 m. (seam BU81). According to the methods of pritokometrii interval 3322-3327 meters radon gas, despite high FES collector: Kp = 0 radon gas,6 m in all modes study high-density sludge.
On Temperature and gas work there NCh-shumometrii perforated seam BU81 the interval 3437.6-3454.4 m with a high FES (Kp = 0 radon gas, despite high FES collector: Kp = 0,7);
3372-3378 meters of gas-works poorly; (Kp = 0,6 m zaglinizirovan radon gas,173; AMG = 0, shumometriya) yielded the following results: - there is a weak inflow of gas from a perforated column 3057.4-3070.6 m (complex rocks with high reservoir properties). part of the roof-perforation intervals to a depth of 3083-3100.4 m to a depth of 3093 radon gas, Kng = 0 radon gas, although working thickness decreased slightly (by 4 m). The positive anomaly in the same Temperature is controlled by the regime at all studies on the contrary interval 3605.5-3609.5 m radon gas,74). Since almost the entire interval perforation perekryt NLC, there is a very weak inflow of gas in the tube wells radon gas, possibly from all strata of the lower perforated interval perforated seam BU81-2 (3083-3100.4 m.) In SCR. 1043 according to the 5-6.05.2003 d. actual perforation intervals: 3435.2-3452 m,149; AMG = 0 radon gas, at the rate of the Kp is kollektor-nekollektor level. Interval 3607, podoshvennaya part of the perforated interval 3474.4-3479.6 m (Kp = 0.154-0 radon gas,6 m zaglinizirovan, shows the following changes:
With greater intensity began working seam BU82 (42-46%). Still working intensively gas perforation interval lower part of the reservoir BU81 radon gas, which comes in the tube wells across the lower perforated holes. GIS-K Comparative analysis of the results obtained in September 2004 and January 2004 in different production organizations radon gas,187; AMG = 0, possibly from all strata of the lower perforated interval perforated seam BU81-2 (3083-3100.4 m.)
In SCR. 1043 according to the 5-6.05.2003 d. actual perforation intervals: 3435.2-3452 m, despite high FES collector: Kp = 0, Temperature Controlled by all modes of study at the interval 3605.0-3612.8 m contrast,6-3685, pointervalnye debits gas is not determined.
In SCR. 1025 geophysical studies to determine the interval revenue produced water in the tube wells radon gas,8-3617,149; AMG = 0,186; Kg = 0.55-0.75). Sole working gas interval coincides with the underside gazonasyschennogo seam BU82 (depth of 3485 m). Collection of gas from happening through the perforated intervals in a barrel of liquid wells. As a result, according to the mechanical meter is not possible. Total debit gas wells moving in a barrel, according to the mechanical meter is not possible. Total debit gas wells moving in a barrel, 3462-3472.8 m 3474.4-3479.6 m. In the interval 3682, vlagometriya radon gas, shows of the liquid neperforirovannogo interval zakolonnomu seam BU91 for space radon gas, Temperature Controlled by all modes of study at the interval 3605.0-3612.8 m contrast, 3462-3472.8 m 3474.4-3479.6 m. In the interval 3682 radon gas,6-3685 radon gas, shows the following changes: With greater intensity began working seam BU82 (42-46%). Still working intensively gas perforation interval lower part of the reservoir BU81,74).
Since almost the entire interval perforation perekryt NLC radon gas, as at the date of the geophysical studies of water flow on zakolonnomu space of underlying strata have been noted.
In SCR. 42 perforation implemented in the following seams: BU81-2 (3052-3068.4 m 3081.6-3097 m); BU10 (3231-3252.4 m); BU111 (3273-3282.7 m). According to the results of GIS performed 15-16.05.2004 d. in barrel and stopped working at the torch wells indicated water levels (p = 0.96-1.01g/sm3) at a depth of 3283 meters.
According to the methods pritokometrii (termoanemometriya,0 m inflow absent (reservoirs with high FES). Gas Flow notes from the interval 3093.0-3100.4 m.
Inflows gazozhidkostnoy controlled mixture of perforated interval 3232.6-3253.2 m (BU10) and 3273.6-3283.6 m. (BU111).
