#GridReliability
Explore tagged Tumblr posts
Visit Tumblr Blog
Explore Tumblr blogs with no restrictions, modern design and the best experience.
Last Seen Tumblr Blogs
Fun Fact
Total funding amounts to $125.3M.
Text
Unlocking the Power of ABB TCC300: Digital Tapchanger Control for Next-Gen Substations
In the ever-evolving landscape of power systems and smart grid technology, the demand for intelligent, reliable, and future-ready solutions is at an all-time high. Substations, acting as the nerve centers of electrical grids, require advanced tools to ensure seamless operation, adaptability, and security. Enter the ABB TCC300 Digital Tapchanger Control Numerical Relay—a modern marvel engineered to revolutionize the way substations manage on-load tap changers (OLTCs) in power transformers.
This comprehensive blog explores the capabilities, features, benefits, and real-world applications of the ABB TCC300, shedding light on how it empowers next-generation substations to meet evolving grid requirements.
Understanding the Role of Tapchanger Controls in Substations
Tapchangers are essential components in power transformers, responsible for regulating voltage levels in response to fluctuating load demands. By adjusting transformer tap positions, they maintain stable voltage at the consumer end, improving efficiency and reducing equipment stress.
Traditionally, OLTCs were controlled using mechanical or analog systems—adequate in their time but lacking the intelligence, communication, and adaptability needed in today’s digitally interconnected grids. With the integration of renewable energy sources, electric vehicles, and distributed generation, voltage stability has become more critical and complex than ever before.
That’s where ABB’s TCC300 steps in. It replaces aging analog controllers with a smart, digital, microprocessor-based solution that integrates seamlessly into modern substation automation systems, ensuring accuracy, visibility, and long-term sustainability.
What is the ABB TCC300?
The ABB TCC300 is a compact, powerful digital tapchanger control numerical relay designed for monitoring, metering, and controlling OLTC operations. It is optimized for both new installations and retrofit applications, allowing utility operators to future-proof their infrastructure without massive investments or extensive rewiring.
Whether you're replacing legacy tapchanger relays or deploying next-gen smart substations from scratch, the TCC300 delivers a blend of flexibility, precision, and intelligence to manage voltage regulation efficiently and securely.
Key Features and Benefits of ABB TCC300
Let’s explore the features that make the TCC300 a standout tapchanger controller in the industry:
1. Advanced Monitoring and Metering Capabilities: The TCC300 provides robust monitoring of essential transformer parameters. It supports:
Single and three-phase demand metering
Accurate time/date-stamped data logging
Real-time tracking of voltage, current, and power metrics
This high-resolution metering allows utility teams to gain granular insights into transformer performance, facilitating predictive maintenance, compliance reporting, and operational efficiency.
2. Harmonic Analysis and Smart Load Management: Power quality is a growing concern in today’s grid. The TCC300 supports 64 samples per cycle, enabling accurate harmonic monitoring up to the 31st harmonic of current and voltage. This level of detail helps utilities:
Detect and mitigate harmonic distortions
Protect sensitive equipment
Maintain power quality standards
It also features:
Line Drop Compensation (LDC) using R & X or Z methods
Smart Reverse Power Detection to prevent unwanted backfeeding, especially important in DER-rich grids
This enables operators to maintain voltage profiles and prevent undesirable conditions such as reverse power flows that could destabilize the system.
3. Powerful Communication Capabilities: In the age of Industry 4.0, connectivity is everything. The TCC300 offers:
Support for open communication protocols like IEC 61850, DNP 3.0, and Modbus
Optional RJ45 Ethernet, fiber optic Ethernet, and Bluetooth interfaces
Wireless configuration and remote diagnostics
This makes it easier than ever to integrate the TCC300 into SCADA, EMS, or other digital platforms, ensuring real-time data exchange, fast control response, and simplified remote management.
4. Cybersecurity Readiness: With growing threats to critical infrastructure, ABB has embedded multiple layers of cybersecurity in the TCC300:
Role-based access control
Encrypted communication
Secure firmware and configuration updates via SD card, eliminating laptop dependency
This reduces the attack surface and safeguards the system from unauthorized tampering or accidental configuration errors.
