After Helene, rural North Carolina turns to solar and battery hubs

More than a year after the storm’s devastation, clean-energy microgrids are springing up in remote areas thanks to a program that could become a national model.

The Disjointedness Trick

What is the political significance of microgrids? What do they have to do with lifestyle interventions in relation to energy consumption?

—

Data centers are poised for getting their own microgrids, with sovereign energy. This would separate their source of energy from that of other consumption - such as that of people (as in humans), for their daily life.

Meanwhile, for energy efficiency purposes, we seem to be moving to reduce the so-to-say direct or the somewhat direct human consumption, one may argue, through impoverishment, and/or, and arguably as in some, lifestyle adjustments.

There are two issues with this:

1. Segregation, giving way to excessive or unbound or potentially irrelevant energy use even if the somewhat direct human consumption could go down to zero and the data center sovereign source would be “renewable”. This is valid for any use of microgrids and raises institutional design questions;
2. Data centers are plunged into (open) waters for cooling purposes. For those worried about heating the environment, this should not make any sense.

Energy Management: Save Money & Go Green

The Growing Need for Resilient Energy Systems
Energy systems are facing unprecedented challenges; consequently, businesses require more than just reliable power – they need resilient and adaptable infrastructure. Traditional approaches often prove inadequate, leaving organizations vulnerable to costly downtime and missed opportunities. This article explores how integrated control solutions…

Energy Management: Save Money & Go Green

Microgrid Market Trends: Resilient Energy for a Decentralized Future

How Does a Bidirectional Inverter Work

A bidirectional inverter is a key component in modern energy management systems, enabling efficient power flow between a power source and storage systems such as batteries. Unlike conventional inverters that only convert DC (direct current) to AC (alternating current), bidirectional inverters can also convert AC back to DC, allowing energy to be stored or fed back into the grid. This…

How Does a Bidirectional Inverter Work

The Impact of Renewable Energy on Microgrid Performance

Small-scale power grids, known as microgrids, can operate independently or in conjunction with larger grids, providing flexible and localized energy solutions. With the growing adoption of renewable energy sources like solar and wind, microgrids are evolving to become more sustainable and resilient. However, this transition also brings challenges, such as managing the variability of renewable energy and the need for advanced energy storage systems.

Enhanced Reliability and Sustainability

The increased dependability that comes with using renewable energy in microgrids is one of its main benefits. Microgrids that run on renewable energy sources can continue to operate even in the event of an interruption to traditional power networks. Additionally, microgrids are an environmentally favorable substitute for traditional energy sources because they employ renewable energy, which lowers their carbon footprint.

Cost Savings

Compared to fossil fuels, renewable energy sources have lower ongoing costs after they are deployed. Over time, microgrids that make use of solar or wind power can dramatically reduce their electricity costs. In remote locations where connection to a central grid is costly or impracticable, these savings are quite beneficial.

Challenges of Integration

Despite the advantages, incorporating renewable energy into microgrids is not without its difficulties. Batteries and other energy storage devices must be used since the sporadic nature of solar and wind energy might cause variations in the power supply. Additionally, some people may be discouraged from using these technologies due to the high initial cost of renewable energy infrastructure.

Conclusion

Microgrids that incorporate renewable energy present a viable route toward more dependable, economical, and sustainable power systems. Even if there are still difficulties, technological developments are making it more and more possible to overcome them, opening the door to a more robust and environmentally friendly energy future.

Rural Health Centers Across Tennessee Getting Solar Microgrids

Rural Health Centers Across Tennessee Getting Solar Microgrids….

Rural health centers in Tennessee may soon be better prepared for future power outages. 
The U.S. Department of Energy is providing grants to install solar microgrids across the Southeast.
Selected health centers will get solar panels and battery systems that can operate like a mini grid: If the power goes out, these health centers can still offer critical services like ventilation, dialysis and…

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EnTech News | Clean Energy, EV Charging, Microgrids, & More

08.25.2022
WisBusiness

EnTech Solutions, Aurora Health Care: EnTech Solutions Partners with Aurora Medical Center-Oshkosh for Solar Energy System

EnTech Solutions, a comprehensive distributed energy provider, and Aurora Medical Center-Oshkosh, a state-of-the-art medical facility providing personal, compassionate care, announced the commissionin…

Source link

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RE-BLOG : Solar-powered ‘microgrids’ coming to San Diego public buildings as first of 8 projects breaks ground

San Diego nous montre l'intérêt et la capacité de résilience des communautés d'énergie. Faisons le point en Wallonie.

