Optimal Demand Response

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1 Optimal Demand Response Libin Jiang Steven Low Computing + Math Sciences Electrical Engineering Caltech Oct 2011

2 Outline Caltech smart grid research Optimal demand response

3 Global trends 1 Exploding renewables Driven by sustainability Enabled by policy and investment 2 Migration to distributed arch 2-3x generation efficiency Relief demand on grid capacity

4 Worldwide energy demand: 16 TW Wind power over land (exc. Antartica) TW electricity demand: 2.2 TW wind capacity (2009): 159 GW grid-tied PV capacity (2009): 21 GW Solar power over land 340 TW Source: Renewable Energy Global Status Report, 2010 Source: M. Jacobson, 2011

5 Key challenge: uncertainty mgt High Levels of Wind and Solar PV Will Present an Operating Challenge! Source: Rosa Yang, EPRI

6 Large-scale active network of DER DER: PVs, wind turbines, batteries, EVs, DR loads

7 Large-scale active network of DER Millions of active endpoints introducing rapid large! random fluctuations! in supply and demand! DER: PVs, wind turbines, batteries, EVs, DR loads

8 Control challenges Need to close the loop Real-time feedback control Driven by uncertainty of renewables Scalability Orders of magnitude more endpoints that can generate, compute, communicate, actuate Driven by new power electronics, distributed arch Engineering + economics Need interdisciplinary holistic approach Power flow determined by markets as well as physics

9 Current control global local SCADA EMS centralized state estimation contingency analysis optimal power flow simulation human in loop slow decentralized mechanical relay system fast mainly centralized, open-loop preventive, slow timescale

10 Our approach global SCADA EMS endpoint based scalable control local algorithms global perspective local slow relay system fast scalable, decentralized, real-time feedback, sec-min timescale

11 Our approach global SCADA EMS endpoint based scalable control local algorithms global perspective local slow relay system fast We have technologies to monitor/control 1,000x faster not the fundamental theories and algorithms

12 Our approach Endpoint based control Self-manage through local sensing, communication, control Real-time, scalable, closed-loop, distributed, robust Local algorithms with global perspective Simple algorithms Globally coordinated Control and optimization framework Systematic algorithm design Clarify ideas, explore structures, suggest direction Ambitious, comprehensive, multidisciplinary Start with concrete relevant component projects

13 Our approach: benefits Scalable, adaptive to uncertainty By design Robust understandable global behavior Global behavior of interacting local algorithms can be cryptic and fragile if not designed thoughtfully Improved reliability & efficiency Real-time price Flat Price, Scenario 1 Flat Price, Scenario 2

14 Sample projects Optimal power flow [Bose, Gayme, L, Chandy] Motivation: core of grid/market operation, but slow & inefficient computation Result: zero duality gap for radial networks Impact: much faster and more efficient algorithm for global optimality to cope with renewable fluctuations Volt/VAR control [Farivar, L, Clarke, Chandy] Motivation: static capacitor-based control cannot cope with rapid random fluctuations of renewables Result: optimal real-time inverter-based feedback control Impact: more reliable and efficient distribution network at high renewable penetration

15 Sample projects Contract for wind [Cai, Aklakha, Chandy] Motivation: wind producers may withhold generation to maximize profit Result: simple condition on marginal imbalance penalty incentivizes max wind production Impact: max renewable power and min market manipulation Procurement strategy [Nair, Aklakha, Wierman] Motivation: how to optimally procure uncertain energy Result: optimal procurement strategy in terms of reserve levels Impact: Effectiveness of intra-day markets

16 Sample projects EV charging [Gan, Topcu, L] Motivation: uncoordinated charging will produce unacceptable voltage fluctuations and overload Result: decentralized scheduling that is optimal (valley-filling) Impact: can accommodate more EV on same grid infrastructure Frequency-based load control [Zhao, Topcu, L] Motivation: frequency regulation only by adapting generation can be insufficient Result: decentralized load control algorithm for supply-demand balancing and frequency regulation Impact: more responsive frequency regulation in the presence of uncertain supply

