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SATISFIABILITY OF ELASTIC DEMAND IN THE SMART GRID Jean-Yves Le Boudec, Dan-Cristian Tomozei EPFL May 26, 2011 1.

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Presentation on theme: "SATISFIABILITY OF ELASTIC DEMAND IN THE SMART GRID Jean-Yves Le Boudec, Dan-Cristian Tomozei EPFL May 26, 2011 1."— Presentation transcript:

1 SATISFIABILITY OF ELASTIC DEMAND IN THE SMART GRID Jean-Yves Le Boudec, Dan-Cristian Tomozei EPFL May 26, 2011 1

2 Demand Management Variable Supply Variable Demand Frequency Response becomes insufficient Demand management required in future grid 2

3 Demand Management must Be Simple, Adaptive and Distributed Global, optimal schedules But they are inflexible complex 3

4 Adaptive Appliances Some Demand can be delayed ! DSO provides best effort service with statistical guarantees [Keshav and Rosenberg 2010] 4 Voltalis Bluepod switches off thermal load for 30 mn PeakSaver cycles AC for 15mn Programmable dishwasher

5 Our Problem Statement Is elastic demand feasible ? We leave out (for now) the details of signals and algorithms Problem Statement Is there a control mechanism that can stabilize demand ? Instability can be generated by Delays in demand Higher returning demand A very course (but fundamental) first step 5

6 Step 1: Day-ahead market Forecast demand : Forecast supply : Step 2: Real-time market Actual demand : Actual supply : Deterministic processes : Random processes : Control : Ramp up, ramp down 6 Macroscopic Model

7 Returning Demand Expressed Demand Frustrated Demand Satisfied Demand Backlogged Demand Evaporation Control Randomness Supply Natural Demand Reserve (Excess supply) 7 Ramping Constraint

8 8 Macroscopic Model – Normal Assumption Assumption : (M – D) = ARIMA(0, 1, 0) 2-d Markov chain on continuous state space

9 The Control Problem Control variable: G(t-1) production bought one second ago in real time market Controller sees only supply G a (t) and expressed demand E a (t) Our Problem: keep backlog Z(t) stable Ramp-up and ramp-down constraints ξ ≤ G(t) ⎼ G(t-1) ≤ ζ 9 Supply Returning Demand Expressed Demand Frustrated Demand Satisfied Demand Backlogged Demand Natural Demand Evaporation Control Randomness Reserve (Excess supply)

10 Threshold Based Policies Forecast supply is adjusted to forecast demand R(t) := reserve = excess of demand over supply 10 Threshold policy: if R(t) < r* increase supply as much as possible (considering ramp up constraint) else set R(t)=r*

11 11 r*

12 Findings If evaporation μ is positive, system is stable (ergodic, positive recurrent Markov chain) for any threshold r* If evaporation is negative, system unstable for any threshold r* Delay does not play a role in stability Nor do ramp-up / ramp down constraints or size of reserve 12

13 Case 1: Positive evaporation Postponing a task = discount Theorem 1: The Markov chain (R,Z) is Harris recurrent and ergodic. It converges to the unique steady state probability distribution, for any threshold and any strictly positive ramp-up constraint. Case 2: Negative evaporation Postponing a task = penalty Theorem 2: The Markov chain (R,Z) is non-positive, for any threshold. Method of Proof: quadratic Lyapunov (case 1) or logarithmic L. (case 2) 13 More Detailed Findings Backlogged Demand Evaporation

14 Evaporation = dropped fraction of delayed demand Negative evaporation means: delaying a demand makes the returning demand larger than the original one Could this happen ? Does letting your house cool down now implies spending more heat later ? (vs keeping constant temperature) Do not confuse with the sum of returning demand + current demand, which is always larger than current demand) 14

15 Evaporation: Heating Appliances Assume the house model of [MacKay 2009] then delayed heating is less heating If heat = energy, then evaporation is positive. This is why Voltalis bluepod is accepted by users If heat = heat pump, coefficient of performance may be variable Delayed heating with air heat pump may have negative evaporation 15 leakinessinertia heat provided to building outside

16 Batteries Thermal loss is non linear, delayed loading causes negative evaporation (charging at higher intensity) 16

17 Conclusions A first model of adaptive appliances with volatile demand and supply Suggests that negative evaporation makes system unstable, thus detailed analysis is required to avoid it Model can be used to quantify more detailed quantities E.g. amount of backlog, optimal reserve 17

18 [1] Cho, Meyn – Efficiency and marginal cost pricing in dynamic competitive markets with friction [2] Papavasiliou, Oren - Integration of Contracted Renewable Energy and Spot Market Supply to Serve Flexible Loads [3] Operational Requirements and Generation Fleet Capability at 20% RPS (CAISO - 31 August, 2010) 18 Questions ?

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