{"id":14957,"date":"2016-11-16T15:10:26","date_gmt":"2016-11-16T20:10:26","guid":{"rendered":"https:\/\/digital.hbs.edu\/platform-rctom\/submission\/pge-a-journey-in-smart-grid-design\/"},"modified":"2016-11-16T15:14:06","modified_gmt":"2016-11-16T20:14:06","slug":"pge-a-journey-in-smart-grid-design","status":"publish","type":"hck-submission","link":"https:\/\/d3.harvard.edu\/platform-rctom\/submission\/pge-a-journey-in-smart-grid-design\/","title":{"rendered":"PG&E: A Journey in Smart Grid Design"},"content":{"rendered":"

Pacific Gas and Electric Company (PG&E)<\/strong>: An investor-owned electric utility (IOU) based in San Francisco, PG&E provides and delivers natural gas & electric services to approximately 16 million people throughout a 70,000 square-mile service area in northern and central California.1<\/sup><\/p>\n

An Aging Industry \"power-lines\"<\/a>in Flux: <\/strong>For more than one hundred years, public utilities such as PG&E have fueled growth within the United States by providing reasonably priced, reliable, and ubiquitous power via the national electric grid.2<\/sup> However, the underlying drivers that have enabled this consistent and affordable energy delivery are shifting. In the past, utilities were incentivized to invest heavily in generation and delivery infrastructure that improved power output because regulators increased rates in line with those capital expenditures.3&4<\/sup> However, the stable demand growth that ensured affordable prices for customers and reasonable returns for utilities has started to decline as a result of increased efficiency, conservation efforts, and increased renewable generation. For PG&E, this change presents a significant challenge as management seeks to balance increasing environmental regulation with a need for reliable service on an aging transmission and distribution system.5<\/sup><\/p>\n

An Evolving Business Model<\/strong>: In a traditional IOU, the business model seeks to provide a return \"rooftop-solar\"<\/a>on investment for its shareholders in the form of dividends or share price appreciation generated by selling power.6 <\/sup>However, PG&E now makes money through a process known as \u201cdecoupling\u201d whereby profits are earned not by consumption, but by selling less electricity to consumers.7<\/sup> In practice, this type of revenue generation creates mechanisms such as \u201cpeak pricing\u201d through which PG&E increases the cost for residential, agricultural, industrial, and commercial ratepayers when demand is at its highest. Since utilities must continually run their \u201cbaseload\u201d power plants (e.g., nuclear or coal) regardless of demand, \u201cdecoupling\u201d encourages rate-payers to either conserve energy or create their own through distributed generation (e.g., rooftop solar).9&10<\/sup> However, as distributed generation grows, PG&E must find a way to still capture value while also maintaining the aging grid and providing power during periods that exceed the capacity of renewable generation.<\/p>\n

Internet of Thin\"smart-grid\"<\/a>gs and the Smart Grid<\/strong>: To keep up with an evolving regulatory landscape, PG&E recognizes that it must update its archaic business model and leverage technology to improve asset utilization and reduce cost.11&12<\/sup> Chris Johns, the former President of PG&E, communicated a vision similar to the Internet of Things called the \u201cGrid of Things\u201d for which his company developed several initiatives focused on increasing interconnectedness among emerging energy technologies (e.g., electric vehicles, rooftop solar, smart appliances, and battery storage).13<\/sup> PG&E also implemented one of the largest IPv6 networks on earth to great effect in improving energy management and control.14<\/sup> Furthermore, it spearheaded initiatives to optimize grid performance and increase resiliency through investment in smart grid technology that helps the grid \u201cself-heal\u201d to minimize outages as well as in voltage control technology that manages two-way electricity flow within the grid.15<\/sup> However, while there is clearly a shift in the operating model for PG&E, its business model is still struggling to adapt to evolving demands.<\/p>\n