5. Easy Installation and Retrofitting: The TCC300 is engineered with a retrofit-friendly design, minimizing the challenges traditionally associated with equipment upgrades. ABB provides:
Adapter panels compatible with legacy systems
Built-in CT shorting protection
Flexible mounting configurations
This plug-and-play approach shortens project timelines, reduces installation costs, and avoids extended substation outages during transition.
6. Transformer Paralleling and Coordination: In many substations, multiple transformers operate in parallel. The TCC300 simplifies their coordination with support for:
Circulating current method
Master/Follower peer-to-peer circuitry
Reactive power (VAR) sharing
Up to 16 transformers in parallel
Such capabilities ensure load balance, voltage stability, and efficient transformer usage across complex electrical networks.
7. Wide Environmental Tolerance: With an operating range from -40°C to +80°C, the TCC300 is built to endure the most extreme environmental conditions—be it scorching heat, freezing cold, or high humidity. This durability ensures reliable operation in outdoor or remote substations where maintenance access is limited.
Integration with ABB TCC600 Software
Ease of configuration and diagnostics is critical for efficient relay management. The TCC300 integrates seamlessly with ABB’s TCC600 software, providing:
A menu-driven user interface for intuitive navigation
Remote or local access via modem or serial connection
Configuration, event log access, and performance diagnostics
This powerful tool reduces technician training time and ensures rapid fault resolution, enhancing operational continuity.
Applications and Use Cases
The versatility of the ABB TCC300 allows it to be deployed across a wide range of power environments:
Utility Companies Modernizing Legacy Infrastructure: Replacing outdated analog tapchanger relays in existing substations without full-scale upgrades.
Smart Grids and DER-Integrated Networks: Where real-time communication, fast response, and intelligent controls are essential for managing solar, wind, and other distributed energy sources.
Industrial Plants and Large Facilities: To maintain precise voltage regulation for sensitive manufacturing equipment and machinery.
Renewable Energy Installations: For managing voltage fluctuations and coordinating with fluctuating generation profiles.
Remote or Harsh Climate Substations: Where environmental resilience and remote monitoring are crucial to reduce operational risks and maintenance visits.
Why Choose ABB?
ABB is a trusted global leader in power technology with a legacy of delivering innovative, durable, and intelligent electrical solutions. With the TCC300, ABB brings a product that blends decades of industry expertise with modern digital advancements.
Unique Selling Points:
Compact footprint with maximum functionality
Global protocol compliance for easy integration
Intuitive software support with TCC600
Secure and firmware-friendly operation
Efficient retrofitting and minimal rewiring
Robust analytics and paralleling tools
Utilities, EPCs, and industrial clients gain long-term value through reduced operational risk, improved grid reliability, and optimized transformer performance.
Conclusion
The ABB TCC300 Digital Tapchanger Control Numerical Relay is more than just an upgrade—it's a strategic investment for a smarter, more connected, and more secure power grid. In an era of growing complexity, the TCC300 offers a reliable foundation for substation automation, advanced monitoring, and dynamic control.
By adopting this state-of-the-art controller, power operators can:
Modernize outdated systems
Improve grid reliability and efficiency
Ensure seamless communication and cybersecurity
Scale up for future energy trends and regulations
Whether you're transitioning into smart grid operations or seeking to enhance transformer performance, the ABB TCC300 is your gateway to next-generation voltage regulation.Click here to explore the product category and connect with Digital & Smart Grid Enterprises today. Discover how the ABB TCC300 can unlock operational excellence, reduce downtime, and deliver unmatched control over your voltage regulation needs.
#SmartGridSolutions#PowerSystemAutomation#SubstationInnovation#VoltageRegulation#ABBRelay#DigitalTapchanger#GridReliability#FutureReadyGrid#SubstationControl#IndustrialAutomation#EnergyEfficiency#PowerTransformer#GridModernization#RelayProtection#ElectricalEngineering
0 notes
Text
Compact Sub-Station: Efficient Power Solutions for a Smarter Future
In today's fast-paced world, reliable and efficient power distribution is critical for industries, urban infrastructure, and commercial spaces. A Compact Sub-Station (CSS) serves as a game-changing solution, offering space-saving, high-performance energy distribution tailored to modern needs.