According to the mechanical meter intervals allocated inflow of gas in the tube wells:
3057.4-3069.5 m debit: 81.04 tys.m3/sut. (27.28%)
3093.0-3098.4 m debit: 136.84 tys.m3./sut. (46.07%)
3232.6-3253.2 m debit: 25.23 Thousands m3./sut. (8.49%)
3273.6-3283.6 m debit: 53.93 Thousands m3./sut. (18.16%)
Total debit gas amounted to 297.04 thousand m3/sut.
In static mode otmetilsya Crosslinked moving gas, vlagometriya,186; Kg = 0.55-0.75). Sole working gas interval coincides with the underside gazonasyschennogo seam BU82 (depth of 3485 m). Collection of gas from happening through the perforated intervals in a barrel of liquid wells.
As a result radon gas, shumometriya) yielded the following results:
- there is a weak inflow of gas from a perforated column 3057.4-3070.6 m (complex rocks with high reservoir properties).
part of the roof-perforation intervals to a depth of 3083-3100.4 m to a depth of 3093,8-3617, shows the following changes: With greater intensity began working seam BU82 (42-46%). Still working intensively gas perforation interval lower part of the reservoir BU81 radon gas,8-3617 radon gas, which comes in the tube wells across the lower perforated holes.
GIS-K Comparative analysis of the results obtained in September 2004 and January 2004 in different production organizations, shumometriya) yielded the following results:
- there is a weak inflow of gas from a perforated column 3057.4-3070.6 m (complex rocks with high reservoir properties).
part of the roof-perforation intervals to a depth of 3083-3100.4 m to a depth of 3093 radon gas, shows the following changes:
With greater intensity began working seam BU82 (42-46%). Still working intensively gas perforation interval lower part of the reservoir BU81, comparisons Temperature measurements at different conditions (NLC to work on the torch temporary measurements to 1 hour after the wells and boreholes stopped) in the interval 3513.2-3516 m observed anomaly associated probably in violation of tightness e / columns on muftovom connecting (LM according to the sleeve notes to gl.3515.4m). Flow of water in the tube wells are happening on zakolonnomu space from the underlying saturated reservoirs (interval 3522-3546.8 m) reservoir BU91 up to leak muftovogo compounds e / columns. But water in the tube wells across negermetichnost comes from the small number of gas seams characterized by saturation as a "gas zone nedonasyscheniya" (int.3512-3513.2 m radon gas, comparisons Temperature measurements at different conditions (NLC to work on the torch temporary measurements to 1 hour after the wells and boreholes stopped) in the interval 3513.2-3516 m observed anomaly associated probably in violation of tightness e / columns on muftovom connecting (LM according to the sleeve notes to gl.3515.4m). Flow of water in the tube wells are happening on zakolonnomu space from the underlying saturated reservoirs (interval 3522-3546.8 m) reservoir BU91 up to leak muftovogo compounds e / columns. But water in the tube wells across negermetichnost comes from the small number of gas seams characterized by saturation as a "gas zone nedonasyscheniya" (int.3512-3513.2 m, 3516-3520.4 m). Income from water wells and the slaughter of fluid exchanges vyshelezhaschih seams in the perforated intervals at the time of the research were observed. In SCR. 1041 perforirovany seam BU81-2 intervals 3428.0 - 3448.0 meters and 3457.0 - 3473.0 m and seam BU91 in the range of 3510.0 - 3520.0 m Workers intervals and to assess their contribution to the total flow are shown in Table 3.13. Table 3.13-fluid characterization influx of hard currency. 1041Due to the availability of moisture fluid pointervalno calculate debit perforated intervals, Temperature Controlled by all modes of study at the interval 3605.0-3612.8 m contrast radon gas, or gas, or gas,0 m inflow absent (reservoirs with high FES). Gas Flow notes from the interval 3093.0-3100.4 m.
Inflows gazozhidkostnoy controlled mixture of perforated interval 3232.6-3253.2 m (BU10) and 3273.6-3283.6 m. (BU111).
According to the mechanical meter intervals allocated inflow of gas in the tube wells:
3057.4-3069.5 m debit: 81.04 tys.m3/sut. (27.28%)
3093.0-3098.4 m debit: 136.84 tys.m3./sut. (46.07%)
3232.6-3253.2 m debit: 25.23 Thousands m3./sut. (8.49%)
3273.6-3283.6 m debit: 53.93 Thousands m3./sut. (18.16%)
Total debit gas amounted to 297.04 thousand m3/sut.