Recently, the California Public Utilities Commission (CPUC) accepted a new net metering tariff by which customers with rooftop solar can sell excess energy back to the electric grid at retail rather than wholesale prices.16<\/sup> PG&E had opposed adoption of such measures and, among other recommendations, sought to reimburse solar users at reduced rates. With the new mandate passed by CPUC, they argue that net-metered solar customer\u2019s utility bill reduction will push up to $24 billion in costs to non-participating customers over the next decade.17 <\/sup>However, with a state mandate to obtain half of its energy from renewables by 2030, PG&E must figure out a way to balance non-utility distributed generation with making a profit, developing the smart grid, and expanding renewable capacity.18<\/sup><\/p>\n

Recommendations<\/strong>: As its business model develops, PG&E will continue to create value by providing readily available power to its customer base, but must find a way to stabilize rates for lower income families. This challenge may mean a floating fixed rate fee for those who still require access to the grid or a transition towards service as a platform provider for third-party energy service companies (e.g., New York\u2019s \u201cReforming the Energy Vision\u201d).19<\/sup> Regarding its operating model, PG&E needs to expand its regional smart grid initiative to the national stage (e.g., supporting solar and energy storage on the grid and the demand response plug-in electric vehicle program).20<\/sup> The electric grid is not truly national and, as renewable generation develops, utilities have no way to redistribute excess power across the grid or leverage data on a national level to improve service. The potential for innovation here is high, but we are at a delicate stage in which action at the customer, utility, and governmental level could have impacts for decades to come.<\/p>\n

Word Count <\/strong>(excluding citations): 793<\/p>\n

 <\/p>\n

Endnotes________________________________________________________________________<\/u><\/strong><\/p>\n

1<\/sup> Pacific Gas and Electric Company, \u201cCompany Profile,\u201d [https:\/\/www.pge.com\/en_US\/about-pge\/company-information\/profile\/profile.page], accessed November 13, 2016.<\/p>\n

2 <\/sup>Thomas L. Friedman, \u201cHot, Flat, and Crowded,\u201d (New York: Picador, 2009), p. 265.<\/p>\n

3<\/sup> Ibid, p. 268.<\/p>\n

4<\/sup> Christian Grant, John McCue, and Roby Young, \u201cThe Power Is On: How IoT Technology Is Driving Energy Innovation,\u201d Deloitte University Press, January 21, 2016, [https:\/\/dupress.deloitte.com\/dup-us-en\/focus\/internet-of-things\/iot-in-electric-power-industry.html], accessed November 13, 2016, p. 2.<\/p>\n

5<\/sup> Ibid.<\/p>\n

6<\/sup> Jeff Tarbert, \u201cPublic Power\u2019s Business Model: A Primer,\u201d American Public Power Association, [http:\/\/www.publicpower.org\/files\/Media\/PP Business Model-Tarbert.pdf], accessed November 13, 2016, p. 6.<\/p>\n

7<\/sup> Robert J. Michaels, \u201cElectric Revenue Decoupling Explained,\u201d Institute for Energy Research, February 13, 2009, [http:\/\/www.instituteforenergyresearch.org\/analysis\/electric-revenue-decoupling], accessed November 13, 2016.<\/p>\n

8<\/sup> Tony Seba, \u201cClean Disruption\u201d (Silicon Valley, California: Clean Planet Ventures, 2014), p. 70-71.<\/p>\n

9<\/sup> Ibid.<\/p>\n

10<\/sup> Solar Energy Industries Association, \u201cUtility Rate Structure,\u201d [http:\/\/www.seia.org\/policy\/distributed-solar\/utility-rate-structure], accessed November 13, 2016.<\/p>\n

11<\/sup> Tim Fitzpatrick, \u201cAdapting the Utility Business Model to a Clean-Energy Future,\u201d Currents: News and Perspectives from PG&E, April 13, 2016, [http:\/\/www.pgecurrents.com\/2016\/04\/13\/adapting-the-utility-business-model-to-a-clean-energy-future\/], accessed November 14, 2016.<\/p>\n

12<\/sup> Christian Grant, John McCue, and Roby Young, \u201cThe Power Is On: How IoT Technology Is Driving Energy Innovation,\u201d Deloitte University Press, January 21, 2016, [https:\/\/dupress.deloitte.com\/dup-us-en\/focus\/internet-of-things\/iot-in-electric-power-industry.html], accessed November 14, 2016, p. 2.<\/p>\n