What is a Compact Sub-Station?
Compact Sub-Station is a complete electrical distribution system containing the vital parts such as transformers, circuit breakers, and switchgear combined into one encased system. The compact and weather-resistant structure, with excellent efficiency, is ideal for limited-space areas that can provide trouble-free power supply with less maintenance.
Why Use Compact Sub-Stations?
1. Space Optimization
Conventional power plants need plenty of space and infrastructure. CSS, on the other hand, is a compact, self-sustained system, which makes it ideal for cities, industrial sites, and off-grid areas.
2. Enhanced Safety & Reliability
Housed in a sturdy metal or polymer case, CSS systems provide greater safety from electrical failures, environmental exposure, and outside interferences. This results in safer and more reliable power distribution.
3. Cost-Effective Installation & Maintenance
In contrast to traditional substations that involve significant civil work, a Compact Sub-Station is factory-assembled, saving installation time and related expenses. Its modular construction also allows for simple maintenance and upgrades.
4. Energy Efficiency & Sustainability
CSS solutions today include energy-efficient transformers, minimizing power loss and encouraging sustainable energy consumption. Most are also compatible with renewable energy sources, paving the way for a cleaner future.
Applications of Compact Sub-Stations
Compact Sub-Stations find applications in many industries, including:
• Industrial Plants – Offering problem-free power delivery in factories.
• Commercial Complexes – Serving smooth power distribution to shopping complexes, offices, and skyscrapers.
• Renewable Energy Projects – Facilitating solar and wind farms with credible energy distribution.
• Construction Sites – Offering transient but effective power solutions.
Future of Compact Sub-Stations
As urbanization and industrialization are expanding, the requirement for smaller, efficient, and intelligent power solutions will continue to increase. Incorporation of IoT and AI-driven monitoring systems will further optimize the efficiency and predictive maintenance of CSS, allowing real-time monitoring while ensuring power supply without interruptions.
For organizations looking for economical, space-saving, and dependable power distribution, investing in a Compact Sub-Station is the best option. Not only does it guarantee efficient operation, but it also supports a green and energy-efficient tomorrow.
If you are searching for tailored Compact Sub-Station solutions, our organization provides high-quality, long-lasting, and advanced power solutions specifically designed to cater to your needs. Get in touch with Pavika Power Equipment today to find out how we can power your future!.Call or visit www.pavikapowerequipment.in today.
#CompactSubStation#EfficientPowerSolutions#PowerEfficiency#SustainableEnergy#SmartGrid#RenewableEnergy#EnergyStorage#CleanEnergy#PowerDistribution#GridReliability#EnergyInnovation#ElectricInfrastructure#RenewablePower#EnergyManagement#PowerSolutions#EcoFriendly#UtilitySolutions#Microgrid#EnergyFuture
0 notes
Text
Distribution Transformer Market to USD 25.31 Billion by 2032 owing to Increasing Demand for Efficient Energy Solutions
"In the era of renewable energy and modernization, the demand for efficient energy distribution solutions is driving the growth of the Distribution Transformer Market. The need for reliable, cost-effective power solutions has become critical as industries and households seek to optimize their energy usage."
The Distribution Transformer Market size was valued at USD 25.31 billion in 2023 and is expected to grow to USD 42.89 billion by 2032, growing at a CAGR of 6.2% over the forecast period of 2024-2032.
The Vital Role of Distribution Transformers in Efficient Electrical Systems
Distribution transformers are critical components in electrical systems, converting high-voltage electricity into low-voltage electricity used by both industries and households. They serve as essential links in power generation, transmission, and distribution networks. While low-voltage electric power generation is cost-effective, it can result in high line currents, leading to significant line losses. Distribution transformers address this challenge by stepping down voltage to suitable levels (such as 11kV, 6.6 kV, 3.3 kV, 440V, and 230V) for end users, typically rated lower than 200MVA. Also known as isolation transformers, their construction resembles that of standard transformers. Key components include oil indicators, oil tanks, conservators, Buchholz relays, breather units, temperature detectors, thermal relays, pressure relief devices, radiators, and bushings.