Temps de lecture : 12 minutesmots-clés : Energie, électricité, villes intelligentes, microgrids, communautés d’énergie, région wallonne, ORES, RESA, résilience,

Chers lecteurs,

Aujourd’hui nous allons nous attarder sur un article publié par SmartcityDive et dont l’objet est le lancement de 8 microgrids dans la ville de San Diego (une ville de 3.3 millions d’habitants située au sud de Los…

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Distributed Energy Generation Market Business Trends,key Factors,Strategies and Huge Demand and opportunity by 2032

Market Overview: The Distributed Energy Generation (DEG) Market refers to the market for decentralized energy generation systems that produce electricity closer to the point of consumption. DEG systems include solar photovoltaic (PV) panels, wind turbines, small-scale gas turbines, fuel cells, and microgrids. These systems offer benefits such as increased energy efficiency, reduced transmission losses, enhanced grid resilience, and the potential for utilizing renewable energy sources.

The global distributed energy generation market size was valued at $246.4 billion in 2020, and is forecasted to reach $919.6 billion by 2030, growing at a CAGR of 14.2% from 2021 to 2030.

Here’s an overview of the trends, scope, and demand in the Distributed Energy Generation (DEG) Market:

Trends:

1. Renewable Energy Dominance: Distributed energy generation is increasingly driven by renewable sources such as solar photovoltaic (PV), wind, and hydroelectric power. The transition towards cleaner energy sources is a prominent trend in the DEG market, supported by favorable policies and decreasing renewable energy costs.
2. Decentralization of Power Generation: The shift towards decentralized power generation is a significant trend. DEG systems allow energy to be generated closer to the point of consumption, reducing transmission losses and enhancing grid resilience.
3. Microgrids and Energy Resilience: The rise of microgrids, which are smaller-scale energy systems that can operate independently or in conjunction with the main grid, offers increased energy resilience during grid outages or disruptions. Microgrids, often powered by DEG sources, are gaining traction in both urban and remote areas.
4. Smart Technologies and IoT Integration: The integration of smart technologies and the Internet of Things (IoT) is transforming the DEG landscape. Smart meters, sensors, and advanced controls enable efficient energy management, real-time monitoring, and optimal utilization of distributed resources.
5. Energy Storage Integration: The combination of distributed energy generation with energy storage solutions, such as batteries, enhances the reliability and flexibility of DEG systems. Storage systems allow excess energy to be stored for later use, improving energy management and grid stability.

Scope:

1. Residential Sector: Distributed energy generation offers homeowners the opportunity to generate their own energy, reduce electricity bills, and potentially earn revenue by feeding excess energy back into the grid.
2. Commercial and Industrial Sectors: Businesses and industries can deploy DEG systems to reduce operational costs, enhance energy resilience, and demonstrate their commitment to sustainability.
3. Remote Areas and Off-Grid Solutions: DEG systems provide a viable solution for providing electricity to remote and off-grid areas where grid connection is challenging or uneconomical.
4. Microgrid Development: The scope of microgrids powered by distributed energy sources is expanding, catering to critical facilities, military bases, campuses, and communities seeking energy independence and resilience.

Demand:

1. Energy Security and Reliability: The need for reliable and secure energy supply is a fundamental driver for DEG adoption. Businesses and communities are increasingly valuing energy independence to mitigate the risks of grid outages and supply disruptions.
2. Environmental Sustainability: Growing awareness of environmental concerns is fueling demand for cleaner energy options. Distributed energy generation, particularly from renewable sources, aligns with sustainability goals and reduces carbon footprints.
3. Economic Benefits: DEG systems can offer significant long-term cost savings by reducing energy bills, avoiding peak demand charges, and potentially generating revenue through excess energy sales.
4. Energy Access in Remote Areas: The demand for electricity access in remote and underserved areas drives the adoption of DEG solutions, which can provide a reliable and cost-effective alternative to extending traditional grid infrastructure.
5. Grid Resilience and Disaster Preparedness: Microgrids and DEG systems gain demand from entities seeking improved resilience during natural disasters or grid failures, ensuring continuous energy supply for critical operations.
6. Regulatory Support and Incentives: Government incentives, subsidies, and policies that promote renewable energy and energy independence are significant demand drivers for DEG technologies.

