Generation of Domestic Electricity Load Profiles 3 rd

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Generation of Domestic Electricity Load Profiles 3 rd International Scientific Conference on Energy and

Generation of Domestic Electricity Load Profiles 3 rd International Scientific Conference on Energy and Climate Change 7 th and 8 th October 2010 Athens Author: Fintan Mc. Loughlin

Index § § § § Objective Background Current Methodologies Average Load Profiles Stochastic Load

Index § § § § Objective Background Current Methodologies Average Load Profiles Stochastic Load Profiles Results Conclusion

Objectives Design of high time resolution models for domestic electricity demand in Ireland -

Objectives Design of high time resolution models for domestic electricity demand in Ireland - Stochastic profiles at thirty minute intervals - Capable of modelling individual dwelling types - Other socio-economic variables (dwelling size, no. of occupants, occupancy, appliance holdings) - Used alongside renewable energy technology models

Background § Ph. D student at Dublin Institute of Technology, Ireland § Work feeds

Background § Ph. D student at Dublin Institute of Technology, Ireland § Work feeds into an overall project to investigate energy policy scenarios for micro-generation in domestic dwellings in Ireland (groups: micro-generation technology modelling, demand modelling, behavioural, policy analysis, future scenario modelling)

Current Methodologies Macro-Economic (top-down) Multiple Regression (bottom-up) Neural Networks Conditional Demand Analysis Engineering models

Current Methodologies Macro-Economic (top-down) Multiple Regression (bottom-up) Neural Networks Conditional Demand Analysis Engineering models Autoregressive

Average Load Profiles § Smooth load across the day § Predictable peaks in morning

Average Load Profiles § Smooth load across the day § Predictable peaks in morning and evening time § Small base load over night

0. 5 0. 4 0. 3 @0030 @0100 @0130 @0200 @0230 @0300 @0330 @0400

0. 5 0. 4 0. 3 @0030 @0100 @0130 @0200 @0230 @0300 @0330 @0400 @0430 @0500 @0530 @0600 @0630 @0700 @0730 @0800 @0830 @0900 @0930 @1000 @1030 @1100 @1130 @1200 @1230 @1300 @1330 @1400 @1430 @1500 @1530 @1600 @1630 @1700 @1730 @1800 @1830 @1900 @1930 @2000 @2030 @2100 @2130 @2200 @2230 @2300 @2330 @0000 k. W 0. 9 Average electricity load profile by dwelling type 0. 8 0. 7 0. 6 Apartment Semi-detached Detached Terraced Bungalow 0. 2 0. 1 0

0. 6 0. 4 @0030 @0100 @0130 @0200 @0230 @0300 @0330 @0400 @0430 @0500

0. 6 0. 4 @0030 @0100 @0130 @0200 @0230 @0300 @0330 @0400 @0430 @0500 @0530 @0600 @0630 @0700 @0730 @0800 @0830 @0900 @0930 @1000 @1030 @1100 @1130 @1200 @1230 @1300 @1330 @1400 @1430 @1500 @1530 @1600 @1630 @1700 @1730 @1800 @1830 @1900 @1930 @2000 @2030 @2100 @2130 @2200 @2230 @2300 @2330 @0000 k. W 1. 2 Average electricity load profile by No. of bedrooms 1 0. 8 1 Bedroom 2 Bedroom 3 Bedroom 4 Bedroom 5+ Bedroom 0. 2 0

0. 6 0. 4 @0030 @0100 @0130 @0200 @0230 @0300 @0330 @0400 @0430 @0500

0. 6 0. 4 @0030 @0100 @0130 @0200 @0230 @0300 @0330 @0400 @0430 @0500 @0530 @0600 @0630 @0700 @0730 @0800 @0830 @0900 @0930 @1000 @1030 @1100 @1130 @1200 @1230 @1300 @1330 @1400 @1430 @1500 @1530 @1600 @1630 @1700 @1730 @1800 @1830 @1900 @1930 @2000 @2030 @2100 @2130 @2200 @2230 @2300 @2330 @0000 k. W 1. 2 Average electricity load profile by no. of occupants 1 0. 8 1 2 3 4 5 6+ 0. 2 0

