PG&E 2011 Gas Transmission and Storage Rat~ Case Prepared
Transcription
PG&E 2011 Gas Transmission and Storage Rat~ Case Prepared
Docket: A.13-12-012; 1.14-06-016 Exhibit Number: G1N-2 Commissioner: Peterman Admin. Law Judge: Amy YipKikugawa PG&E 2011 Gas Transmission and Storage Rat~ Case Prepared Testimony 314015780.I Application: =09-.-0.._9__ - _ _ _ __ (U 39 G) Exhibit No.: _ _ _ _ _ __ Date: September 18. 2009 Witness: Various PACIFIC GAS AND ELECTRIC COMPANY 2011 GAS TRANSMISSION AND STORAGE RATE CASE PREPARED TESTIMONY .. /fj :.:{ .;·.. : ·~·, PACIFIC GAS AND ELECTRIC COMPANY 2011 GAS TRANSMISSION AND STORAGE RATE CASE TABLE OF CONTENTS Chapter 1 2 Title Witness INTRODUCTION AND POLICY . PG&E'S.GAS TRANSMISSION FACILITIES AND SERVICES Steven A Whelan Roger Graham 3 PG&E'S GAS STORAGE FACILITIES AND SERVICES Roger Graham 4 OPERATIONS AND BALANCING SERVICES Jack E. Dunlap 5 OPERATING AND MAINTENANCE EXPENSES Frank W. Maxwell 6 CAPITAL EXPENDITURES Rick C. Brown Roy A. Surges 7 PLANT, DEPRECIATION EXPENSE AND RESERVE, AND RATE BASE Anthony E. Biacci 8 COST OF SERVICE Rosemary L. Green 9 COST RECOVERY AND REVENUE SHARING MECHANISMS David S. Thomason 10 THROUGHPUT FORECAST Jeffery S. Bennett Eric Hsu Kate M. Tiedeman 11 COST ALLOCATION AND RATE DESIGN Ray Blatter M. Daniel Mclafferty Appendix 11 A DETAILED RATE TABLES Ray Blatter Appendix 11 B TRADITIONAL BACKBONE RATE CALCULATION Carl Orr Ray Blatter CORE GAS SUPPLY David F. Elmore 12 Appendix A SUPPLEMENTAL REPORT ON THE LINE 57C PROJECT -i- PACIFIC GAS AND ELECTRIC COMPANY 2011 GAS TRANSMISSION AND STORAGE RATE CASE TABLE OF CONTENTS (CONTINUED) Chapter Appendix B Title STATEMENTS OF QUALIFICATIONS -ii- Witness Jeffery S. Bennett Anthony E. Biacci Ray Blatter Rick C. Brown Jack E. Dunlap David F. Elmore Roger Graham Rosemary L. Green Eric Hsu Frank W. Maxwell M. Daniel Mclafferty Carl Orr Roy A. Surges David S. Thomason Kate M. Tiedeman Steven A. Whelan PACIFIC GAS AND ELECTRIC COMPANY CHAPTER 1 INTRODUCTION AND POLICY (STEVEN A. WHELAN) PACIFIC GAS AND ELECTRIC COMPANY CHAPTER 1 INTRODUCTION AND POLICY (STEVEN A. WHELAN) TABLE OF CONTENTS A. Introduction ........................................................................................................ 1-1 1. Scope of Application ...................... :............................................................. 1-1 2. Overview of Revenue Requirements and Rates .......................................... 1-2 B. Gas Accord Market Structure ............................................................................ 1-4 C. RegulatorY' Background ..................................................................................... 1-6 D. PG&E's Key Proposals ..................................................................................... ~ 1-9 1. Rates That Compensate PG&E for Investments in Infrastructure to Ensure Reliable, Safe Services, and Access to Diverse Gas Supplies ........ 1-9 a. Gas on Gas Competition and Environmental Cost Drivers Backbone .............................................................................................. 1-10 b. Pipeline Safety Act.- Backbone and Local Transmission ..................... 1-11 c. Local Transmission Reinforcements ..................................................... 1-11 d. Winter Storage Reliability ...................................................................... 1-11 e. Gill Ranch Storage Project.. .................................................................. 1-11 2. A Single Core and a Single Noncore Rate for PG&E's Backbone Transmission Service That Will Enhance Gas-On-Gas Competition, Help Attract Diverse Gas Supply Sources and Reduce Backbone Rate Volatility ...................................................................................................... 1-12 3. A Demand Based Backbone Rate Design Is Superior to the Current System Average Load Factor Methodology ............................................... 1-14. 4. PG&E's Backbone Rates Should Be Set at a Level That Provides a Reasonable Opportunity to Recover the Adopted Backbone Transmission Revenue Requirement .............................................. ,.......... 1-15 5. A Revenue Sharing Mechanism That Will Address Potential Over- and Under-Recovery of the GT&S Revenue Requirement.. .............................. 1-16 6. Changes to PG&E's Operations and Balancing Services........................... 1-17 7. Changes in Cost Recovery Mechanisms .................................................... 1-18 a. Cost of Capital, A&G, Uncollectibles, and Pension Allocations ............. 1-18 1-i PACIFIC GAS AND ELECTRIC COMPANY CHAPTER 1 INTRODUCTION AND POLICY (STEVEN A. WHELAN) TABLE OF CONTENTS (CONTINUED) b. Electricity Costs ..................................... ,. ............................................. 