The Distributed Energy Generation market is rapidly evolving to meet the demand for cleaner, more reliable, and decentralized energy solutions. Technological advancements, favorable policies, and changing consumer preferences are shaping the market’s growth and expanding its scope across various sectors and regions.

 Challenges: The distributed energy generation market also faces certain challenges, including:

• Grid Integration and Regulatory Frameworks
• Initial Costs and Financing
• Grid Resilience and Stability

Overall, the distributed energy generation market offers substantial opportunities driven by energy security concerns, environmental sustainability goals, and the need for energy access. Overcoming challenges related to grid integration, financing, and grid stability will be critical to realizing the full potential of distributed energy generation and maximizing its benefits on a global scale.

 By visiting our website or contacting us directly, you can explore the availability of specific reports related to this market. These reports often require a purchase or subscription, but we provide comprehensive and in-depth information that can be valuable for businesses, investors, and individuals interested in this market.

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Market Segmentations:

Global Distributed Energy Generation Market: By Company

• Bloom Energy

• Capstone Turbine

• General Electric

• Huawei Technologies

• Schneider Electric

• Siemens

• Ballard

• Enercon

• Goldwind

• SMA Solar Technology

• Suzlon

• Yingli Solar

Global Distributed Energy Generation Market: By Type

• Solar PV

• CHP

• Fuel cells

• Wind Power

• Other

Global Distributed Energy Generation Market: By Application

• Rural Areas

• Urban Areas

Global Distributed Energy Generation Market: Regional Analysis

The regional analysis of the global Distributed Energy Generation market provides insights into the market’s performance across different regions of the world. The analysis is based on recent and future trends and includes market forecast for the prediction period. The countries covered in the regional analysis of the Distributed Energy Generation market report are as follows:

North America: The North America region includes the U.S., Canada, and Mexico. The U.S. is the largest market for Distributed Energy Generation in this region, followed by Canada and Mexico. The market growth in this region is primarily driven by the presence of key market players and the increasing demand for the product.

Europe: The Europe region includes Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe. Germany is the largest market for Distributed Energy Generation in this region, followed by the U.K. and France. The market growth in this region is driven by the increasing demand for the product in the automotive and aerospace sectors.

Asia-Pacific: The Asia-Pacific region includes Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, and Rest of Asia-Pacific. China is the largest market for Distributed Energy Generation in this region, followed by Japan and India. The market growth in this region is driven by the increasing adoption of the product in various end-use industries, such as automotive, aerospace, and construction.

Middle East and Africa: The Middle East and Africa region includes Saudi Arabia, U.A.E, South Africa, Egypt, Israel, and Rest of Middle East and Africa. The market growth in this region is driven by the increasing demand for the product in the aerospace and defense sectors.

South America: The South America region includes Argentina, Brazil, and Rest of South America. Brazil is the largest market for Distributed Energy Generation in this region, followed by Argentina. The market growth in this region is primarily driven by the increasing demand for the product in the automotive sector.

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•  Comprehensive Market Insights: Global research market reports provide a thorough and in-depth analysis of a specific market or industry. They offer valuable insights into market size, growth potential, trends, challenges, and opportunities, helping businesses make informed decisions and formulate effective strategies.
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Advanced Battery Energy Storage System Market Outlook on Key Growth Trends, Overview, Analysis, Factors and Forecast 2032

The market for improved battery technologies utilised for energy storage applications is known as the improved Battery Energy Storage System (BESS) industry. These systems offer grid stability, energy management, and backup power solutions by storing electrical energy in cutting-edge batteries and releasing it as needed. An overview of the market for advanced battery energy storage systems is provided below, together with information on its state, outlook, main drivers, demand, and projection for the future:

Key Growth Trends:

1. Renewable Energy Integration: The integration of advanced battery energy storage systems with renewable energy sources, such as solar and wind power, enables efficient energy management by storing excess energy during peak production periods for use when renewable generation is low.
2. Grid Modernization: Energy storage systems play a pivotal role in modernizing power grids, providing grid stability, balancing supply and demand, and enabling the integration of distributed energy resources.
3. Electric Vehicle Charging Infrastructure: Advanced battery energy storage systems can support electric vehicle (EV) charging stations by providing rapid charging capabilities, managing peak demand, and stabilizing the grid during high usage periods.
4. Microgrids and Remote Areas: Battery energy storage systems are crucial for establishing microgrids and providing reliable power in remote or off-grid locations, improving energy access and security.
5. Energy Arbitrage: Energy storage systems can capitalize on differences in electricity prices by storing energy during off-peak hours when prices are low and discharging it during peak hours when prices are high.

