When we began Awesense, the biggest problem that we had was obtaining data. As an industry we’ve had SCADA systems for many decades, and AMI was just starting to be deployed. Now, AMI is has nearly 60% penetration in the United States, but we’ve seen that this does not solve visibility issues across the distribution grid. AMI and SCADA combined still leave a lot of complicated assets between the substation and the residential, commercial, or industrial meter to monitor and understand. Within this area, visibility is virtually non-existent.Continue reading “Sensors for the distribution grid: Could we get to a $99 grid sensor and what impact would that have?”
Industrial and Commercial Energy Use
Energy usage in industrial and commercial sectors is becoming increasingly scrutinized. The US EIA stated in the International Energy Outlook Report that the industrial sector consumes about 54% of the world’s total delivered energy. And there are no plans to slow down. Energy consumption in the sector is expected to increase from 222 quadrillion BTUs in 2012 to 309 quadrillion BTUs in 2040.Continue reading “Industrial and Commercial Energy Use Optimization”
Tied to resiliency
Solar, smart-inverters, EVs, micro-grids. Bigger, more extreme storms and forest fires. Some of these solutions – some problems in the modern grid. Utilities are now faced with the need to build resilience against an uncertain future.
Utilities are making lengths to improve infrastructure and operational technologies to deal with these problems. But one thing is often overlooked when looking at resilience – situational awareness.Continue reading “Situational Awareness – Value for Utilities”
The recognized need to build a reliable grid stems from the NERC Reliability Standards. These outline the need to maintain grid reliability (meet demand) and grid security (ensure the capacity to resist unforeseen adversity). In recent years, the concepts of reliability and resiliency are becoming increasingly intertwined.
The convergence of Operational Technology (OT) and IoT is well underway. The challenge of connecting the ancient grid to modern systems is well known and documented. Grid planners and operators are understanding the need to build a bridge between operations in the physical world and the millions of devices now linked to the network. Integrating these two essential utility facets is key to smoothly transitioning to a smart-grid future.Continue reading “Operational Technology and Internet of Energy Integration – Importance for Utilities”
Having accurate connectivity, topology and GIS accuracy is crucial for utilities in planning, forecasting and monitoring efforts. Many utilities have realized the importance of building a ‘Digital Twin’, or digital representation of their electrical grid. However, an inaccurate representation of the grid is as good as no representation. An accurate digital grid is a connected grid. Achieving this begins by mapping out the elements and assets active within the system, then comes ensuring those elements are all connected.Continue reading “The importance of Connectivity, Topology and GIS Accuracy for Utilities”
LEAN distribution management can help utilities with the rapidly changing landscape of the industry. Aging infrastructure combined with decentralized generation is leading to a cosmic shift in the way utilities operate their grid.Continue reading “How can utilities increase productivity by x10 with LEAN distribution management?”
- Sensors for the distribution grid: Could we get to a $99 grid sensor and what impact would that have?
- Awesense and Kitu Partner to Accelerate DERMS Deployments
- Industrial and Commercial Energy Use Optimization
- Situational Awareness - Value for Utilities
- Building a Reliable and Resilient Grid
- Operational Technology and Internet of Energy Integration - Importance for Utilities
- The importance of Connectivity, Topology and GIS Accuracy for Utilities
- Data Governance & Data Quality for Utilities
- How can utilities increase productivity by x10 with LEAN distribution management?