Presentation to the South Central Alaska Energy Forum Brian E. Havelock Alaska Department of Natural Resources Division of Oil & Gas September 20, 2006
Presentation Outline 1. Introduction to Underground Gas Storage 2. Gas Storage in Alaska 3. Gas Storage Authorization and Leasing 4. Value of Storage Gas 5. Demand for Gas in Cook Inlet 6. Demand for Gas Storage in Cook Inlet 7. Alaska Gas Storage Deliverability 8. Conclusions 1
Introduction to Gas Storage Underground gas storage is injecting surplus gas production (not for the purposes of EOR) into a depleted or nearly depleted reservoir for later withdrawal to meet demand. In the US, gas is stored underground in salt caverns, depleted oil and gas reservoirs, and aquifers. In Alaska gas is only stored underground in depleted reservoirs. The best candidates for storing gas are reservoirs that are: trapped and capped with tank-like characteristics, distinct structure, and evidence of pressure depletion without support (ex., no water drive); not completely depleted, some residual gas saturation remaining; located strategically along key delivery pipelines or near primary markets. Storage facilities are designed for seasonal system supply or to meet peak-day and hourly demand. Storage facilities in Alaska: Facility Formation Operator Swanson River Tyonek 64-5 Chevron Tyonek 77-3 Pretty Creek Beluga 51-5 Chevron Kenai Field Sterling 6 Marathon 2
Cook Inlet Pipelines and Fields 3
Cook Inlet Pipelines and Fields 4
Gas Storage Terminology Total Capacity -- maximum volume of gas that can be stored in an underground storage facility as determined by the physical characteristics of the reservoir. Cushion Gas --volume intended as permanent inventory in a storage reservoir to maintain adequate pressure and deliverability rates throughout the withdrawal season. Working Gas -- volume of gas in the reservoir above the designed level of the cushion gas. --gas available to the marketplace. --cycled in and out of the facility in a given year. Deliverability -- amount of gas that can be delivered (withdrawn) from a storage facility on a daily basis. Deliverability factors: Total gas-in-place volume in the reservoir Reservoir pressure Compression capability of the surface facilities Configuration and Capacity of surface facilities and pipelines Number and capacity of producers and injector wells adapted from Natural Gas in the United States, EIA, 2001 5
Storage Operations Gas injected into a reservoir is cycled rates that depend on the characteristics of the reservoir and operational experience. If working gas is not cycled properly, it can be lost. Injection season- April through September or early October. Early season cold weather can reduce storage gas in place and deliverability. Late season cold can reduce the next season s injection needs. Weather and gas demand forecasting are a primary focus for storage facility optimization. Storage optimization is not always the parent company focus. Source: FERC Staff Report, September 30, 2004. 6
Milestones for Alaska Gas Storage June 1, 2001 July 29, 2005 Sept. 13, 2005 BLM approves Alaska s first gas storage agreement at Swanson River Field. Governor Murkowski s Agrium Task Force recommends that government and industry support and promote the establishment of new natural gas storage facilities within the Cook Inlet Basin to address the issue of natural gas deliverability shortfalls in winter. DNR approves Unocal s Pretty Creek gas storage lease, effective October 1, 2005. October 1, 2005 BLM approves storage in the 77-3 Tyonek sand at Swanson River (first injection, December 2005). May 8, 2006 June 2006 DNR approves Alaska s largest gas storage facility: Marathon s Kenai Sterling Pool 6, effective May 1. Agrium credits staying open during the winter industrial curtailment of 2005-2006 to Swanson River Gas Storage deliveries. 7
Gas Storage Authorization 1. AOGCC Storage Injection Order (all lands) Underground Storage Regulations 20 AAC 25.252 Ensure Protection of Drinking Water Sources Demonstration of Mechanical Integrity Well Integrity and Confinement Maximum Reservoir Pressure Performance Monitoring and Reporting 2. BLM Gas Storage Agreement/Royalty Gas Payout Agreement (federal lands) Native Gas Reserve Determination and Production Allocation Royalties on Produced Gas Reports 3. ADNR Gas Storage Lease and ACMP Consistency Review (State lands) 8
State of Alaska Gas Storage Leasing 1. Authorized under AS 38.05.180(u) and regulated under 11 AAC 83.500 -.525 2. Oil & gas lease excludes storage right except for EOR purposes. 3. Storage operations may not interfere with oil and gas lease. 4. Storage continues existing oil and gas lease. 5. Right to store limited to specified sands (not grass roots). 9
State of Alaska Gas Storage Leasing 6. State lease is only for State portion of a storage reservoir. 7. Royalties must be paid before gas may be injected. 8. Public Notice and 30-Day Public Comment Period 9. 50-Day Multi-Agency ACMP Consistency Review 10. Written Best Interest Finding and Lease Mitigation Measures and Advisories 11. Third-party (commercial) storage requires separate agreement. 10