Segmentation
By Voltage: The low voltage segment dominates the distribution transformer market, accounting for a substantial share of the overall revenue. This is primarily due to the widespread adoption of low voltage transformers in residential, commercial, and industrial applications, where safety and efficiency are paramount. As urbanization continues to rise, the demand for low voltage solutions is expected to remain strong, reinforcing their dominance in the market.
By Insulation: The oil-immersed distribution transformers segment is currently dominating due to their capability to handle higher capacities and offer better cooling compared to dry transformers. This type of insulation is preferred in various applications, particularly in utility and industrial settings, due to its efficiency and reliability.
Key Regional Development
Asia Pacific is estimated to exhibit lucrative growth, capturing the largest market share in terms of revenue in the coming years. The region's growth can be attributed to significant investments in smart electrical grid infrastructure and the increasing demand for electricity from households and industries. Rapid urbanization, coupled with the establishment of numerous industrial and manufacturing units, amplifies the demand for distribution transformers.
North America is also projected to experience substantial growth driven by the modernization and automation of electrical infrastructure. The ongoing efforts to replace outdated electrical equipment with new and efficient distribution transformers are propelling market growth in this region.
Future Growth of the Market
Factors Contributing to Market Growth
Description
Integration of Renewable Energy
Increasing use of wind and solar energy sources creates a need for efficient energy distribution systems, requiring distribution transformers to step down high voltage levels for consumer use.
Urbanization and Smart Cities
Global trends toward urbanization drive demand for reliable power distribution networks. Investments in infrastructure upgrades help enhance efficiency and reliability, often replacing outdated transformers with modern, efficient models.
Advent of Smart Grid Technology
The emergence of smart grid technology is transforming the market. Smart transformers equipped with digital capabilities improve monitoring and control, allowing utilities to manage networks effectively and reduce operational costs.
Focus on Energy Efficiency
As energy efficiency becomes a global priority, transformers that meet strict energy standards will gain traction. Demand for eco-friendly transformers, including biodegradable oil-filled models, is expected to rise.
Government and Utility Investments
Investments by governments and utility companies in energy infrastructure enhancements aim to improve overall efficiency and reliability, supporting the transition to modern power distribution solutions.
Recent Developments
In February 2024: Siemens Energy inaugurated its first Siemens Energy Transformer production facility in the US, delivering vital infrastructure to enable the country’s energy transition.
In April 2023: Eaton announced it has completed the acquisition of a 49% stake in Jiangsu Ryan Electrical Co. Ltd. (Ryan), a manufacturer of power distribution and sub-transmission transformers in China.
Read More Details @ https://www.snsinsider.com/reports/distribution-transformer-market-2714
Contact Us:
Akash Anand – Head of Business Development & Strategy
Phone: +1-415-230-0044 (US) | +91-7798602273 (IND)
SNS Insider Offering/ Consulting Services:
Go To Market Assessment Service
Total Addressable Market (TAM) Assessment
Competitive Benchmarking and Market Share Gain
#distributiontransformer#electricalengineering#powerelectronics#energydistribution#transformermaintenance#renewableenergy#smartgrid#electricity#powerinfrastructure#gridreliability
0 notes
Text
How Siemens 7SJ80 Siprotec Relay is Vital For Your Numerical Overcurrent Protection System?
#siemens#Siemens7SJ80#SiprotecRelay#NumericalOvercurrent#OvercurrentProtection#RelayProtection#SiemensProtection#PowerSystemSafety#ElectricalReliability#PowerSystemProtection#RelayTesting#AdvancedRelays#SiemensTechnology#SmartGrid#ElectricalEngineering#GridReliability#ProtectiveRelays#PowerSystemSecurity#EnergyEfficiency#GridProtection#RelayCommissioning
0 notes
Text
#Schneider#SEPAM80#Relay#PowerGrid#ElectricalEngineering#GridReliability#PowerManagement#IndustrialAutomation#EnergyEfficiency#SmartGrid#PowerQuality#EnergyManagement
0 notes
Text
Microgrid Market Insights: Harnessing Data Analytics for Improved Energy Management
The global microgrid market size is expected to reach USD 224.34 billion by 2030, registering a CAGR of 17.1% from 2024 to 2030, according to a new report by Grand View Research, Inc. The improvement in manufacturing sectors of emerging markets including Mexico, China, and India as a result of favorable government policies to attract investments is expected to promote market growth.