17 Sample projects Demand response [Na, Chen, L] Motivation: to maintain power balance Result: decentralized, scalable, incentive compatible day-ahead scheduling algorithm Deterministic case Stochastic case [Libin Jiang, L] Next

18 Outline Caltech smart grid research Optimal demand response Model Results

19 Features to capture Wholesale markets Day ahead, real-time balancing Renewable generation Non-dispatchable Demand response Real-time control (through pricing) day ahead balancing renewable utility utility users users

20 Model: user Each user has 1 appliance (wlog) Operates appliance with probability Attains utility u i (x i (t)) when consumes x i (t) x i (t)! x i (t)! x i (t) " x i (t) # X i t Demand at t: D(t) :=! i! i x i (t) "! i = 1 wp " i(t) # $ 0 wp 1! " i (t)

21 Model: LSE (load serving entity) Power procurement Renewable power: Random variable, realized in real-time capacity energy Day-ahead power: P d (t), c d Control, decided a day ahead Real-time balancing power: ( P d (t)), c ( o!x(t)) Use as much renewable as possible Optimally provision day-ahead power Buy sufficient real-time power to balance demand

22 Simplifying assumption No network constraints

23 Questions Day-ahead decision should LSE buy from day- How much power ahead market? Real-time decision (at t-) How much should users consume, given realization of wind power and? How to compute these decisions distributively? How does closed-loop system behave? t 24hrs t- available info: decision:

24 Our approach Real-time (at t-) Given and realizations of, choose optimal x * i = x * i ( P d ;P r,! i ) to max social welfare, through DR Day-ahead P d P r,! i Choose optimal that maximizes expected optimal social welfare t 24hrs t- available info: decision:

25 Optimal demand response Model Results Without time correlation: distributed alg With time correlation: distributed alg Impact of uncertainty

26 No time correlation: T=1 Each user has 1 appliance (wlog) Operates appliance with probability Attains utility u i (x i (t)) when consumes x i (t) x i (t)! x i (t)! x i (t) " x i (t) # X i t Demand at t: D(t) :=! i! i x i (t) "! i = 1 wp " i(t) # $ 0 wp 1! " i (t)

27 Welfare function Supply cost c( P d, x) = c ( d P ) d + c ( o!(x)) P d 0 + c ( b!(x)" P ) d +!(x) := "! i x i # P r i excess demand Welfare function (random) W P d, x ( ) =! i u i! (x i )" c P d, x i ( ) user utility supply cost

28 Welfare function Supply cost c( P d, x) = c ( d P ) d + c ( o!(x)) P d 0 + c ( b!(x)" P ) d +!(x) := "! i x i # P r excess demand i c d P ( P d ) c d (!(x)) d c 0 b (!(x)" P d ) +!(x)

29 Welfare function Supply cost c( P d, x) = c ( d P ) d + c ( o!(x)) P d 0 + c ( b!(x)" P ) d +!(x) := "! i x i # P r i excess demand Welfare function (random) W P d, x ( ) =! i u i! (x i )" c P d, x i ( ) user utility supply cost

30 Optimal operation Welfare function (random) W P d, x ( ) =! i u i! (x i )" c P d, x i ( ) Optimal real-time demand response x * P d ( ) := arg max Optimal day-ahead procurement P d * := arg max EW P d, x * P d P d x W ( P d, x) given realization of P r,! i ( ( )) Overall problem: max P d E maxw ( P d, x) x

31 Optimal operation Welfare function (random) W P d, x ( ) =! i u i! (x i )" c P d, x i ( ) Optimal real-time demand response x * P d ( ) := arg max Optimal day-ahead procurement P d * := arg max EW P d, x * P d P d x W ( P d, x) given realization of P r,! i ( ( )) Overall problem: max P d E maxw ( P d, x) x

32 Optimal operation Welfare function (random) W P d, x ( ) =! i u i! (x i )" c P d, x i ( ) Optimal real-time demand response x * P d ( ) := arg max Optimal day-ahead procurement P d * := arg max EW P d, x * P d P d x W ( P d, x) given realization of P r,! i ( ( )) Overall problem: max P d E maxw ( P d, x) x

33 Real-time DR vs scheduling Real-time DR: Scheduling: max P d max P d E maxw ( P d, x) x max x E W P d, x ( ) Theorem Under appropriate assumptions: * W real!time DR * = W scheduling + N! 2 1+ N! " 2 benefit increases with uncertainty marginal real-time cost! 2!