13<\/sup> \u201cPG&E President Says Utility is Investing Today for the \u2018Grid of Things\u2019 TM of Tomorrow,\u201d Business Wire, March 19, 2015, ABI\/INFORM via ProQuest, accessed November 14, 2016.<\/p>\n

14<\/sup> Ray Vaswani, \u201cThe Next Wave: Utilities, Smart Cities, and the Internet of Things,\u201d Energy Biz Magazine, Summer 2015 (Volume 12\/Issue 3), p. 26.<\/p>\n

15<\/sup> \u201cPG&E President Says Utility is Investing Today for the \u2018Grid of Things\u2019 TM of Tomorrow,\u201d Business Wire, March 19, 2015, ABI\/INFORM via ProQuest, accessed November 14, 2016.<\/p>\n

16<\/sup> John Schuster, \u201cNet Metering in Play in Multiple US States,\u201d Chadbourne & Parke Project Finance NewsWire, April 2016, p. 25.<\/p>\n

17 <\/sup>Jeff St. John, \u201cCalifornia Utilities Release New Plans to Replace Net Metering: Conflict to Come?\u201d, Greentech Media, August 4, 2015, [https:\/\/www.greentechmedia.com\/articles\/read\/california-utilities-plan-for-net-metering-20-fixed-charges-lower-payments], accessed November 15, 2016.<\/p>\n

18<\/sup> California Energy Commission, \u201cFact Sheets on California’s 2030 Climate Commitments and Related E3 Study,\u201d July 9, 2015, [http:\/\/www.energy.ca.gov\/commission\/fact_sheets\/climate_commitments_fact_sheets.html], accessed November 16, 2016.<\/p>\n

19 <\/sup>Jeff St. John, \u201cThe Future of Utility Business Models, This Time Without Fixed Charges\u201d, Greentech Media, November 9, 2015, [https:\/\/www.greentechmedia.com\/articles\/read\/The-Future-of-Utility-Business-Models-This-Time-Without-Fixed-Charges], accessed November 16, 2016.<\/p>\n

20<\/sup> PG&E News Releases, \u201cPG&E\u2019s Smart Grid Delivers Customer Benefits and Improved Reliability,\u201d October 1, 2014, [https:\/\/www.pge.com\/en\/about\/newsroom\/newsdetails\/index.page?title=20141001_pges_smart_grid_delivers_customer_benefits_and_improved_reliability], accessed November 16, 2016.<\/p>\n","protected":false},"excerpt":{"rendered":"

