Industrial IoT Enabler for future energy infrastructure. DI Andreas Lugmaier, Corporate Technology Head of research group Industrial Networks/ IOT
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- Reynold Martin Boone
- 5 years ago
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1 Industrial IoT Enabler for future energy infrastructure DI Andreas Lugmaier, Corporate Technology Head of research group Industrial Networks/ IOT
2 Table of content Drivers for innovating the energy system infrastructure 3 Overview Industrial IoT 5 Deep Dive Industrial IoT for energy infrastructure Overview on results of research Seestadt Aspern & intelligent Secondary Substation Node 2020 (issn 2020) 7 Outlook 15 Page 2
3 Drivers for innovating the energy system infrastructure I. Flexible / fluctuating Distributed Energy Resources (DER) Flexible DER Page 3
4 Drivers for innovating the energy system infrastructure II. Triggers of Digitalisation & Technology Trends 2018 Triggers of Digitalisation Gartner Top 10 Strategic Technology Trends 18 Page 4
5 Drivers for innovating the energy system infrastructure III. Internet of Things & Industrial IoT Consumer IoT Industrial IoT Single or few operator companies Backend eco-systems end user Multiple users with different roles at different levels Permanent cloud connection required. Quality and availability: Best effort Low-cost / high volume R. Minerva, A. Biru, D. Rotondi, Towards a Definition of the Internet of Things (IoT), iot.ieee.org/definition.html (accessed on 2017/06/19), 2015 Complex systems combining local intelligence and centralized intelligence 24/7 operation even with no connection to backend. Guaranteed latency, throughput, and responsiveness. Page 5
6 Deep Dive on industrial IoT for future Energy Infrastructure based on intelligent IoT ready Devices (example SICAM CP-8050) Page 6
7 Industrial IoT functionality enables novel energy infrastructure related applications at edge and cloud (R&D projects results) Demand Response Network Loss Outage Management Cloud / Backend Device Management App Ecosystem Cloud Persistent storage, analytics, backend applications, device management Secondary Substation IIoT Device SICAM Aggregation services, infield analytics, device applications Transformer Feeder Sensors Edge Sensors / Actuators Page 7
8 R&D projects Seestadt Aspern & issn 2020 results Industrial IoT Customer Benefits Demand Response Network Loss Outage Management Cloud / Backend Device Management App Ecosystem Decoupling hardware and software lifecycle Keeping device software up-to-date Lowering life time costs by means of easier configuration and remote access Significantly reduced engineering effort Secondary Substation IIoT Device SICAM Transformer Feeder Sensors Frontrunner in industrial IoT Industrial APP concept integration & experiences Industrial APP installation without interruption of operation Malfunction of one industrial APP does not cause a hang up of other APPs APPs are agnostic in terms of programming languages and can be developed by own staff as well as third parties through an SDK Page 8
9 R&D projects Seestadt Aspern & issn 2020 results Vision for future Grid Automation based on industrial IoT Demand Response Administrative Dashboard (Cloud) Network Loss Outage Management Cloud / Backend Device Management App Ecosystem Secondary Substation Information on installed software artifacts Individual App and batch deployment / mass rollout View of health information IIoT Device SICAM Operative Dashboard (Edge) Transformer Feeder Sensors Detailed information on local state Information can be polled by backend on demand Local optimized storage for time series data Installed artifacts can enhance user interface Page 9
10 App Download Demonstrator Page 10
11 Industrial IoT R&D application example: industrial Apps for Voltage Control Semantic Framework Administrative Dashboard Application Lifecycle Management SCADA (topology ) Smart Buildings (profiles ) Unavailable Data Handling Voltage Grid Control V Voltage Control IIoT Device GridLink Edge Application Manager Storage Module A B App A needs functionality provided by App B Grid Representation Module SICAM CP 8050 Page 11
12 Industrial IoT R&D application example: Flexibility Seestadt Aspern VPP Virtual Power Plant e.g. Tertiary Reserve Market Energy Markets DEMS Distributed Energy Management System Aggregator Building Energy Management System IIoT Device SICAM Grid operation Flexibility Operator Page 12
13 Industrial IoT R&D application example: Industrial Apps for Flexibility Management Semantic Framework Administrative Dashboard Application Lifecycle Management SCADA (topology ) Smart Buildings (profiles ) Grid Watch Dog Flex Op Grid State Forecasting Adaptive Assignment Module Switch State Detection Unavailable Data Handling Voltage Control IIoT Device GridLink Edge Application Manager Storage Module A B App A needs functionality provided by App B Grid Representation Module Building Representation Module SICAM CP 8050 Page 13
14 Industrial IoT R&D Seestadt Aspern: Framework for industrial Apps DSO Headquater Backend 1 for app 1 App. configuration Department 1 Company data base LV grid (sensors & actors) Transformer station Local interfaces and I/O s for conventional sensors & actors (via extension modules) Interface for local IoT sensors & actors IIoT environment Backend n for app n Device & app. mgmt. App. configuration System provisioning Department n Department x Communication Sicam A8000 / CP 8050 DMS/ SCADA Grid operation Smart Buildings Communication Market transactions Smart Charging IIoT environment IEC IEC Substation Page 14 To other transformer stations
15 Let s innovate together! Make an industrial App out of your Use Case! Page 15
16 Contact Andreas Lugmaier Head of research group Industrial Networks - IoT / Corporate Technology Siemensstraße Vienna Mobile: andreas.lugmaier@siemens.com siemens.at/future-of-energy Page 16