--- title: "Climate Inaction Will Cost Far More Than Investing In Renewables" id: "4344" type: "post" slug: "climate-inaction-will-cost-far-more-than-investing-in-renewables" published_at: "2024-02-28T14:00:45+00:00" modified_at: "2025-02-06T15:48:19+00:00" url: "https://virtual-peaker.com/blog/climate-inaction-will-cost-far-more-than-investing-in-renewables/" markdown_url: "https://virtual-peaker.com/blog/climate-inaction-will-cost-far-more-than-investing-in-renewables.md" excerpt: "Last week, Politico ran an article that implied that partisan legislation aimed at mitigating climate change is the cause for […]" taxonomy_category: - "Sustainability" --- Sustainability # Climate Inaction Will Cost Far More Than Investing In Renewables [Syd Bishop Published Feb 28, 2024](https://virtual-peaker.com/author/sbishop/) Share[https://www.facebook.com/sharer/sharer.php?u=https://virtual-peaker.com/blog/climate-inaction-will-cost-far-more-than-investing-in-renewables/](https://www.facebook.com/sharer/sharer.php?u=https://virtual-peaker.com/blog/climate-inaction-will-cost-far-more-than-investing-in-renewables/) [http://twitter.com/share?url=https://virtual-peaker.com/blog/climate-inaction-will-cost-far-more-than-investing-in-renewables/](http://twitter.com/share?url=https://virtual-peaker.com/blog/climate-inaction-will-cost-far-more-than-investing-in-renewables/) [https://www.linkedin.com/shareArticle?mini=true&url=https://virtual-peaker.com/blog/climate-inaction-will-cost-far-more-than-investing-in-renewables/&source=LinkedIn](https://www.linkedin.com/shareArticle?mini=true&url=https://virtual-peaker.com/blog/climate-inaction-will-cost-far-more-than-investing-in-renewables/&source=LinkedIn) [mailto:?&subject=Climate%20Inaction%20Will%20Cost%20Far%20More%20Than%20Investing%20In%20Renewables&body=https://virtual-peaker.com/blog/climate-inaction-will-cost-far-more-than-investing-in-renewables/](mailto:?&subject=Climate%20Inaction%20Will%20Cost%20Far%20More%20Than%20Investing%20In%20Renewables&body=https://virtual-peaker.com/blog/climate-inaction-will-cost-far-more-than-investing-in-renewables/) Last week, [Politico ran an article](https://www.politico.com/news/2024/02/21/democrats-climate-action-utility-bills-00142316) that implied that partisan legislation aimed at mitigating climate change is the cause for high electricity bills in California. In a way, they are correct: curbing the effects of climate change is estimated to [cost around $5.5t between 2023-2030](https://unctad.org/sdg-costing/climate-change#:~:text=For%20the%2048%20developing%20economies,cost%20of%20%241%2C213%20per%20person.) . For perspective, fossil fuels including petroleum, coal, and natural gasses accounted for [79% of the U.S. energy portfolio](https://www.eia.gov/energyexplained/us-energy-facts/) , with renewable energies only accounting for around 13%. While the price tag for climate action is steep, climate inaction is far more expensive, with research suggesting [climate change cost U.S. citizens $92.9b in 2023—or $2945.84 per second](https://www.actonclimate.com/ticker/#:~:text=Climate%20change%20is%20making%20extreme,insurance%20for%20the%20average%20American.) . While [decarbonization](https://virtual-peaker.com/blog/energy-decarbonization-is-everyones-challenge/) is a critical strategy in mitigating climate change, there are affordable [non-wires alternative](https://virtual-peaker.com/blog/what-are-non-wires-alternatives/) s to curb the high cost of infrastructure upgrades, while increasing grid resiliency and defraying high peak energy costs. ## Money Matters In California, ratepayers have seen their utility bills rise by up to 127% over the last decade, an increase that understandably presents a challenge to customers. Rising utility bills were a significant part of the [J.D. Power 2023 Electric Utility Business Customer Satisfaction Study](https://www.jdpower.com/business/press-releases/2023-electric-utility-business-customer-satisfaction-study) , with respondents reporting that they feel unsatisfied with the steps that utilities are taking to ameliorate these costs. The study found that customers wish for greater communication and transparency over their fluctuating bills, as well as increased commitments to renewable energy objectives like [EV charging](https://virtual-peaker.com/solutions/ev-charging/) . While this study further implies that rising rates challenge utility providers in meeting