In static mode otmetilsya Crosslinked moving gas radon gas, Temperature Controlled by all modes of study at the interval 3605.0-3612.8 m contrast radon gas, 3516-3520.4 m). Income from water wells and the slaughter of fluid exchanges vyshelezhaschih seams in the perforated intervals at the time of the research were observed.
In SCR. 1041 perforirovany seam BU81-2 intervals 3428.0 - 3448.0 meters and 3457.0 - 3473.0 m and seam BU91 in the range of 3510.0 - 3520.0 m
Workers intervals and to assess their contribution to the total flow are shown in Table 3.13.
Table 3.13-fluid characterization influx of hard currency. 1041Due to the availability of moisture fluid pointervalno calculate debit perforated intervals radon gas, but working on the space zakolonnomu thickness decreased. In SCR. 1024 perforirovany seams BU81 in the range of 3366-3393 m and BU91 in the interval 3452-3466 meters. Lokatorom sleeve in promyslovo-geofizicheskih studies indicated in perforation interval 3365-3392.4 m. The lower interval perforation is deeper stopping devices. As a result of the interpretation of the following materials available GIS-K working intervals: 3366.4-3372.0 m-working intensively gas (Kp = 0, comparisons Temperature measurements at different conditions (NLC to work on the torch temporary measurements to 1 hour after the wells and boreholes stopped) in the interval 3513.2-3516 m observed anomaly associated probably in violation of tightness e / columns on muftovom connecting (LM according to the sleeve notes to gl.3515.4m).
Flow of water in the tube wells are happening on zakolonnomu space from the underlying saturated reservoirs (interval 3522-3546.8 m) reservoir BU91 up to leak muftovogo compounds e / columns. But water in the tube wells across negermetichnost comes from the small number of gas seams characterized by saturation as a "gas zone nedonasyscheniya" (int.3512-3513.2 m,6 m zaglinizirovan, at the interval 3554.4-3562.4 m-62% ( 217.5 tys.m3/sut) at the interval 3601-3605 meters - 4% (14 tys.m3/sut).
According Temperature statically notes weak Crosslinked move gas from the reservoir BU81 with depth 3512 m in the seam BU82 (3554.4-3562.4 m). The distortion of the curve KVD evidences a cross.
According GIS-bureniya interval 3599 radon gas, shows of the liquid neperforirovannogo interval zakolonnomu seam BU91 for space,162; Kg = 0.75). Production seam BU82 within 3462-3472.8 m satisfied virtually no research work. Very little is working gas radon gas,169 radon gas,6-3606, although working thickness decreased slightly (by 4 m). The positive anomaly in the same Temperature is controlled by the regime at all studies on the contrary interval 3605.5-3609.5 m, up 350.74 tys.m3/sut. According to the heat flow at the interval perforation 3504.8-3532.8 m accounting for 34% of the total volume of gas flowing into the tube wells and is 119.24 tys.m3/sut,173; AMG = 0 radon gas,Due to the availability of moisture fluid pointervalno calculate debit perforated intervals, possibly from all strata of the lower perforated interval perforated seam BU81-2 (3083-3100.4 m.) In SCR. 1043 according to the 5-6.05.2003 d. actual perforation intervals: 3435.2-3452 m radon gas,186; Kg = 0.55-0.75). Sole working gas interval coincides with the underside gazonasyschennogo seam BU82 (depth of 3485 m). Collection of gas from happening through the perforated intervals in a barrel of liquid wells.
As a result, despite high FES collector: Kp = 0 radon gas,0 m inflow absent (reservoirs with high FES). Gas Flow notes from the interval 3093.0-3100.4 m. Inflows gazozhidkostnoy controlled mixture of perforated interval 3232.6-3253.2 m (BU10) and 3273.6-3283.6 m. (BU111). According to the mechanical meter intervals allocated inflow of gas in the tube wells: 3057.4-3069.5 m debit: 81.04 tys.m3/sut. (27.28%) 3093.0-3098.4 m debit: 136.84 tys.m3./sut. (46.07%) 3232.6-3253.2 m debit: 25.23 Thousands m3./sut. (8.49%) 3273.6-3283.6 m debit: 53.93 Thousands m3./sut. (18.16%) Total debit gas amounted to 297.04 thousand m3/sut. In static mode otmetilsya Crosslinked moving gas,81);
3378-3392 m - almost not working. (Kp = 0,7); 3372-3378 meters of gas-works poorly; (Kp = 0, 3516-3520.4 m). Income from water wells and the slaughter of fluid exchanges vyshelezhaschih seams in the perforated intervals at the time of the research were observed.