Gas Storage Lease -- Key Terms Annual Storage Development Plan Native Gas Royalty Fees Plan of Operations Permit and Bonding Storage Limitation Required Operations Gas Measurement and Reporting Obligations 11
Value of Storage Gas 1. Location 2. Seasonal value of stored gas 3. Facility capacity 4. Operational flexibility 5. Availability of substitutes for storage gas 6. Cost of storage and transportation 7. Price volatility Not a factor in Alaska (yet), but big driver in Lower 48 12
Daily Demand 13
Cook Inlet Gas Reserves 250.0 200.0 Cook Inlet Hiistoric and Projected Natural Gas Production 1958-2025 Under-Development Ninilchik/ Deep Creek1 All Other Swanson River Kenai / CLU McArthur River Beluga River North Cook Inlet Bcf per Year 150.0 100.0 50.0 0.0 1958 1963 1968 1973 1978 1983 1988 1993 1998 2003 2008 2013 2018 2023 14
Cook Inlet Residential and Commercial Seasonal Demand 90 80 Anchorage HDD R&C Consumption (Mcf/d) 250,000 70 200,000 HDD 60 50 40 30 150,000 100,000 20 10 0 Jan-99 Apr-99 Jul-99 Oct-99 Jan-00 Apr-00 Jul-00 Oct-00 Jan-01 Apr-01 Jul-01 Oct-01 Jan-02 Apr-02 Jul-02 Oct-02 Mcf/d 50,000 0 15
Cook Inlet Demand Load Profile Cook Inlet Daily R&C Demand Profile (All Demand except for LNG and Fertilizer/Ammonia) 450 400 350 300 1972 1999 all years MMCFD 250 200 150 100 50 0 1 51 101 151 201 251 301 351 days 16
Cook Inlet Demand Load Profile Cook Inlet All Daily Demand Profile 800 700 600 MMCFD 500 400 300 200 LNG + Urea/Ammonia 1972-Demand Profile of 2005 Consumption 100 0 1 51 101 151 201 251 301 351 days 17
Cook Inlet Demand Load Profile Cook Inlet All Daily Demand Profile 800 702---- 700 600 564---- MMCFD 500 400 316---- 300 200 100 2006 Cook Inlet Supply (projected) LNG + Urea/Ammonia 1972-Demand Profile of 2005 Consumption 0 1 51 101 151 201 251 301 351 days 18
Current Storage Demand Cook Inlet All Daily Demand Profile 800 700 47 ----[ 90 ------[ 600 withdrawal injection MMCFD 500 400 300 200 100 Peaking storage demand Base load storage demand 2006 Cook Inlet Supply (projected) LNG + Urea/Ammonia 1972-Demand Profile of 2005 Consumption 0 1 51 101 151 201 251 301 351 days Assumes 2005-level Industrial Demand flat throughout the year. Peaking storage demand duration 14 days for total annual demand estimate of 0.2 bcf/year working gas. Base load storage demand duration 201 days for a total annual demand estimate of 9.6 bcf/year working gas. Maximum base load and peak shaving storage capacity demand estimated at 90 and 47 MMCFD, respectively. Annual production is adjusted throughout the year to meet demand by choking back and shutting-in wells, thus the 2006 supply line is not expected to be flat. 19
Decline in Production Forecasted Cook Inlet All Daily Demand Profile Peaking storage demand 800 Base load storage demand 700 2006 Cook Inlet Supply (projected) LNG + Urea/Ammonia 600 1972-Demand Profile of 2005 Consumption MMCFD 500 400 2007 projected supply 2008 projected supply 2009 projected supply 300 200 100 0 1 51 101 151 201 251 301 351 days 20
Cook Inlet Gas Storage Provides Seasonal Supply to Industrial Market Swanson River Gas Storage Deliveries 300 280 260 240 220 200 180 160 140 120 100 KGSF 7A KGSF 1 MMCF/month 80 60 40 20 0 Jun-01 Sep-01 Dec-01 Mar-02 Jun-02 Sep-02 Dec-02 Mar-03 Jun-03 Sep-03 Dec-03 Mar-04 Jun-04 Sep-04 Dec-04 Mar-05 Jun-05 Sep-05 Dec-05 Mar-06 Jun-06 21
Cook Inlet Gas Storage Deliverability Cook Inlet Gas Storage Deliverability (MMCFD) Historical average produced volume Facility # wells Peak delivery/well (average) Feb 06 rate Total daily peak delivery Total daily average delivery SWANSON RIVER 2 10.4 9.2 3.7 20.8 7.4 2.2 KENAI POOL 6 9 6.7 3.7-60.3 33.3 6 Working Gas (BCF/Yr) PRETTY CREEK 1 7.3-2.4 7.3 2.4 0.7 TOTAL 12 88.4 43.1 8.9 Notes: Peak deliverability rates vary widely at Pool 6. Peak delivery for Pretty Creek based on PCU#4 well production history. Pool 6 working gas capacity may be expanded to 11 or more BCF, but total gas-in-place limited to 50 BCF under the current lease. Maximum injection rates range from 20 MMCFD to 55 MMCFD. 22
Conclusions 1. Storage promotes conservation. 2. Storage balances seasonal demand swings. 3. 2006 gas supply deficit ~ 3 BCF 4. Reserves are declining and deficit will grow to 17.6 BCF next year, 55.6 BCF by 2009. 5. Producers will only prove and produce what they can sell. 6. Base load storage maximum capacity is 88 MMCFD, almost enough to meet demand, but facilities may only be able to deliver half that. 7. Cook Inlet needs additional working gas capacity and daily, especially peak deliverability, to meet current seasonal demand swings. 8. Storage can alleviate daily demand swings, but it cannot solve the greater problem of supply; you can t inject gas you don t have. 23
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