0. 6 0. 4 @0030 @0100 @0130 @0200 @0230 @0300 @0330 @0400 @0430 @0500

0. 6 0. 4 @0030 @0100 @0130 @0200 @0230 @0300 @0330 @0400 @0430 @0500 @0530 @0600 @0630 @0700 @0730 @0800 @0830 @0900 @0930 @1000 @1030 @1100 @1130 @1200 @1230 @1300 @1330 @1400 @1430 @1500 @1530 @1600 @1630 @1700 @1730 @1800 @1830 @1900 @1930 @2000 @2030 @2100 @2130 @2200 @2230 @2300 @2330 @0000 k. W 1. 2 Average electricity load profile by HOH age band 1 0. 8 18 -25 26 -35 36 -45 46 -55 56 -65 65+ 0. 2 0

0 : 3 0 02 : 3 0 03 : 3 0 04 :

0 : 3 0 02 : 3 0 03 : 3 0 04 : 3 0 05 : 3 0 06 : 3 0 07 : 3 0 08 : 3 0 09 : 3 0 10 : 3 0 11 : 3 0 12 : 3 0 13 : 3 0 14 : 3 0 15 : 3 0 16 : 3 0 17 : 3 0 18 : 3 0 19 : 3 0 20 : 3 0 21 : 3 0 22 : 3 0 23 : 3 0 01 00 k. W Stochastic Load Profile 2. 5 2 1. 5 1 0. 5 0

Markov Chain Transition State

Markov Chain Transition State

Markov Chain

Markov Chain

Markov Chain § Six months data metered at 30 minute intervals for five individual

Markov Chain § Six months data metered at 30 minute intervals for five individual dwellings in Ireland § A first order model with 24 x 24 probability matrix chosen § Sampling based on mean and standard deviation for Ireland

Metered and Synthetic load profiles over six month period Metered Profile Synthetic Profile

Metered and Synthetic load profiles over six month period Metered Profile Synthetic Profile

Comparative Tests § Statistical Properties - Mean - Standard Deviation - Max & Min

Comparative Tests § Statistical Properties - Mean - Standard Deviation - Max & Min values - Distribution parameters § Time Domain Analysis - Mean & 95% Confidence Intervals § Frequency Domain Analysis - Spectral Density Functions

Results Detached Semi-detached Bungalow Terraced Apartment Mean (metered) Mean (synthetic) STD (metered) 0. 4901

Results Detached Semi-detached Bungalow Terraced Apartment Mean (metered) Mean (synthetic) STD (metered) 0. 4901 0. 5834 0. 7460 0. 6510 0. 1397 0. 5073 0. 5917 0. 7661 0. 6583 0. 1436 0. 5969 0. 7265 0. 7578 0. 7023 0. 1976 STD (synthetic) 0. 6300 0. 7477 0. 7930 0. 7198 0. 2021 Max (metered) 5. 9820 5. 4400 6. 6060 5. 5980 3. 6980 Max (synthetic) Min (metered) 5. 7638 5. 3840 7. 3146 6. 4895 3. 4000 0. 0800 0 0 Min (synthetic) 0. 0503 0. 0002 0. 0110 0. 0504 0. 0001

Frequency Histogram – Detached Dwelling

Frequency Histogram – Detached Dwelling

Frequency Histogram – Semi-Detached Dwelling

Frequency Histogram – Semi-Detached Dwelling

Frequency Histogram – Bungalow Dwelling

Frequency Histogram – Bungalow Dwelling

Frequency Histogram – Terraced Dwelling

Frequency Histogram – Terraced Dwelling

Frequency Histogram – Apartment Dwelling

Frequency Histogram – Apartment Dwelling

Time distribution of electricity consumption over a random day – Detached Dwelling Synthetic profile

Time distribution of electricity consumption over a random day – Detached Dwelling Synthetic profile predicts pk. in the early morning Metered profile has pk. around 4. 30 pm in the evening

Time Domain - Daily Mean & 95% Confidence Intervals Metered Data Synthetic Data

Time Domain - Daily Mean & 95% Confidence Intervals Metered Data Synthetic Data

Frequency Domain – Detached Dwelling Metered Data Synthetic Data

Frequency Domain – Detached Dwelling Metered Data Synthetic Data

Conclusions § Markov chain is a stochastic modelling technique used to generate synthetic sequences

Conclusions § Markov chain is a stochastic modelling technique used to generate synthetic sequences § Can preserve certain statistical properties such as mean, standard deviation, max & min parameters between sequences § Unable to model the timing of peak electricity consumption as shown in the time and frequency domain

Thank You & Any Questions Fintan Mc. Loughlin Email: fintan. mcloughlin@student. dit. ie

Thank You & Any Questions Fintan Mc. Loughlin Email: fintan. mcloughlin@student. dit. ie