Key Growth Factors:

1. Technological Advancements: Ongoing research and development efforts are driving innovations in battery chemistries, energy densities, cycle life, and safety, enhancing the performance and cost-effectiveness of advanced battery energy storage systems.
2. Government Policies: Supportive policies, subsidies, and incentives for renewable energy and energy storage deployment encourage market growth and adoption.
3. Energy Transition: The global shift towards cleaner and more sustainable energy sources is increasing the demand for energy storage solutions to facilitate the integration of intermittent renewable resources.
4. Climate Change Mitigation: Advanced battery energy storage systems contribute to reducing greenhouse gas emissions by enabling the efficient utilization of renewable energy and reducing reliance on fossil fuels.
5. Grid Resilience and Reliability: The need for resilient and reliable power supply, especially in areas prone to natural disasters, is driving the adoption of energy storage systems to ensure uninterrupted electricity supply.

Forecast Considerations: Forecasts for the advanced battery energy storage system market typically consider factors such as market size, revenue projections, growth rates, and geographical trends. Forecasts are influenced by factors including:

1. Technology Evolution: Anticipated advancements in battery technologies and materials that improve energy density, cycle life, and cost.
2. Market Dynamics: Demand for energy storage solutions in various sectors, including residential, commercial, and industrial applications.
3. Regulatory Environment: Favorable policies and regulations supporting renewable energy and energy storage adoption.
4. Economic Factors: Economic conditions that influence investment in clean energy technologies and infrastructure.
5. Global Energy Transition: The pace and scale of the transition from fossil fuels to renewable energy sources and the subsequent impact on energy storage needs.

We recommend referring our Stringent datalytics firm, industry publications, and websites that specialize in providing market reports. These sources often offer comprehensive analysis, market trends, growth forecasts, competitive landscape, and other valuable insights into this market.

By visiting our website or contacting us directly, you can explore the availability of specific reports related to this market. These reports often require a purchase or subscription, but we provide comprehensive and in-depth information that can be valuable for businesses, investors, and individuals interested in this market.

“Remember to look for recent reports to ensure you have the most current and relevant information.”

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Market Segmentations:

Global Advanced Battery Energy Storage System Market: By Company
• ABB
• LG Chem
• GS Yuasa
• Samsung SDI
• General Electric
• AES Energy Storage
• Exide Technologies
• SAFT
• Beckett Energy Systems
• Toshiba
• Siemens
• BYD Company
• Panasonic
• Altairnano
• NEC Corporation
• Hitachi
• NGK Insulators
• AEG Power Solutions
• Enersys
• China BAK Batteries
• Nippon Chemi-Con Corporation
• Furukawa Battery
• Zest Energy

Global Advanced Battery Energy Storage System Market: By Type
• Lithium Ion Battery Energy Storage Systems
• Lead-acid Battery Energy Storage Systems
• Sodium Sulfur Battery Energy Storage Systems
• Lithium-sulfur Battery Energy Storage Systems
• Nickel Cadmium Battery Energy Storage Systems
• Zinc Chloride Flow Battery Energy Storage Systems
• Sodium-Nickel Chloride Battery Energy Storage Systems
• Others

Global Advanced Battery Energy Storage System Market: By Application
• Transportation (Electric Vehicles)
• Grid Storage
• Others

Global Advanced Battery Energy Storage System Market: Regional Analysis
The regional analysis of the global Advanced Battery Energy Storage System market provides insights into the market’s performance across different regions of the world. The analysis is based on recent and future trends and includes market forecast for the prediction period. The countries covered in the regional analysis of the Advanced Battery Energy Storage System market report are as follows:

North America: The North America region includes the U.S., Canada, and Mexico. The U.S. is the largest market for Advanced Battery Energy Storage System in this region, followed by Canada and Mexico. The market growth in this region is primarily driven by the presence of key market players and the increasing demand for the product.