customer satisfaction, rising costs reflect not only climate change mitigations but also a real-time response to the severe weather and increasingly frequent extreme temperature days. As Politico notes in the same article, “The biggest driver of California utility bills stems from adapting to climate change, not preventing it.” ## The Cost of Climate Inaction The U.S. electric infrastructure build-out started in earnest with the [New Deal](https://en.wikipedia.org/wiki/New_Deal#:~:text=The%20New%20Deal%20was%20a,States%20between%201933%20and%201939.) and [Rural Electrification Acts](https://www.archives.gov/research/guide-fed-records/groups/221.html) in 1936 were introduced by President Franklin D. Roosevelt to expand access to electricity around the country. Now, utilities are faced with decarbonization and electrification efforts that simultaneously introduce increased loads via [distributed energy resources (DERs)](https://virtual-peaker.com/blog/distributed-energy-resource/) like [solar](https://virtual-peaker.com/blog/rooftop-solar-panels/) , [battery](https://virtual-peaker.com/blog/the-past-present-future-of-battery-storage/) , EVs, or smart home devices like thermostats and water heaters, while also decreasing our national reliance on fossil fuels. That is part of the conversation that drove legislation like the [Inflation Reduction Act](https://virtual-peaker.com/blog/the-inflation-reduction-act-distributed-energy-resources-energy-efficiency/) and [Bipartisan Infrastructure Law](https://bidenwhitehouse.archives.gov/briefing-room/statements-releases/2021/11/10/fact-sheet-the-bipartisan-infrastructure-deal-improves-the-supply-chain-from-ship-to-store/) , bills that were introduced to address outdated and failing U.S. electric infrastructure. Still, while there are opportunities for financial assistance to help develop the necessary logistics, infrastructure upgrades are expensive. [Research suggests](https://woodpoles.org/portals/2/documents/TB_Undergrounding.pdf) that it costs around $86,700 per mile for overhead transmission lines, with that figure growing exponentially in rural areas where lines are harder to get to and often longer. Burying lines costs far more, with estimates starting around $4.5m in urban areas per mile. In 2023, climate change cost $92.9b in disaster relief, ballooning to an enormous $182.7b in 2024. Research indicates that climate inaction will cost around $1.7b in economic damages per utility by 2050. When you consider that those costs will mount alongside the estimated $21t necessary to upgrade the grid, that figure only increases, creating even greater challenges later. – Syd Bishop, Sr. Content Specialist, Virtual Peaker These costs represent just some of the necessary fees to upgrade the U.S. national electric infrastructure. In 2023, [climate change cost $92.9b in disaster relief,](https://www.climate.gov/news-features/blogs/beyond-data/2023-historic-year-us-billion-dollar-weather-and-climate-disasters#:~:text=Damages%20from%20the%202023%20disasters,early%20March%20(%246.0%20billion).) ballooning to an enormous [$182.7b in 2024](https://www.climate.gov/news-features/blogs/beyond-data/2024-active-year-us-billion-dollar-weather-and-climate-disasters) . Research indicates that climate inaction will cost around [$1.7b in economic damages per utility by 2050](https://www.mckinsey.com/~/media/McKinsey/Industries/Electric%20Power%20and%20Natural%20Gas/Our%20Insights/Why%20and%20how%20utilities%20should%20start%20to%20manage%20climate%20change%20risk/Why-and-how-utilities-should-start-to-manage-climate-change-risk-vF.pdf) . When you consider that those costs will mount alongside the estimated [$21t necessary to upgrade the grid](https://www.ft.com/content/bf1b788a-f366-4637-9ae4-08dbc0bd90fa) , that figure only increases, creating even greater challenges later. ## Distributed Energy Resources to the Rescue: Examples of Non-Wires Alternatives While electrification efforts have resulted in a greater incumbrance for the grid, the increasing adoption of distributed energy resources (DERs) presents load flexibility opportunities for utilities. Through a [distributed energy resource management system (DERMS)](https://virtual-peaker.com/platform/derms-suite/) , utility program managers can better utilize community DER assets to meet needs during peak demand. Non-wires alternatives provide a cost-effective solution to mitigating infrastructure