Microgrid Market Report Highlights
The Combined Heat & Power (CHP) power source segment dominated the global market and accounted for more than 37.0% of the overall revenue share in 2023. Shifting preference from conventional Separ ate Heat & Power (SHP) system to energy generation from single fuel is expected to have a substantial impact on the segment growth.
The grid-connected product segment dominated the global market and accounted for more than 65.0% of the overall revenue share in 2023. The rising popularity of smart micro-grid-connected PV systems to provide electricity to consumers by reducing transmission losses is expected to have a substantial impact.
North America led the global market and accounted for more than 35.0% of the overall revenue share in 2023. The high adoption rate of captive power generation methods in the industrial and municipal sectors of the U.S. for reducing reliance on the government-controlled power supply is expected to have a substantial impact.
For More Details or Sample Copy please visit link @: Microgrid Market Report
Microgrid differs from conventional electrical distribution systems as it acts as a close proximity medium between the power generation and power consumption sources which results in increasing efficiency and reducing transmission losses. These systems perform dynamic control over energy sources by enabling autonomous as well as automatic self-healing operations.
The rising importance of captive electricity generation as a key alternative to the regulated power supply by municipal regulators in mining and mechanical engineering sectors is expected to have a strong impact. Furthermore, the rising production output of unconventional sources including shale gas in the U.S. and Canada as a result of high utilization of fracking technology is expected to ensure access of natural gas as a power source over the next eight years.
#MicrogridMarketAnalysis#DistributedEnergyResources#SustainableEnergySolutions#DecentralizedEnergy#GridModernization#EnergySecurity#SmartGridTechnologies#ClimateChangeAdaptation#EnergyInfrastructure#DigitalizationInEnergy#EnergyManagement#GridReliability
0 notes
Text
⚡ Transformer Monitoring Systems = Smart Power — Market to double from $2.1B to $4.5B by 2034, growing at 7.9%.
Transformer Monitoring System is a vital part of modern power infrastructure, providing real-time insights into the health and performance of transformers. By continuously tracking key parameters such as temperature, oil levels, gas content, load, and insulation condition, these systems help prevent unexpected failures and extend the life of critical assets. With the integration of IoT, sensors, and AI-powered analytics, transformer monitoring systems offer predictive maintenance capabilities, enabling utilities to make informed decisions and reduce operational downtime.
To Request Sample Report : https://www.globalinsightservices.com/request-sample/?id=GIS22753 &utm_source=SnehaPatil&utm_medium=Article
These systems improve grid reliability, optimize asset performance, and enhance safety by identifying issues before they become major problems. In an era of growing energy demand, renewable integration, and smart grid development, transformer monitoring is essential for maintaining efficient and stable power delivery. From substations to industrial facilities, adopting smart transformer monitoring systems ensures cost-effective management, regulatory compliance, and improved service continuity. As digital transformation reshapes the energy sector, these systems are becoming indispensable tools for utilities looking to modernize their operations and future-proof their infrastructure.
#transformermonitoring #smartgrid #powergridtechnology #utilityinnovation #assetmanagement #conditionmonitoring #iotenergy #predictivemaintenance #energyefficiency #gridreliability #powersystems #transformerhealth #energymanagement #digitalgrid #electricutilities #gridautomation #transformertechnology #aiinutilities #smartinfrastructure #reliabilityengineering #energydigitalization #realtimemonitoring #industrialautomation #transmissionnetwork #substationautomation #remoteassetmonitoring #infrastructurehealth #electricalmaintenance #powerdistribution #gridmodernization #energystorage #renewableintegration #monitoringsolutions #electricalengineering #energysustainability #datadrivenutilities
Research Scope:
· Estimates and forecast the overall market size for the total market, across type, application, and region
· Detailed information and key takeaways on qualitative and quantitative trends, dynamics, business framework, competitive landscape, and company profiling
· Identify factors influencing market growth and challenges, opportunities, drivers, and restraints
· Identify factors that could limit company participation in identified international markets to help properly calibrate market share expectations and growth rates
· Trace and evaluate key development strategies like acquisitions, product launches, mergers, collaborations, business expansions, agreements, partnerships, and R&D activities
About Us:
Global Insight Services (GIS) is a leading multi-industry market research firm headquartered in Delaware, US. We are committed to providing our clients with highest quality data, analysis, and tools to meet all their market research needs. With GIS, you can be assured of the quality of the deliverables, robust & transparent research methodology, and superior service.