1-20 c. Greenhouse Gas-Related Costs ........................................................... 1-21 E. Testimony Presented ....................................................................................... 1-21 F. Conclusion ....................................................................................................... 1-22 1-ii PACIFIC GAS AND ELECTRIC COMPANY CHAPTER 1 INTRODUCTION AND POLICY (STEVEN A. WHELAN) 1 2 3 4 s A. Introduction a 1. Sc~pe of Application Pacific Gas and Electric Company (PG&E or the Company) presents in 7 s this Application its proposed Gas Transmission and Storage (GT&S) 9 revenue requirements and rates for 2011through2014. PG&E proposes to 10 continue, with several changes, the Gas Accord market structure originally 11 approve~ 12 Commission) in Decision 97-08-055, and most recently extended for a 13 3-year term (2008-2010) by the all-party Gas Accord IV settlement approved 14 by the Commission in Decision 07-09-045. 15 by the California Public Utilities Commissio.n (CPUC or · In support of this request, PG&E offers testimony covering operating 16 and maintenance expenses, capital expenditures, and the resulting revenue 17 requirements. PG&E also presents its demand and throughput forecast for 18 2011-2014, as well as cost allocation and rate design proposals. The Application proposes several revisions to the ratemaking for 19 20 PG&E's GT&S system, approved in Decision 03-12-061 (also known as Gas 21 Accord 11-2004), which was the last application where such changes were 22 considered in detail by the Commission.[1] As described below, the 23 changes in ratemaking that PG&E proposes are consistent with recent 24 Commission decisions encouraging investments to increase reliability and 25 gas 26 Gas Capacity Order Instituting Rulemaking (OIR), Decision 06-09-039, 21 which was adopted in the wake of the Energy Crisis of 2000-2001. These 28 proposed changes are also warranted by changes in market conditions and [1] s~pply competition, such as the Commission's Phase 2 decision in the Subsequent GT&S rate cases were resolved by settlements in which significant elements were "black box" in nature. The 2005 rate case was settled in Gas Accord Ill, approved by the Commission in Decision 04-12-050. The 2008 rate case was settled in Gas Accord IV, approved by the Commission in Decision 07-09-045. 1-1 1 Northwest Natural Gas Company. Gill Ranch Storage LLC is the 2 operator of the facility. The Gill Ranch project will connect with Line 401 3 approximately eight miles north of Panache station. PG&E's portion of · the project is approximately 4.9 MMDth of working gas capacity. 4 5 Consistent with PG&E's commitments in Application 08-07-033, 6 none of the costs for the Gill Ranch Project are being allocated to Core 7 storage or load balancing services. Rather, all of the costs and 8 capacities from PG&E's portion of the project are assigned to Market 9 Storage. 10 By this Application, PG&E requests that the Commission assure the 11 recovery in rates of all of these needed. capital expenditures, at· PG&E's 12 authorized rate of return. Doing so is consistent with the Commission's 13 overarching policy goal of promoting sound investments in California's 14 energy infrastructure in order to protect customers against excessively high 15 energy bills and to ensure system reliability. 2. A Single Core and a Single Noncore Rate for PG&E's Backbone 16 17 Transmission Service That Will Enhance Gas-On-Gas 18 Co~petition, 19 Reduce Backbone Rate Volatility Help Attract Diverse Gas Supply Sources and Gatural gas market conditions in northern California continue to evolve. 20 21 In recent years, the marginal gas supply source has switched frequently 22 between Canadian supply sources and Southwest U.S. supply sources, 23 including Rocky Mountain supplies. In other words, the price djfferentials 24 between Canadian and Southwest supply sources may favor one basin or 25 another, depending on market conditio1l9 PG&E proposes creation of a single Core Redwood-Baja rate and a 26 27 single Noncore Redwood-Baja rate to eliminate rate bias or preference on. 28 the PG&E backbone system towards any particular source of out-of-state 29 gas supplies.[11) The backbone rates for each customer class would be 30 different from eaGh other, but would result in each class of customers paying 31 the same rate whether they use the Baja or Redwood path. The [11) Northern California gas production would continue to have a Silverado path rate that encourages consumption of this supply source, consistent with state policy. 1-12 ,,. 1 Redwood-Baja rates for the Core c.ustomer class have been developed in a 2 way that preserves the benefits of the Core's vintage Line 400 capacity. 