The Pacific Gas and Electric Company seeks a way to revise its century-old business and operating model to meet the demands of modern customers in a rapidly changing energy landscape.<\/p>\n","protected":false},"author":2509,"featured_media":14958,"comment_status":"open","ping_status":"closed","template":"","categories":[26,2029,382,2109,1539,2019,1421,2110,2111,2112,1240,1847],"class_list":["post-14957","hck-submission","type-hck-submission","status-publish","has-post-thumbnail","hentry","category-clean-energy","category-digitization","category-distributed-generation","category-electric-grid","category-fossil-fuels","category-internet-of-things","category-nuclear-power","category-rooftop-solar","category-smart-grid","category-solar-power","category-utilities","category-wind-power"],"connected_submission_link":"https:\/\/d3.harvard.edu\/platform-rctom\/assignment\/digitization-challenge-2016\/","yoast_head":"\nPG&E: A Journey in Smart Grid Design - Technology and Operations Management<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/d3.harvard.edu\/platform-rctom\/submission\/pge-a-journey-in-smart-grid-design\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"PG&E: A Journey in Smart Grid Design - Technology and Operations Management\" \/>\n<meta property=\"og:description\" content=\"The Pacific Gas and Electric Company seeks a way to revise its century-old business and operating model to meet the demands of modern customers in a rapidly changing energy landscape.\" \/>\n<meta property=\"og:url\" content=\"https:\/\/d3.harvard.edu\/platform-rctom\/submission\/pge-a-journey-in-smart-grid-design\/\" \/>\n<meta property=\"og:site_name\" content=\"Technology and Operations Management\" \/>\n<meta property=\"article:modified_time\" content=\"2016-11-16T20:14:06+00:00\" \/>\n<meta property=\"og:image\" content=\"https:\/\/d3.harvard.edu\/platform-rctom\/wp-content\/uploads\/sites\/4\/2016\/11\/Solar-Farm.jpg\" \/>\n\t<meta property=\"og:image:width\" content=\"840\" \/>\n\t<meta property=\"og:image:height\" content=\"485\" \/>\n\t<meta property=\"og:image:type\" content=\"image\/jpeg\" \/>\n<meta name=\"twitter:card\" content=\"summary_large_image\" \/>\n<meta name=\"twitter:label1\" content=\"Est. reading time\" \/>\n\t<meta name=\"twitter:data1\" content=\"6 minutes\" \/>\n<script type=\"application\/ld+json\" class=\"yoast-schema-graph\">{\"@context\":\"https:\\\/\\\/schema.org\",\"@graph\":[{\"@type\":\"WebPage\",\"@id\":\"https:\\\/\\\/d3.harvard.edu\\\/platform-rctom\\\/submission\\\/pge-a-journey-in-smart-grid-design\\\/\",\"url\":\"https:\\\/\\\/d3.harvard.edu\\\/platform-rctom\\\/submission\\\/pge-a-journey-in-smart-grid-design\\\/\",\"name\":\"PG&E: A Journey in Smart Grid Design - Technology and Operations Management\",\"isPartOf\":{\"@id\":\"https:\\\/\\\/d3.harvard.edu\\\/platform-rctom\\\/#website\"},\"primaryImageOfPage\":{\"@id\":\"https:\\\/\\\/d3.harvard.edu\\\/platform-rctom\\\/submission\\\/pge-a-journey-in-smart-grid-design\\\/#primaryimage\"},\"image\":{\"@id\":\"https:\\\/\\\/d3.harvard.edu\\\/platform-rctom\\\/submission\\\/pge-a-journey-in-smart-grid-design\\\/#primaryimage\"},\"thumbnailUrl\":\"https:\\\/\\\/d3.harvard.edu\\\/platform-rctom\\\/wp-content\\\/uploads\\\/sites\\\/4\\\/2016\\\/11\\\/Solar-Farm.jpg\",\"datePublished\":\"2016-11-16T20:10:26+00:00\",\"dateModified\":\"2016-11-16T20:14:06+00:00\",\"breadcrumb\":{\"@id\":\"https:\\\/\\\/d3.harvard.edu\\\/platform-rctom\\\/submission\\\/pge-a-journey-in-smart-grid-design\\\/#breadcrumb\"},\"inLanguage\":\"en-US\",\"potentialAction\":[{\"@type\":\"ReadAction\",\"target\":[\"https:\\\/\\\/d3.harvard.edu\\\/platform-rctom\\\/submission\\\/pge-a-journey-in-smart-grid-design\\\/\"]}]},{\"@type\":\"ImageObject\",\"inLanguage\":\"en-US\",\"@id\":\"https:\\\/\\\/d3.harvard.edu\\\/platform-rctom\\\/submission\\\/pge-a-journey-in-smart-grid-design\\\/#primaryimage\",\"url\":\"https:\\\/\\\/d3.harvard.edu\\\/platform-rctom\\\/wp-content\\\/uploads\\\/sites\\\/4\\\/2016\\\/11\\\/Solar-Farm.jpg\",\"contentUrl\":\"https:\\\/\\\/d3.harvard.edu\\\/platform-rctom\\\/wp-content\\\/uploads\\\/sites\\\/4\\\/2016\\\/11\\\/Solar-Farm.jpg\",\"width\":840,\"height\":485,\"caption\":\"A worker inspects solar panels at a solar Dunhuang, 950km (590 miles) northwest of Lanzhou, Gansu Province September 16, 2013. 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