LV Network Modelling

1. LV Network Modelling Keith Dryden Project Engineer LCNF Conference 2012

2. Overview • Drivers • Existing Power Analysis Tool • Aim • Data Flow Diagram • Implementation • Existing GIS data • Transfer to Electric Office • Transfer to CYMDIST • Load and Generation Profile Manager • Load Flow Analysis • User Cases • Summary

3. Drivers • Problem statement • There is a need to enhance the capability of SSEPD’s operational Information Systems, to facilitate the anticipated development of the low voltage network • Modelling tools require accurate network data, but re-drawing of the network in the chosen package is time-consuming and costly, with scope for introducing error • Traditional methods of modelling electrical networks rely on accurate customer loading data; this will become more important when Small-Scale Embedded Generation (SSEG) / Distributed Generation is added to the system.

4. Existing Power Analysis Tool CABLE TYPES USED IN THIS NETWORK Node 1 to Substation 100: WAVE 300mm, 25m Node 1 to Node 2 Tapered section 1: WAVE 95mm, 180m Tapered section 2: WAVE 185mm, 70m Node 1 to Node 3: WAVE 300mm, 25m Node 3 to Node 4 Tapered section 1: WAVE 95mm, 160m Tapered section 2: WAVE 185mm, 90m Node 3 to Node 5: WAVE 185mm, 25m Node 5 to Node 6 Tapered section 1: WAVE 95mm, 135m Tapered section 2: WAVE 185mm, 115m Node 5 to Node 7: WAVE 185mm, 25m Node 7 to Node 8 Tapered section 1: WAVE 95mm, 110m Tapered section 2: WAVE 185mm, 140m Node 7 to Node 9: WAVE 95mm, 25m Node 11 to Substation 100: WAVE 185mm, 1m

5. Power Analysis Tool Evaluation • Three Power Analysis Tools evaluated • CYMDIST from CYME • PowerFactory from DigSilent • WinDEBUT from EA Technologies • Chose CYMDIST • Energy Profile Handling • Integration options with Smallworld Electric Office • Engagement with the supplier, CYME

6. Aim • To Model an LV network capturing data electronically from old and new information systems. • Customer Network data in GIS transferred into suitable format • Integration of Network Modelling Environment with Power Analysis Tool • Modelling and management of new low carbon devices/distributed generation • Accept half hourly load profiles • Run multiple scenarios or variants e.g. 1 day / 1 month / 1 year

7. Data flow diagram

8. Implementation – Existing GIS data

9. Implementation – Transfer to Electric Office • Large expandable database facility. • Electric Office allocates customer phasing. • Single line representation of 3 phase connectivity.

10. Implementation – Transfer to CYMDIST • Re-creates network • Performs calculations on data • Sends to the results to Electric Office • Normal use - no visibility • Selected users can access for in-depth analysis

11. Load Flow Analysis

12. CYMDIST Load Distribution

13. Load and Generation Profile Manager • Energy Profiles Manager in CYMDIST • Multi Year, future and past • Individual End Points / Customer Types • Load and Generation • Analysis for specific time points, and ranges

14. User Cases • Operational Staff • Quick and simple method of confirming a back-feed or mobile generation is within limits • Desktop quoter • Simple check against whether new load or generation can connect onto network • Network planner • Allow modelling of load/generation growth up to 5 years in advance. New large scale development planning.

15. Summary • Appropriate modelling tool evaluated and tested with Electric Office • Proof of concept model completed – tested with various load profiles • User cases established • Forms the basis of the system for use in the New Thames Valley Vision project

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