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Increasing Efficiency Through Power Line Reconductoring, with Umed Paliwal
Manage episode 428082157 series 3382676
Content provided by Project Climate, Center for Law, Energy & the Environment, Berkeley Law and Berkeley Law. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Project Climate, Center for Law, Energy & the Environment, Berkeley Law and Berkeley Law or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
Reconductoring power grids to boost energy efficiency
The expansion of renewable energy has resulted in a heightened need for greater transmission capacity of the electrical grid. Unfortunately, permitting and cost allocation have been large hurdles to the potential of rapid expansion to meet future demand. As an alternative, large-scale reconductoring of advanced conductor systems has been proposed as a solution. Such an alternative can double transmission capacity cost-effectively, without the need to ensure additional permitting. In order to achieve this transition, old steel power lines would be replaced with carbon fiber, reducing electricity loss and boosting the overall capacity of the power grid.
How does reconductoring work?
In order to achieve clean energy goals, it is vital that we increase power grid capacity. To briefly summarize, electrons travel along transmission lines between towers made of conducting elements and a strength member, which allows conductors to hang between towers. The most common type of reinforcement is ACSR, aluminum conductor steel reinforced, used in overhead electrical transmissions. ACSR is susceptible to degradation and breakage, which may lead to more frequent power outages and increased chemical runoff into the environment. As an alternative, ACSS has been proposed by researchers as it carries more current than ACSR and is supported at higher temperatures.
According to recent studies by the Goldman School and GridLab, replacing power lines with advanced conductors would enable 90% clean electricity by 2035. The report revealed that reconductoring transmission lines could add approximately 65 TW-miles of new interzonal transmission capacity in ten years, compared to 16TW-miles from building only new transmission lines. In terms of pricing, implementing advanced conductors costs around 20% more than building new lines. Yet replacing old lines with advanced conductors is typically half the cost than building new lines for the same capacity, partly because you reuse old infrastructure and the new models are much more energy efficient. Further policy and legislation is necessary in order to drive this technology into the future and ensure proper permitting, funding, and planning.
What are some of the benefits?
Advanced composite-core conductors such as ACSS can carry double the existing capacity, operate at higher temperatures, and reduce line sag. Further, replacing the steel for a stronger yet smaller composite-based core can avoid the construction of new lines which bring about land acquisition and increasing permitting. There is already a growing movement towards reconductoring, as 90,000 miles of advanced conductors have been deployed globally. More advanced conductors also have the benefit of being cost-effective, with an estimated $180 billion in systems cost savings with more long-term structure. Advanced conductors enable a doubling of line capacity at less than half the cost of new lines. Alongside the benefits, at large, reconductoring can play a pivotal role in low-cost decarbonization of power systems.
What are some of the drawbacks?
Amidst the potential advantages are obstacles that may impede the future progress of reconductoring. First, there is a lack of awareness. Conventionally, the only way to expand the grid capacity has been to build new lines. Utilities are not aware of the existing solution and often fail to take reconductoring into account. Alongside this is a lack of experience and misconception that implementing reconductoring lines is difficult and unrealistic. As there is a lack of incentives for utilities to improve their products, cheaper solutions are not enticing for their rate of return regulation. Particularly if reconductoring only occurs in localized areas as opposed to system-wide implementation, the benefits may be limited. Thus, government prioritization of this new solution is critical in order to boost conductor efficiency.
About our guest
Umed Paliwal is a senior scientist at the Center for Environmental Public Policy and the Goldman School of Public Policy at UC Berkeley. Umed conducts research on ways to integrate renewables on the grid and understand its impact on reliability and energy pricing. Umed’s research has revealed that replacing old power lines with newer technology can boost the capacity of the power grid and help to achieve clean energy goals. He holds a Master of Public Policy from UC Berkeley where he focused on energy markets, regulation, power systems modeling and data analytics.
Resources
- Grid rewiring: An answer for Biden’s climate goals?
