1 towards slack analysis prabal dutta and jay taneja local winter retreat january 15, 2010
DESCRIPTION
3 Growing fraction of energy sources are renewable Renewables Portfolio Standard (RPS) –36 of 50 states have set goals –Range from 10% to 25% California RPS –2008: 10% (actual) –2010: 20% –2020: 33% California Mix (2008) –Biomass: 2.1% –Geothermal: 4.5% –Small Hydro: 1.4% –Solar: 0.2% –Wind: 2.4%TRANSCRIPT
1
Towards Slack Analysis
Prabal Dutta and Jay Taneja
LoCal Winter RetreatJanuary 15, 2010
2
Motivation: the changing energy landscape
Dispatchable Sources
Oblivious Sinks
Non-Dispatchable Sources
Aware Sinks
3
Growing fraction of energy sources are renewable
• Renewables Portfolio Standard (RPS)– 36 of 50 states have set goals– Range from 10% to 25%
• California RPS– 2008: 10% (actual) – 2010: 20%– 2020: 33%
• California Mix (2008)– Biomass: 2.1%– Geothermal: 4.5%– Small Hydro: 1.4%– Solar: 0.2%– Wind: 2.4%
4
Implications of “Do Nothing Well”
TX packet at 1% duty cycle (20 ms / 2 s)
4,000 ms
640,000 ms
86,400,000 ms
[Farkas00]
30 ms
5
“Doing Nothing Well” on the desktop
Before installingAutoShutdownManager
After installingAutoShutdownManager
~100
x
6
Over the next decade
• Sources– Increasingly non-dispatchable– Geographically distributed– Non-dispatchable loads are economically derated
• Sinks– Increasing power-proportional– Increasingly networked and intelligent– Increasing numbers of plug-in hybrid electric
vehicles
• The question: how to match supply and demand?
7
The matching problem
8
Outline
• Problem
• Solution Sketch
• Source Example
• Sink Example
• Other Opportunities
9
What not to do: forced load shedding
10
Load sculpting by squeezing, shifting, and splitting
11
Towards a methodology for sculpting
12
Outline
• Problem
• Solution Sketch
• Source Example
• Sink Example
• Matching Problem
13
Average hourly wind speed over one year
14
Average hourly wind speed over one year
15
Change in average hourly wind speed
16
Change in average hourly wind speed
17
Probabilistic “slack” in energy production
p > 30%
p > 20%p > 20%
p < 10%p < 10%
With 90% probability, Average wind speed will change less than
±2 mph in the next hour
18
Outline
• Problem
• Solution Sketch
• Source Example
• Sink Example
• Other Opportunities
19
A “LoCalized” refridgerator
Switch/Meter
Energy Storage
Temp,Hum,Light
Sensors
20
The life of the kitchen fridge
21
Refrigerator operating cycle
22
Temporal slack
Average Slack = 25 min (per 41 min cycle)Average Energy per cycle = 0.05 kWh
23
Aggregating temporal slack
24
Towards a measure of energy slack
25
Outline
• Problem
• Solution Sketch
• Source Example
• Sink Example
• Other Opportunities
26
Generalizing to the home
27
Many, many open questions
• Slack metric– A single value?– A portfolio of values?– A CDF?– Formalization– Positive slack vs negative slack?
• Sculptability of other loads?
• Sculptability of other sources?
• Algorithms for dynamic demand response– Match, in real-time, sources and sinks