Contact Us:
Global Insight Services LLC 16192, Coastal Highway, Lewes DE 19958 E-mail: [email protected] Phone: +1–833–761–1700 Website: https://www.globalinsightservices.com/
0 notes
Text
"Switchgear Revolution: Trends and Forecast in Air Insulated Systems"
Air insulated switchgear (AIS) is a game-changer in the world of electrical distribution, offering a reliable, cost-effective solution for managing medium and high-voltage networks. Known for its simplicity and robustness, AIS is widely used in substations and industrial applications to control, protect, and isolate electrical equipment. Its air-based insulation system makes it an eco-friendly alternative to gas-insulated options, contributing to reduced environmental impact. With advancements in design and technology, modern air insulated switchgear enhances operational safety, improves efficiency, and lowers maintenance costs, all while ensuring the seamless flow of energy across grids. As the demand for sustainable and resilient power infrastructure grows, AIS is leading the charge in future-ready electrical systems.
#AirInsulatedSwitchgear #EnergyEfficiency #ElectricalDistribution #PowerGridInnovation #SustainablePower #ElectricalSafety #EcoFriendlySwitchgear #AIS #PowerInfrastructure #EnergySolutions #GreenTech #GridReliability #FutureOfEnergy #IndustrialInnovation #ElectricalEngineering
0 notes
Text
"Smart Distribution: Market Analysis and Trends in Automation (2024-2033)"
Distribution Automation is at the forefront of modernizing the power grid, enhancing the efficiency, reliability, and resilience of electricity distribution. By leveraging smart sensors, real-time data analytics, and automated control systems, utilities can quickly detect and respond to faults, optimize energy flow, and integrate renewable energy sources seamlessly. This cutting-edge technology is not only improving operational efficiency but also paving the way for a more sustainable and resilient energy future.
#DistributionAutomation #SmartGrid #EnergyInnovation #PowerGrid #SmartEnergy #RenewableIntegration #GridModernization #UtilityTech #EnergyEfficiency #ResilientGrid #SmartSensors #RealTimeData #AutomatedControl #EnergyManagement #SustainableEnergy #ElectricityDistribution #TechInEnergy #GridReliability #FutureOfEnergy #GreenTech
0 notes
Text
#GEProtection#MiCOMD30#DistanceProtection#PowerSystemProtection#SubstationAutomation#GridReliability#HVProtection#EHVProtection#IEC61850#WideAreaProtection#Teleprotection#SmartGrid#PowerGridSolutions#ElectricalEngineering#RelayProtection
0 notes
Text
"🔌 Wide Area Protection in Power Systems: Enhancing Grid Reliability and Stability ⚡️
Wide area protection harnesses advanced monitoring, communication, and control technologies to fortify electrical grids over large geographical areas. Here are some key aspects:
1️⃣ Time-Synchronized Measurement: Phasor measurement units (PMUs) provide real-time data on voltage, current, and frequency, enabling precise system monitoring.
2️⃣ Wide Area Monitoring Systems (#WAMS): Comprehensive analysis of PMU data allows operators to assess system behavior and identify anomalies across the entire grid.
3️⃣ Wide Area Control Systems: These systems utilize PMU data to make automatic adjustments that maintain stability during contingencies or disturbances.
4️⃣ Oscillation Detection and Damping: #WideAreaProtection helps detect and mitigate low-frequency oscillations that can impact power system stability.
5️⃣ Fault Location and Isolation: Synchronized phasor measurements expedite fault identification, isolation, and restoration processes.
6️⃣ Communication Infrastructure: Robust and secure communication networks transmit real-time PMU data from various locations to control centers for analysis.