- Reconductoring Could Help Solve America’s Looming Grid Crisis
- Reconductoring US power lines could quadruple new transmission capacity by 2035: report
Further Reading
- Accelerating Transmission Expansion by Using Advanced Conductors in Existing Right-of-Way
- Advanced Conductors on Existing Transmission Corridors to Accelerate Low Cost Decarbonization
- The 2035 Report: Reconductoring With Advanced Conductors Can Accelerate The Rapid Transmission Expansion Required For A Clean Grid
For a transcript of this episode, please visit https://climatebreak.org/increasing-efficiency-through-power-line-reconductoring-with-umed-paliwal/
160 episodes
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Manage episode 428082157 series 3382676
Content provided by Project Climate, Center for Law, Energy & the Environment, Berkeley Law and Berkeley Law. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Project Climate, Center for Law, Energy & the Environment, Berkeley Law and Berkeley Law or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
Reconductoring power grids to boost energy efficiency
The expansion of renewable energy has resulted in a heightened need for greater transmission capacity of the electrical grid. Unfortunately, permitting and cost allocation have been large hurdles to the potential of rapid expansion to meet future demand. As an alternative, large-scale reconductoring of advanced conductor systems has been proposed as a solution. Such an alternative can double transmission capacity cost-effectively, without the need to ensure additional permitting. In order to achieve this transition, old steel power lines would be replaced with carbon fiber, reducing electricity loss and boosting the overall capacity of the power grid.
How does reconductoring work?
In order to achieve clean energy goals, it is vital that we increase power grid capacity. To briefly summarize, electrons travel along transmission lines between towers made of conducting elements and a strength member, which allows conductors to hang between towers. The most common type of reinforcement is ACSR, aluminum conductor steel reinforced, used in overhead electrical transmissions. ACSR is susceptible to degradation and breakage, which may lead to more frequent power outages and increased chemical runoff into the environment. As an alternative, ACSS has been proposed by researchers as it carries more current than ACSR and is supported at higher temperatures.
According to recent studies by the Goldman School and GridLab, replacing power lines with advanced conductors would enable 90% clean electricity by 2035. The report revealed that reconductoring transmission lines could add approximately 65 TW-miles of new interzonal transmission capacity in ten years, compared to 16TW-miles from building only new transmission lines. In terms of pricing, implementing advanced conductors costs around 20% more than building new lines. Yet replacing old lines with advanced conductors is typically half the cost than building new lines for the same capacity, partly because you reuse old infrastructure and the new models are much more energy efficient. Further policy and legislation is necessary in order to drive this technology into the future and ensure proper permitting, funding, and planning.
What are some of the benefits?
Advanced composite-core conductors such as ACSS can carry double the existing capacity, operate at higher temperatures, and reduce line sag. Further, replacing the steel for a stronger yet smaller composite-based core can avoid the construction of new lines which bring about land acquisition and increasing permitting. There is already a growing movement towards reconductoring, as 90,000 miles of advanced conductors have been deployed globally. More advanced conductors also have the benefit of being cost-effective, with an estimated $180 billion in systems cost savings with more long-term structure. Advanced conductors enable a doubling of line capacity at less than half the cost of new lines. Alongside the benefits, at large, reconductoring can play a pivotal role in low-cost decarbonization of power systems.
What are some of the drawbacks?
Amidst the potential advantages are obstacles that may impede the future progress of reconductoring. First, there is a lack of awareness. Conventionally, the only way to expand the grid capacity has been to build new lines. Utilities are not aware of the existing solution and often fail to take reconductoring into account. Alongside this is a lack of experience and misconception that implementing reconductoring lines is difficult and unrealistic. As there is a lack of incentives for utilities to improve their products, cheaper solutions are not enticing for their rate of return regulation. Particularly if reconductoring only occurs in localized areas as opposed to system-wide implementation, the benefits may be limited. Thus, government prioritization of this new solution is critical in order to boost conductor efficiency.
About our guest
Umed Paliwal is a senior scientist at the Center for Environmental Public Policy and the Goldman School of Public Policy at UC Berkeley. Umed conducts research on ways to integrate renewables on the grid and understand its impact on reliability and energy pricing. Umed’s research has revealed that replacing old power lines with newer technology can boost the capacity of the power grid and help to achieve clean energy goals. He holds a Master of Public Policy from UC Berkeley where he focused on energy markets, regulation, power systems modeling and data analytics.
Resources
- Grid rewiring: An answer for Biden’s climate goals?
- Reconductoring Could Help Solve America’s Looming Grid Crisis
- Reconductoring US power lines could quadruple new transmission capacity by 2035: report
Further Reading
- Accelerating Transmission Expansion by Using Advanced Conductors in Existing Right-of-Way
- Advanced Conductors on Existing Transmission Corridors to Accelerate Low Cost Decarbonization
- The 2035 Report: Reconductoring With Advanced Conductors Can Accelerate The Rapid Transmission Expansion Required For A Clean Grid
For a transcript of this episode, please visit https://climatebreak.org/increasing-efficiency-through-power-line-reconductoring-with-umed-paliwal/
160 episodes
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continue reading
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