34 Algorithm 1 (real-time DR) max P d E maxw ( P d, x) x real-time DR Active user i computes Optimal consumption x i * LSE computes µ b * Real-time price Optimal day-ahead energy to use Optimal real-time balancing energy y o * y b *

35 Algorithm 1 (real-time DR) Active user i : ( ( ( ) k! µ )) b xi x i k+1 = x i k +! u i ' x i k x i inc if marginal utility > real-time price LSE : ( ( ( ) " y k k o " y )) b + µ b k+1 = µ b k +!! x k inc if total demand > total supply Decentralized Iterative computation at t-

36 Algorithm 1 (real-time DR) Theorem: Algorithm 1 Socially optimal x * = x * Converges to welfare-maximizing DR Real-time price aligns marginal cost of supply with individual marginal utility ( ( )) = u i '( * x ) i µ b * = c' P d,! x * P d ( ) Incentive compatible x i * max i s surplus given price µ b *

37 Algorithm 1 (real-time DR) More precisely: µ * b! " x c( P d, #( x * )) pricing = marginal cost µ b * ( = c o '!( x * ) * * ) = c b '!( x * ) " P d * *# $ c o '(!( x * ) % ),c b '! x + * ( ) if 0<! x * ( ) if P d <! x * ( ( ) " P ) d ( ) < P d & ' ( ) if!( x * ) = P d

38 Algorithm 1 (real-time DR) Theorem: Algorithm 1 Marginal costs, optimal day-ahead and balancing power consumed: c b ' ( * y ) ' b = c o ( * y ) * o + µ o if P d * > 0 ( * ) µ * o =!W P d!p d

39 Algorithm 2 (day-ahead procurement) Optimal day-ahead procurement max EW ( P d, x * ( P )) d P d LSE: P m+1 d = ( P m d +! m ( µ m m o! c d '( P ))) d + calculated from Monte Carlo simulation of Alg 1 (stochastic approximation)

40 Algorithm 2 (day-ahead procurement) Optimal day-ahead procurement max EW ( P d, x * ( P )) d P d LSE: P m+1 d = ( P m d +! m ( µ m m o! c d '( P ))) d + Given! m, P r m : ( m ) µ m o =!W P d!p d µ b m = µ o m + c o ' ( m y ) o

41 Algorithm 2 (day-ahead procurement) Theorem Algorithm 2 converges a.s. to optimal for appropriate stepsize! k P d *

42 Optimal demand response Model Results Without time correlation: distributed alg With time correlation: distributed alg Impact of uncertainty

43 General T case Each user has 1 appliance (wlog) Operates appliance with probability Attains utility u i (x i (t)) when consumes x i (t) x i (t)! x i (t)! x i (t) " x i (t) # X i t Coupling across time Need state Demand at t: D(t) :=! i! i x i (t) "! i = 1 wp " i(t) # $ 0 wp 1! " i (t)

44 Time correlation Example: EV charging Time-correlating constraint: Day-ahead decision and real-time decisions Day-ahead t- t = 1,2,, T available info: decision: Remaining demand (1+T)-period dynamic programming

45 Algorithm 3 (T>1) Main idea Solve deterministic problem in each step using conditional expectation of P r (distributed) Apply decision at current step One day ahead, decide P d * by solving At time t-, decide x * (t) by solving

46 Algorithm 3 (T>1) Theorem: performance Algorithm 3 is optimal in special cases T J *! J A3 1!!! 2 (t) T! t +1 t=1

47 Impact of renewable on welfare Renewable power: P r (t;a, b) := a!µ(t)+ b!v(t) mean zero-mean RV Optimal welfare of (1+T)-period DP W * a, b ( )

48 Impact of renewable on welfare P r (t;a, b) := a!µ(t)+ b!v(t) Theorem Cost increases in var of W * a, b ( ) increases in a, decreases in b P r W * s, s ( ) increases in s (plant size)

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