By implementing wide area protection, power system operators can enhance reliability, minimize disruptions, and ensure a reliable power supply.
Tagged: #WideAreaProtection #PowerSystems #GridReliability #StabilityEnhancement #ElectricalGrids #PhasorMeasurementUnits #WAMS #OscillationDetection #FaultLocation #GridSecurity
0 notes
Photo
If you are looking for a solution that can improve the performance of the grid, then our patented and trademark registered ACCC® Conductors could the best choice for you. Visit to get an overview of ACCC® Conductor and its specifications >> https://bit.ly/2P1nvJt
0 notes
Text
#siemens#mastertrip#relay#powersystem#protection#electricalengineering#safetygrid#powerdistribution#gridreliability#electricalsafety#energymanagement#industrialautomation#powergrid#controlgrid#smartgrids
0 notes
Text
#GE#alstom#auxiliaryrelay#relay#gridreliability#energymanagement#gridautomation#powersystems#energysecurity#engineeringsolutions#powergrids#electricalengineering#smartgrid#energyefficiency
0 notes
Text
Big Energy Storage Plans Come In Small Packages
All it needs is decorative wrapping...
#energystorage #energy #energytwitter #EnergyTransition #NorthCarolina #offshorewind #batteries #Sustainability #SDGs #SDG7 #decarbonization #ClimateActionNow #climateTech #energystorage #renewableenergy #electricity #gridreliability #gridresilience #gridmodernization
https://cleantechnica.com/2022/01/08/mystery-us-energy-storage-company-breaks-through-veil-of-silence/
0 notes
Text
Many Power Outages Caused By Squirrels
The not-so-fun and fun facts about North Carolina squirrels
A power company in North Carolina has installed wildlife protection products to reduce the accessibility that critters, such as squirrels, have to power substations. This will hopefully reduce the amount of power outages that are caused by squirrels in the state. According to the American Public Power Association, around 3,500 outages were caused by squirrels in the year 2016 alone. There are plenty of ways that power companies can utilize to help deter the animals from entering substations in the first place.
One such squirrel that can cause outages is the flying squirrel, native to North Carolina. The southern flying squirrel can be found from Maine all the way down the coast to Florida. Because the animals are nocturnal, few people ever encounter them. They possess a membrane between their front and back legs that can fold out when they jump from a tree and this allows them to glide through the air.
For information on proper squirrel removal, check out Triangle Wildlife Removal & Pest Control, Inc.
Squirrels and Substations: Keep the Power On
Squirrels caused 3,456 outages in 2016 alone, causing power loss for almost 200,000 customers, according to the American Public Power Association. Many of those outages occurred in Gastonia, North Carolina, a suburb of Charlotte.
For example, two large oak trees on a golf course attracted countless curious squirrels into a substation managed by the City of Gastonia Public Utilities. Because this particular substation served as a “squirrel hotel,” the North Carolina utility found it nearly impossible to keep the substation online. via T&DWorld
Summary: A power company in North Carolina has installed products to help with wildlife protection in its substations. This will hopefully help combat the amount of power outages caused by squirrels.
The City of Gastonia in North Carolina installed wildlife protection products from TE Connectivity in its substations to keep the power on and reduce squirrel electrical contact. #GridReliability #Substation #RaychemFromTE https://t.co/VSL9X19SkZ
— B McG (@RedandGreen00) January 14, 2020
Flying Squirrels
Northern flying squirrels and southern flying squirrels are the only two native flying squirrel species found in North America. They are both gray-brown, but the northern flying squirrel has belly fur that is gray at the base, and for the southern flying squirrel the belly fur is all white.
The southern flying squirrel is found throughout the eastern United States, from Maine south to Florida and west from Minnesota south to Texas. Learn more
Summary: Flying squirrels are native to North Carolina and many other parts of the United States. They have a membrane between their front and back legs that allows them to glide from tree to tree.
youtube
Post Source Here: Many Power Outages Caused By Squirrels
from Triangle Wildlife Removal (919) 661-0722 Raleigh, NC - Feed https://trianglewildliferemoval.com/blog/many-power-outages-caused-by-squirrels/
0 notes