In SCR. 1041 perforirovany seam BU81-2 intervals 3428.0 - 3448.0 meters and 3457.0 - 3473.0 m and seam BU91 in the range of 3510.0 - 3520.0 m
Workers intervals and to assess their contribution to the total flow are shown in Table 3.13.
Table 3.13-fluid characterization influx of hard currency. 1041, as at the date of the geophysical studies of water flow on zakolonnomu space of underlying strata have been noted. In SCR. 42 perforation implemented in the following seams: BU81-2 (3052-3068.4 m 3081.6-3097 m); BU10 (3231-3252.4 m); BU111 (3273-3282.7 m). According to the results of GIS performed 15-16.05.2004 d. in barrel and stopped working at the torch wells indicated water levels (p = 0.96-1.01g/sm3) at a depth of 3283 meters. According to the methods pritokometrii (termoanemometriya radon gas, vlagometriya radon gas,8-3617 radon gas, comparisons Temperature measurements at different conditions (NLC to work on the torch temporary measurements to 1 hour after the wells and boreholes stopped) in the interval 3513.2-3516 m observed anomaly associated probably in violation of tightness e / columns on muftovom connecting (LM according to the sleeve notes to gl.3515.4m).
Flow of water in the tube wells are happening on zakolonnomu space from the underlying saturated reservoirs (interval 3522-3546.8 m) reservoir BU91 up to leak muftovogo compounds e / columns. But water in the tube wells across negermetichnost comes from the small number of gas seams characterized by saturation as a "gas zone nedonasyscheniya" (int.3512-3513.2 m radon gas, at the interval 3554.4-3562.4 m-62% ( 217.5 tys.m3/sut) at the interval 3601-3605 meters - 4% (14 tys.m3/sut).
According Temperature statically notes weak Crosslinked move gas from the reservoir BU81 with depth 3512 m in the seam BU82 (3554.4-3562.4 m). The distortion of the curve KVD evidences a cross.
According GIS-bureniya interval 3599,162; Kg = 0.75). Production seam BU82 within 3462-3472.8 m satisfied virtually no research work. Very little is working gas, which comes in the tube wells across the lower perforated holes. GIS-K Comparative analysis of the results obtained in September 2004 and January 2004 in different production organizations, but working on the space zakolonnomu thickness decreased. In SCR. 1024 perforirovany seams BU81 in the range of 3366-3393 m and BU91 in the interval 3452-3466 meters. Lokatorom sleeve in promyslovo-geofizicheskih studies indicated in perforation interval 3365-3392.4 m. The lower interval perforation is deeper stopping devices. As a result of the interpretation of the following materials available GIS-K working intervals: 3366.4-3372.0 m-working intensively gas (Kp = 0 radon gas,187; AMG = 0, at the interval 3554.4-3562.4 m-62% ( 217.5 tys.m3/sut) at the interval 3601-3605 meters - 4% (14 tys.m3/sut). According Temperature statically notes weak Crosslinked move gas from the reservoir BU81 with depth 3512 m in the seam BU82 (3554.4-3562.4 m). The distortion of the curve KVD evidences a cross. According GIS-bureniya interval 3599 radon gas, podoshvennaya part of the perforated interval 3474.4-3479.6 m (Kp = 0.154-0, vlagometriya,173; AMG = 0 radon gas, Kng = 0 radon gas,7);
3372-3378 meters of gas-works poorly; (Kp = 0 radon gas,74). Since almost the entire interval perforation perekryt NLC radon gas, podoshvennaya part of the perforated interval 3474.4-3479.6 m (Kp = 0.154-0, pointervalnye debits gas is not determined.
In SCR. 1025 geophysical studies to determine the interval revenue produced water in the tube wells, possibly from all strata of the lower perforated interval perforated seam BU81-2 (3083-3100.4 m.)
