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Netherlands Journal of Geosciences e12-19 Appendix Table A1. Simulated cumulative gas production (in BCM) by ROD-102 in January 2017 using the reference model. Values in brackets give relative increase in regard to the base case cumulative gas production. Geothermal producer distance is relative to the GWC; geothermal injector distance is relative to the geothermal producer. Q indicates geothermal flow rate in Sm3 h−1. Underlined values indicate co-production of free gas in geothermal production well Base case Injector = 1000 m Injector = 1500 m Injector = 2000 m 4.68 Q=100 Q=150 Q=200 Q=250 Q=100 Q=150 Q=200 Q=250 Q=100 Q=150 Q=200 Q=250 Producer = 250 m 4.97 (6.2) 5.16 (10.3) 5.26 (12.4) 5.35 (14.3) 5.06 (8.1) 5.16 (10.3) 5.35 (14.3) 5.44 (16.2) 5.16 Producer = 500 m 4.87 (4.1) 5.06 (8.1) 5.16 (10.3) 5.21 (11.3) 4.97 (6.2) 5.07 (8.3) 5.16 (10.3) 5.35 (14.3) 4.97 5.26 (12.4) 5.44 (16.2) 5.55 5.16 (10.3) 5.26 (12.4) 5.35 Producer = 750 m (10.3) (6.2) Table A2. Simulated cumulative gas production (in BCM) by ROD-102 in January 2017 for the sensitivity analyses on increased gas production rate, permeability and aquifer. Values in brackets give relative increase in regard to the base case cumulative gas production for the specific scenario. Geothermal producer distance is relative to the GWC; geothermal injector distance is relative to the geothermal producer. Q indicates geothermal flow rate in Sm3 h−1. Underlined values indicate co-production of free gas in geothermal production well (14.3) 4.87 (4.1) 4.97 (6.2) 5.07 (8.3) 5.07 (8.3) 4.87 (4.1) 4.97 (6.2) 5.07 (8.3) 5.16 (10.3) 4.87 (4.1) 4.97 (6.2) 5.07 (8.3) 5.16 (10.3) (18.6) Injector = 1500 m Injector = 2000 m Q=100 Q=150 Q=200 Q=250 Q=100 Q=150 Q=200 Q=250 Qg = 1,200,000 Sm3 d−1 Base case = 4.28 BCM Permeability doubled Base case = 4.87 BCM Permeability trend Base case = 4.78 BCM Permeability trend inversed Producer = 250 m 4.60 Producer = 500 m 4.60 Producer = 250 m 5.17 Producer = 500 m 5.07 Producer = 250 m 5.16 Producer = 500 m 5.07 Producer = 250 m 4.66 (7.5) 4.82 (7.5) 4.71 (6.2) 5.26 (4.1) 5.17 (8.0) 5.35 (6.1) 5.26 (8.6) 4.84 (12.6) 4.93 (10.1) 4.82 (8.0) 5.36 (6.2) 5.26 (11.9) 5.50 (10.0) 5.35 (12.8) 5.02 (15.2) 5.03 (12.6) 4.93 (10.1) 5.46 (8.0) 5.35 (15.1) 5.62 (11.9) 5.45 (17.0) 5.28 (17.5) 4.71 (15.2) 4.60 (12.1) 5.17 (9.9) 5.07 (17.6) 5.16 (14.0) 5.07 (23.1) 4.66 (10.1) (7.5) (6.2) (4.1) (8.0) (6.1) (8.6) (6.5) (7.1) (6.5) (9.2) 4.82 (12.6) 4.93 (15.2) 5.14 4.71 (10.5) 4.82 (12.6) 4.92 5.26 (8.0) 5.36 (10.1) 5.45 5.17 (6.2) 5.26 (8.0) 5.36 5.44 (13.8) 5.55 (16.1) 5.69 5.26 (10.0) 5.45 (14.0) 5.55 4.93 (14.9) 5.09 (18.7) 5.27 Base case = 4.29 BCM Limited aquifer Base case = 3.69 BCM Strong aquifer Producer = 500 m 4.57 Producer = 250 m 3.95 Producer = 500 m 3.93 Producer = 250 m 3.98 (6.5) 4.66 (7.1) 3.98 (6.5) 3.93 (7.6) 4.17 (8.6) 4.84 (7.9) 3.98 (6.5) 3.93 (12.7) 4.25 (12.82) 4.94 (7.9) 3.99 (6.5) 3.94 (14.9) 4.38 (15.2) 4.57 (8.1) 3.95 (6.8) 3.93 (18.4) 4.04 4.75 (10.7) 4.85 (13.1) 5.01 4.01 (8.7) 4.01 (8.7) 4.02 3.97 (7.6) 3.95 (7.1) 3.97 4.17 (12.7) 4.32 (16.8) 4.46 Base case = 3.70 BCM Producer = 500 m 3.97 (7.3) 4.04 (9.2) 4.17 (12.7) 4.25 (14.9) 3.98 (7.6) 4.09 (10.5) 4.17 (12.7) 4.32 (16.8) percentage indicates relative increase in regard to the reference model Scenario Reference model Start gas production Halfway before water breakthrough Start water breakthrough Restart gas production 4 years Restart gas production 10 years total gas production of the TGP % 4.68 0 5.35 14.3 5.26 12.4 5.07 8.3 5.08 8.6 5.26 12.4 (20.1) (15.0) (11.9) (10.1) (19.0) (16.1) (22.8) (16.8) (8.9) (7.6) (20.6) TableA3. Simulatedcumulativegasproduction(inBCM)byROD-102inJanuary 2017 for the sensitivity analyses on timing. TGP = total gas production in BCM; Downloaded from https://www.cambridge.org/core. IP address: 173.229.12.141, on 13 Jan 2021 at 23:29:16, subject to the Cambridge Core terms of use, available at https://www.cambridge.org/core/terms. https://doi.org/10.1017/njg.2019.11PDF Image | Dual hydrocarbon–geothermal energy exploitation
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