3 Thus, Core customers are not disadvantaged by this backbone rate design. 4 This proposal is presented in more detail in Chapter 11, "Cost Allocation s and Rate Design." Equalizing PG&E's Redwood and Baja rates will ensure 6 that the marginal backbone path is not priced higher than the alternative 7 path, which will help enhance gas-on-gas competition. This approach to a rate design will increase pricing efficiency by allowing supplies from the g north and south to compete with each other on the basis of California border 10 prices, without backbone rate differences coming into play. 11 PG&E believes that enhancing gas-on-gas competition at the Citygate 12 provides direct benefits to northern California gas consumers. In addition, 13 because the marginal supply source changes frequently and the marginal 14 backbone path varies over time, equalizing backbone rates will likely provide 15 1s more stable PG&E Citygate prices. 17 volatility as new facilities are added to different backbone paths. Spreading 18 the costs of new facilities across a wider throughput base helps minimize the 19 rate impact on any one path. It also helps reduce PG&E's cost recovery 20 risk, thus reducing ~ potential disincentive to invest in infrastructure. 21 Equalizing Redwood and Baja path rates also reduces backbone rate Furthermore, PG&E's operation of its backbone facilities has changed in 22 recent years and the paths are now operated on a more integrated basis. 23 As described in Chapter 2, with the reversal of the Bethany compressor 24 station, southern-sourced gas can flow north to Creed Station (north of 25 Brentwood) on Lines 401 and 2, and then flow south into the Bay Area. In a 26 similar way, northern-sourced gas can flow south to Panache Station and 21 then north on Line 300 to the Bay Area. This larger integration of facilities is 28 another reason supporting a single, undifferentiated rate for the Core and 29 Noncore customer classes, respectively. 30 Moreover, from a contractual standpoint, Baja receipts have never been 31 limited to transportation on the Baja facilities (Line 300); this gas has always 32 been able to flow contractually to any point on the system, even to Malin. 33 Similarly, Redwood receipts have not been limited to transportation on the 1-13 1 Redwood facilities (Lines 400, 401 and 2), but can flow contractually as far 2 south as Topock. 3 Another important benefit of a policy favoring undifferentiated backbone 4 rates is to provide an assurance that new supply opportunities will not be 5 disadvantaged by a higher PG&E backbone rate for a particular path, if and 6 · when such supply is connected to the PG&E backbone system. Since all 7 customers benefit from gas-on-gas competition, it is appropriate that the 8 cost of transportation on the backbone system be spread 9 the connecting pipelines to out-of-state .sources. This will enable all supply 10 sources to compete on an equal footing for sales to northern California gas . 11 12 13 equal~y across all consumers, who will be the ultimate beneficiaries of such a policy. 3. A Demand Based Backbone Rate Design Is Superior to the Current System Average Load Factor Methodology 14 In conjunction with the above proposal to create a single Core and a 15 single Noncore backbone rate, PG&E also proposes a simpler and more 16 conventional demand-based backbone rate design, rather th.an the present 17 complicated system average load factor rate design. In previous GT&S rate 18 cases and Gas Accord settlements, backbone rates were not calculated 19 based on path-specific demands (throughputs) because developing 20 forecasts of path-specific demands would have been difficult and 21 contentious. Accordingly, previous Gas Accords made the simplifying 22 assumption, for rate design purposes, that all of the backbone paths make a 23 proportional contribution to serving PG&E',s total gas load. This was the 24 essence of the load factor based rate design: the denominator of the 25 backbone rate calculation for a particular path was the product of the path 26 capacity and the system average backbone load factor, not a path-specific 27 throughput forecast. 28 PG&E's proposal to create a single Core rate and a single Noncore rate 29 lends itself to also switching to a demand-based rate calculation. The 30 demand on the Core Redwood-Baja "path" is simply the total· Core demand. 31 The demand on the Noncore Redwood-Baja "path" is the total Noncore 32 demand, less a small portion of that demand served by the Silverado path 33 and served under G-XF contracts. This approach vastly simplifies the 34 backbone rat.e design by eliminating the need for the complex calculation of · 1-14