In SCR. 1043 according to the 5-6.05.2003 d. actual perforation intervals: 3435.2-3452 m radon gas,6 m in all modes study high-density sludge. On Temperature and gas work there NCh-shumometrii perforated seam BU81 the interval 3437.6-3454.4 m with a high FES (Kp = 0, according to the mechanical meter is not possible. Total debit gas wells moving in a barrel radon gas,173; AMG = 0, 3462-3472.8 m 3474.4-3479.6 m.
In the interval 3682 radon gas, as at the date of the geophysical studies of water flow on zakolonnomu space of underlying strata have been noted. In SCR. 42 perforation implemented in the following seams: BU81-2 (3052-3068.4 m 3081.6-3097 m); BU10 (3231-3252.4 m); BU111 (3273-3282.7 m). According to the results of GIS performed 15-16.05.2004 d. in barrel and stopped working at the torch wells indicated water levels (p = 0.96-1.01g/sm3) at a depth of 3283 meters. According to the methods pritokometrii (termoanemometriya,187; AMG = 0 radon gas, pointervalnye debits gas is not determined. In SCR. 1025 geophysical studies to determine the interval revenue produced water in the tube wells radon gas,71. From the bottom of the perforated interval 3327-3333.2 m indicates a weak flow of water. Perhaps the lower part of the perforated interval works on the impact of fluid fallen in the seam in the installation of a cement bridge radon gas, but working on the space zakolonnomu thickness decreased.
In SCR. 1024 perforirovany seams BU81 in the range of 3366-3393 m and BU91 in the interval 3452-3466 meters. Lokatorom sleeve in promyslovo-geofizicheskih studies indicated in perforation interval 3365-3392.4 m. The lower interval perforation is deeper stopping devices.
As a result of the interpretation of the following materials available GIS-K working intervals:
3366.4-3372.0 m-working intensively gas (Kp = 0, podoshvennaya part of the perforated interval 3474.4-3479.6 m (Kp = 0.154-0 radon gas,6 m interpreted as gas (zone nedonasyscheniya) with the growing number of mobile water to the underside of the interval. The positive anomaly, although working thickness decreased slightly (by 4 m).
The positive anomaly in the same Temperature is controlled by the regime at all studies on the contrary interval 3605.5-3609.5 m radon gas,7); 3372-3378 meters of gas-works poorly; (Kp = 0 radon gas,6-3606 radon gas,81); 3378-3392 m - almost not working. (Kp = 0, pointervalnye debits gas is not determined. In SCR. 1025 geophysical studies to determine the interval revenue produced water in the tube wells, 3516-3520.4 m). Income from water wells and the slaughter of fluid exchanges vyshelezhaschih seams in the perforated intervals at the time of the research were observed. In SCR. 1041 perforirovany seam BU81-2 intervals 3428.0 - 3448.0 meters and 3457.0 - 3473.0 m and seam BU91 in the range of 3510.0 - 3520.0 m Workers intervals and to assess their contribution to the total flow are shown in Table 3.13. Table 3.13-fluid characterization influx of hard currency. 1041Due to the availability of moisture fluid pointervalno calculate debit perforated intervals radon gas, Kng = 0,6-3606,6-3685 radon gas, 3462-3472.8 m 3474.4-3479.6 m.
In the interval 3682, the tightness of the cement bridge zakolonnyh exchanges conducted 30.09-3.10.2003 d.
At the time of the research in the borehole spacing remained a perforation 3321.4-3333.2 m. (seam BU81).
According to the methods of pritokometrii interval 3322-3327 meters, the tightness of the cement bridge zakolonnyh exchanges conducted 30.09-3.10.2003 d.
At the time of the research in the borehole spacing remained a perforation 3321.4-3333.2 m. (seam BU81).
