Dr. Jens Tschmelak’s Post

What is future-proof heat supply based on? The answer is: a reliable power grid. The key is: ✅ Identifying and eliminating weak points at an early stage ✅ Expanding capacity in a targeted way ✅ Managing costs and investments efficiently With grid transparency, sector coupling, and modern technologies – like stress tests, real-time monitoring, and automated grid management – we can make power grids more stable and smarter. This way, it becomes much easier to efficiently integrate heat pumps and other electric systems. #heattransition #smartgrid #GridscaleX #SiemensPTI 👍

Heat transition and power supply are interconnected. Siemens is an interesting partner in this regard. What is future-proof heat supply based on? The answer is: a reliable power grid. The key is: ✅ Identifying and eliminating weak points at an early stage ✅ Expanding capacity in a targeted way ✅ Managing costs and investments efficiently With grid transparency, sector coupling, and modern technologies – like stress tests, real-time monitoring, and automated grid management – we can make power grids more stable and smarter. This way, it becomes much easier to efficiently integrate heat pumps and other electric systems. #heattransition #smartgrid #GridscaleX #SiemensPTI

Ready to upgrade your inspection strategy for power industry❓ Traditional power grid inspections—reliant on costly, inefficient, and error-prone manual efforts—are no longer sufficient for modern transmission infrastructure. As utility companies face growing challenges in monitoring vast, distributed assets, the need for intelligent, automated solutions has never been more urgent. Our end-to-end thermal imaging solution is designed for every stage of the power lifecycle: ⚡ Generation 🔁 Transmission & Transformation 📤 Distribution 🏭 Consumption More solution details check out the illustration below 👇 #PowerGrid #ThermalImaging #Infrared #EnergyTech #SmartGrid #PredictiveMaintenance #GridReliability #UtilityInnovation #EnergyEfficiency #PerimeterSecurity #Raythink

🔌 Power Quality Matters More Than Ever! ⚡ In today’s fast-growing industrial and commercial sectors, efficiency, reliability, and sustainability are key. That’s where Active Harmonic Filters (AHF) and Static Var Generators (SVG) come in. ✅ Active Harmonic Filters (AHF): They mitigate harmonics, improve power factor, and ensure compliance with IEEE/IEC standards. By delivering cleaner power, they protect sensitive equipment, reduce losses, and increase system lifespan. ✅ Static Var Generators (SVG): A next-generation solution for reactive power compensation, SVGs provide dynamic power factor correction, voltage stabilization, and enhanced grid reliability. Unlike traditional capacitor banks, SVGs react instantly and adapt to fluctuating loads. 🚀 Together, these technologies are transforming energy management—helping industries reduce downtime, cut energy costs, and support a greener future. If you’re looking to improve your facility’s power quality, reliability, and efficiency, investing in AHF and SVG solutions is the smart move. #PowerQuality #EnergyEfficiency #Harmonics #Sustainability #Innovation

Transmission Voltage vs Distance Table 📊 Choosing the Right Voltage for the Right Distance This table shows how voltage levels increase with transmission distance — a critical factor in reducing power loss over long ranges. 🔌 Example: 765kV lines are used for more than 400 km transmission! Understanding this is crucial in grid planning and energy efficiency. hashtag #TransmissionVoltage hashtag #ElectricalGrid hashtag #PowerEfficiency hashtag #EnergyManagement hashtag #ElectricalEngineering hashtag #QCElectrical

🔋 Understanding C-Rate in BESS: Beyond the Basics ⚡ C-Rate is more than just the speed of charging or discharging—it directly defines the power capability, thermal stress, efficiency, and lifecycle of a battery system. Low C-Rate (≤0.5C): Higher efficiency, less heat, extended lifespan but slower response. Nominal C-Rate (1C): Balanced operation; full charge/discharge in 1 hour. High C-Rate (≥2C): Fast energy delivery, ideal for peak shaving and grid support, but increased degradation and thermal management challenges. In real-world BESS applications, choosing the right C-Rate is about trade-offs: 🔹 Fast response for grid stability vs. 🔹 Longevity for cost optimization. C-Rate = the heartbeat of your BESS performance. #RenewableEnergy #CleanEnergy #EnergyTransition #SmartGrid #BatteryEnergyStorage #CRate #BESS #BatteryTechnology #EnergyStorageSystems #ElectricalEngineering #EnergyInnovation #SustainablePower

Revealing the Hidden Value of BC Modules | Episode 1: The Temperature Coefficient 👍 Have you ever wondered how the performance of PV modules changes with temperature? That's where the temperature coefficient comes in! In real-world operating environments, a better temperature coefficient means less power loss and higher electricity generation when temperatures rise. So, what advantages do BC modules have over TOPCon modules in terms of temperature coefficient? What's the underlying technical mechanism? And what value does this bring to customers? Find all the answers in our latest video!👇 #BCModule #TemperatureCoefficient #BCTech #SolarEnergy

Revealing the Hidden Value of BC Modules | Episode 1: The Temperature Coefficient 👍 Have you ever wondered how the performance of PV modules changes with temperature? That's where the temperature coefficient comes in! In real-world operating environments, a better temperature coefficient means less power loss and higher electricity generation when temperatures rise. So, what advantages do BC modules have over TOPCon modules in terms of temperature coefficient? What's the underlying technical mechanism? And what value does this bring to customers? Find all the answers in our latest video!👇 #BCModule #TemperatureCoefficient #BCTech #SolarEnergy

Inrush current—brief, intense, and often underestimated—can disrupt protection systems, skew metering, and stress equipment across power networks. For engineers and decision-makers in metering, testing, and distribution, mastering this phenomenon is essential for system reliability and measurement accuracy. In our latest article, we break down the physics, field consequences, mitigation strategies, and testing requirements to help you stay ahead of the surge. Read the full article to see how you can keep your power systems stable and your meters accurate—even when the current comes rushing in. #PowerSystems  #InrushCurrent #Metering #SmartGrid #TechWithTina https://lnkd.in/eXVtcmXB