Europe: The Europe region includes Germany, France, U.K., Russia, Italy, Spain, Turkey, Netherlands, Switzerland, Belgium, and Rest of Europe. Germany is the largest market for Advanced Battery Energy Storage System in this region, followed by the U.K. and France. The market growth in this region is driven by the increasing demand for the product in the automotive and aerospace sectors.

Asia-Pacific: The Asia-Pacific region includes Singapore, Malaysia, Australia, Thailand, Indonesia, Philippines, China, Japan, India, South Korea, and Rest of Asia-Pacific. China is the largest market for Advanced Battery Energy Storage System in this region, followed by Japan and India. The market growth in this region is driven by the increasing adoption of the product in various end-use industries, such as automotive, aerospace, and construction.

Middle East and Africa: The Middle East and Africa region includes Saudi Arabia, U.A.E, South Africa, Egypt, Israel, and Rest of Middle East and Africa. The market growth in this region is driven by the increasing demand for the product in the aerospace and defense sectors.

South America: The South America region includes Argentina, Brazil, and Rest of South America. Brazil is the largest market for Advanced Battery Energy Storage System in this region, followed by Argentina. The market growth in this region is primarily driven by the increasing demand for the product in the automotive sector.

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Reasons to Advanced Battery Energy Storage System Market Report:

1. Market Insights: A market report provides comprehensive insights into the Advanced Battery Market, including market size, trends, growth drivers, challenges, and opportunities. It offers valuable information about the market dynamics and competitive landscape.
2. Industry Analysis: The report offers a detailed analysis of the Advanced Battery industry, including key market players, their market share, product portfolios, strategies, and recent developments. This helps stakeholders understand the competitive landscape and make informed business decisions.
3. Technology Trends: The report highlights the latest technological advancements in advanced batteries, such as improvements in energy density, cycle life, charging speed, and safety features. It provides insights into emerging battery chemistries, materials, and manufacturing processes.
4. Market Forecast: The report includes future forecasts and projections, offering valuable insights into the market’s expected growth, trends, and demand for advanced batteries. This helps businesses plan their strategies, investments, and production capacities accordingly.
5. Demand Assessment: The report provides a thorough assessment of the demand for advanced batteries, considering factors such as the increasing adoption of electric vehicles, the integration of renewable energy sources, and the growth of consumer electronics. This helps businesses understand the market demand and plan their production and supply chain accordingly.
6. Regulatory Environment: A market report provides an analysis of the regulations and policies affecting the Advanced Battery Market, such as government incentives, safety standards, and recycling requirements. This helps stakeholders understand the regulatory landscape and compliance requirements.
7. Investment Opportunities: By analyzing market trends and growth drivers, the report identifies potential investment opportunities in the Advanced Battery sector. It helps investors make informed decisions, allocate resources effectively, and identify partnerships or acquisition opportunities.
8. Supplier and Customer Analysis: The report offers insights into the key suppliers and customers in the Advanced Battery Market. This helps businesses understand the supply chain dynamics, identify potential collaboration opportunities, and enhance their customer relationships.
9. Regional Analysis: The report provides a regional analysis of the Advanced Battery Market, considering factors such as market size, growth potential, government policies, and consumer preferences. This helps businesses identify regional opportunities, target specific markets, and tailor their marketing and distribution strategies.
10. Strategic Decision Making: Overall, purchasing an Advanced Battery Market report equips stakeholders with valuable information and insights to make informed decisions, identify growth opportunities, mitigate risks, and stay competitive in the evolving market.

About US:

Stringent Datalytics offers both custom and syndicated market research reports. Custom market research reports are tailored to a specific client’s needs and requirements. These reports provide unique insights into a particular industry or market segment and can help businesses make informed decisions about their strategies and operations.

Syndicated market research reports, on the other hand, are pre-existing reports that are available for purchase by multiple clients. These reports are often produced on a regular basis, such as annually or quarterly, and cover a broad range of industries and market segments. Syndicated reports provide clients with insights into industry trends, market sizes, and competitive landscapes. By offering both custom and syndicated reports, Stringent Datalytics can provide clients with a range of market research solutions that can be customized to their specific needs

Contact US:

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Email Id -  sales@stringentdatalytics.com

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Study: Microgrids Could Reduce California Power Shutoffs—to a Point - Inside Climate News

Excerpt from this story from Inside Climate News:

From the hills of Oakland to the shadows of the Sierra Nevada, fighting the ever-present threat of wildfire in parts of California can mean going without power. In the last several years, some homes and businesses have had their electricity cut again and again by large utility providers aiming to prevent equipment from sparking fires during windy, dry weather. 