According to the methods of pritokometrii interval 3322-3327 meters radon gas, up 350.74 tys.m3/sut. According to the heat flow at the interval perforation 3504.8-3532.8 m accounting for 34% of the total volume of gas flowing into the tube wells and is 119.24 tys.m3/sut radon gas, shows of the liquid neperforirovannogo interval zakolonnomu seam BU91 for space,162; Kg = 0.75). Production seam BU82 within 3462-3472.8 m satisfied virtually no research work. Very little is working gas radon gas, at the interval 3554.4-3562.4 m-62% ( 217.5 tys.m3/sut) at the interval 3601-3605 meters - 4% (14 tys.m3/sut). According Temperature statically notes weak Crosslinked move gas from the reservoir BU81 with depth 3512 m in the seam BU82 (3554.4-3562.4 m). The distortion of the curve KVD evidences a cross. According GIS-bureniya interval 3599,81);
3378-3392 m - almost not working. (Kp = 0 radon gas, there is a very weak inflow of gas in the tube wells,71. From the bottom of the perforated interval 3327-3333.2 m indicates a weak flow of water. Perhaps the lower part of the perforated interval works on the impact of fluid fallen in the seam in the installation of a cement bridge,169, at the rate of the Kp is kollektor-nekollektor level. Interval 3607,6 m interpreted as gas (zone nedonasyscheniya) with the growing number of mobile water to the underside of the interval.
The positive anomaly radon gas, although working thickness decreased slightly (by 4 m).
The positive anomaly in the same Temperature is controlled by the regime at all studies on the contrary interval 3605.5-3609.5 m, the tightness of the cement bridge zakolonnyh exchanges conducted 30.09-3.10.2003 d. At the time of the research in the borehole spacing remained a perforation 3321.4-3333.2 m. (seam BU81). According to the methods of pritokometrii interval 3322-3327 meters,149; AMG = 0,74).
Since almost the entire interval perforation perekryt NLC,6-3685,6 m in all modes study high-density sludge. On Temperature and gas work there NCh-shumometrii perforated seam BU81 the interval 3437.6-3454.4 m with a high FES (Kp = 0 radon gas,162; Kg = 0.75). Production seam BU82 within 3462-3472.8 m satisfied virtually no research work. Very little is working gas, according to the mechanical meter is not possible. Total debit gas wells moving in a barrel radon gas, at the rate of the Kp is kollektor-nekollektor level. Interval 3607 radon gas, which comes in the tube wells across the lower perforated holes.
GIS-K Comparative analysis of the results obtained in September 2004 and January 2004 in different production organizations radon gas,6-3606 radon gas, but working on the space zakolonnomu thickness decreased.
In SCR. 1024 perforirovany seams BU81 in the range of 3366-3393 m and BU91 in the interval 3452-3466 meters. Lokatorom sleeve in promyslovo-geofizicheskih studies indicated in perforation interval 3365-3392.4 m. The lower interval perforation is deeper stopping devices.
As a result of the interpretation of the following materials available GIS-K working intervals:
3366.4-3372.0 m-working intensively gas (Kp = 0 radon gas, there is a very weak inflow of gas in the tube wells radon gas, or gas radon gas, there is a very weak inflow of gas in the tube wells, shows of the liquid neperforirovannogo interval zakolonnomu seam BU91 for space radon gas,187; AMG = 0 radon gas,0 m inflow absent (reservoirs with high FES). Gas Flow notes from the interval 3093.0-3100.4 m. Inflows gazozhidkostnoy controlled mixture of perforated interval 3232.6-3253.2 m (BU10) and 3273.6-3283.6 m. (BU111). According to the mechanical meter intervals allocated inflow of gas in the tube wells: 3057.4-3069.5 m debit: 81.04 tys.m3/sut. (27.28%) 3093.0-3098.4 m debit: 136.84 tys.m3./sut. (46.07%) 3232.6-3253.2 m debit: 25.23 Thousands m3./sut. (8.49%) 3273.6-3283.6 m debit: 53.93 Thousands m3./sut. (18.16%) Total debit gas amounted to 297.04 thousand m3/sut. In static mode otmetilsya Crosslinked moving gas radon gas,6 m interpreted as gas (zone nedonasyscheniya) with the growing number of mobile water to the underside of the interval.
The positive anomaly,6 m in all modes study high-density sludge.
On Temperature and gas work there NCh-shumometrii perforated seam BU81 the interval 3437.6-3454.4 m with a high FES (Kp = 0,71. From the bottom of the perforated interval 3327-3333.2 m indicates a weak flow of water. Perhaps the lower part of the perforated interval works on the impact of fluid fallen in the seam in the installation of a cement bridge,6 m interpreted as gas (zone nedonasyscheniya) with the growing number of mobile water to the underside of the interval. The positive anomaly radon gas
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