upgrades, thus deferring those costs while allowing utility operations to address them on their schedule. DERs pose as a solution to climate inaction, allowing utilities to meet demand affordably without sacrificing continuity service. ### Conservation Many demand flexibility programs revolve around conservation tactics. Time-tested, [demand response](https://virtual-peaker.com/solutions/demand-response/) is, perhaps, the longest-running demand flexibility initiative, a conservation tactic that calls upon program participants to curtail their usage during peak periods of demand through device control. EV managed charging parallels that initiative, shifting usage to off-peak times of need for electric vehicles. In both instances, conservation minimizes usage, thus lowering high peak energy costs while increasing resiliency. ### Redistribution By contrast, some demand flexibility programs utilize existing DER assets to replenish the grid. For example, [V2G charging](https://virtual-peaker.com/blog/why-v2g-charging-matters/) is a bidirectional charging scheme that allows utilities to pull power from participating EV batteries, resuming charging times during off-peak hours of consumption. Likewise, [virtual power plants](https://virtual-peaker.com/blog/virtual-power-plants-creating-a-new-culture-of-energy-services/) can pull existing community assets to re-power the grid or can conduct broad conservation events over large areas, resulting in an aggregate of power that can be redistributed as needed. ## Climate Inaction Conclusion Beyond just the economics of the [energy transition](https://virtual-peaker.com/blog/ders-equity-and-the-just-energy-transition/) , climate inaction poses a serious existential threat to the quality of life for future generations. Without direct action, climate change-induced natural disasters will continue to mount, costing trillions globally while severely challenging grid stability. Fortunately, distributed energy resources are a powerful, partisan tool to address climate change and energy insecurity alike, while generating potential revenue streams for enterprising utilities. ### Subscribe & Learn More About the Evolving Energy Landscape [Subscribe](https://share.hsforms.com/1mLfmlKhIToCw6eTJ3El3pA39sw7?__hstc=55780276.b73074aa04f08e3488870b2d89caa546.1649711082360.1671464226747.1671468229711.321&__hssc=55780276.3.1671468229711&__hsfp=607013177) About The Author [https://virtual-peaker.com/author/sbishop/](https://virtual-peaker.com/author/sbishop/) Syd is a senior content specialist and all-around word nerd for Virtual Peaker. Syd believes in the inevitability of renewable energies and in implementing a diverse energy portfolio and is excited to use his skills to help spread that message far and wide. In his scant free time, Syd is a father of two, husband of an awesome wife, a musician, and a lover of comic books, and all things sci-fi. [More About Syd](https://virtual-peaker.com/author/sbishop/) Related Stories [Blog Post Jun 10, 2026 Feeder-Level Dispatch & Grid-Edge DERMS: Get Relief Where Your Grid Needs It Most To meet rising demand and effect feeder-level dispatch, Grid-Edge distributed energy resource management systems (DERMS) provide ops teams the localized […] Syd Bishop Senior Content Specialist](https://virtual-peaker.com/blog/feeder-level-dispatch-grid-edge-derms-get-relief-where-your-grid-needs-it-most/) [Blog Post Jun 3, 2026 Grid DERMS vs. Grid-Edge DERMS: A Complete Utility Guide Distributed Energy Resources As distributed energy resources (DERs) proliferate, utilities need purpose-built management systems to harness them. But not all […] Stacia Secreriat Digital Marketing Manager](https://virtual-peaker.com/blog/grid-edge-derms-versus-grid-derms/) [Blog Post May 22, 2026 5 Ways Grid-Edge DERMS Technology is Revolutionizing Traditional Demand-Side Management What Is Grid-Edge DERMS and How Does It Modernize Demand-Side Management? Grid-Edge distributed energy resource management systems (DERMS) are software […] Virtual Peaker Team](https://virtual-peaker.com/blog/5-ways-grid-edge-derms-technology-is-revolutionizing-traditional-demand-side-management/) Subscribe to our blog ## Get the latest DER thought leadership, tips, and best practices in your inbox! Yes, I would like to receive Virtual Peaker blogs as well as marketing communications regarding Virtual Peaker products, services, and events. I can unsubscribe at any time.