Six of 20 of California’s largest wildfires in the last eight years were started by utility equipment. For about a decade, state regulators have therefore allowed utilities to proactively de-energize power lines to avoid triggering blazes. The policy prevents ignitions but comes with serious costs, like cutting off power to people who rely on electric medical devices and businesses that cannot operate without it. 

To help minimize the impacts of the shutoffs, the state is weighing an enticing potential solution: microgrids, which can isolate from the larger electric grid and produce their own power. 

A new study suggests that microgrids equipped with solar panels, a wind turbine, a gas engine and batteries could minimize the impact of power shutoffs for rural communities while keeping energy costs down and incorporating enough renewable energy to rival the amount currently flowing to California’s grid. 

By comparison with diesel generators, “we found that renewable-based microgrids are more promising for a large number of locations—and it could significantly minimize the impact of these kinds of power shutdowns,” said Dasun Perera, an associate research scholar at Princeton University’s Andlinger Center for Energy and the Environment and an author of the study, published in the journal Applied Energy. 

But there are caveats: The solution won’t work everywhere, and the systems become too expensive when relied upon to avoid all shutoffs. 

From seed to Series A in 7 months: Why and how Odyssey Energy Solutions moved quickly

Want a sneak peek at the electrical grid of the future? Don’t look to the U.S., Europe or China. Instead, head to Nigeria, where Odyssey Energy Solutions has been hard at work. There, a shaky and incomplete grid has driven many businesses and communities to invest in mini- and microgrids that are powered by renewable energy and capable of running independently.
Odyssey has been building a…

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Microgrids provide reliability, powered by renewable natural gas

Microgrids are essentially backup power for grids, communities, essential services, utilities, hospitals - anywhere where power needs to stay on no matter what. They generally use wind and solar to store power in batteries. However, if the outage is long or the wind and sun aren’t providing enough energy, then there could be issues.

Enchanted Rock in Texas is using renewable natural gas to provide extra energy to their microgrids.

From Microgrid Knowledge

“RNG reduces greenhouse gases because it is made by capturing the methane from waste and repurposing it. So it’s sourced from biological materials rather than fossil fuels. And because it draws methane out of the environment, RNG offers a climate advantage. Methane is multiple times worse than carbon dioxide in warming the planet, according to the US Environmental Protection Agency.

Another advantage of RNG is that it can be injected directly into pipelines to offset natural gas. Enchanted Rock made headlines earlier this year when it struck a deal with Microsoft to develop a data center microgrid in San Jose, California, to do just that.”

https://www.greenbuildermedia.com/blog/the-future-of-energy-microgrids

Microgrids Now

https://rmi.org/resilient-solutions/?utm_medium=email&utm_source=spark&utm_content=spark&utm_campaign=2022_09_22#watch 

Excerpt from this story from the New York Times:

For more than a century, governments have offered electric utilities a monopoly on selling power to homes and businesses so long as they agreed to serve everybody and subject themselves to regulation.

But as homeowners have begun installing solar panels and batteries, that simple arrangement has become more complicated. That has led to fierce battles between utility companies and relatively young solar businesses that sell and install rooftop systems for use by homes and businesses.

On Thursday, one of the nation’s largest rooftop solar companies, Sunnova Energy, asked the California Public Utilities Commission to let it directly compete with investor-owned utilities to provide electricity to homes in new residential developments as a private “micro-utility” — a business model that is illegal in much of the United States.

The company said it would offer those residents electricity that was up to 20 percent cheaper than the rates charged by investor-owned utilities like Pacific Gas & Electric and Southern California Edison. If approved by regulators, the micro-utility model, also known as a microgrid, could undermine the growth of those larger utilities by depriving them access to new homes or forcing them to lower their rates to keep that business.

Off-grid setups can also be appealing because once a system is paid off, the cost of operating and maintaining it is often modest and predictable, whereas utility rates can move up sharply. In recent months, electric bills have surged because the war in Ukraine has caused the cost of natural gas to jump. The nationwide average retail electricity rate increased 11 percent in June from a year earlier, according to the Energy Information Administration.