moma thomas wolski_cigre_13-04-22
TRANSCRIPT
E-Energy-Project moma
Smart City Mannheim
CIGRE – Lisboa
2013, April 22
Thomas Wolski, Power Plus Communications AG
Beacon Project E-Energy
Paradigm Change in the Energy System
• Decentralized energy generation
• Real-time communication and
interaction between generation and
consumption
• Key role of ICT -> Smart Grids
• Centralized energy generation
• Few communication
in distribution networks
• Passive customers
• Subsidiary role of ICT
Beacon Project E-Energy
From the Beacons into Widespread Application
moma – project partners
moma Project idea
Real-time linking all Components making a Smarter Energy System
Centr.
Gene-
ration
Trans-
mis-
sion
Distribution Decentral
Generation
Customers
Market
Enterprises
Partners
Operation
Station
(local
automation)
Field
Process
Customer energy
managementsystem
(Energiebutler / BEMI)
Markets
Services
TSO DSO
EM DEA Storage device
A
Substation Auto-
mation (Grid agent)
Role
System,
device
Aggregatore
(Market agent/
Pool-BEMI)
6
device
B
Source:
EU Mandat
490;
plus
moma
components
Moma: Regional and Cellular system Use Cases implemented
Smart
Meter
moma – Cellular energy system
Site Grid Cell
with
Energiebutler™
Distrubution
Grid Cell
with
Market- and
Grid Agend
System Cell
with
Energy Market
Place and Grid
Control
Energy
Information
In real –time
with BPL
moma System Model: site grid cell
moma – field trials
2. Practical trial “Flexible electricity price”
Energy Butler
Demand-side management
(for all controllable household
loads, such as refrigerators,
washing machines)
200 customers
2010 2011 2012
1. Practical trial “Innovative electricity meter”
Smart meters capable of
remote reading
Customer portal (visualisation of
consumption/generation)
20 customers
Degree of complexity
3. Practical trial “Intelligent energy grid”
E-Energy marketplace with new trading functions for
decentralised plant operators,
suppliers, grid operators etc.
Management of
decentralised generators
1000 customers
Interim Results – Customer Survey
© IFEU 2011
Can you imagine to pay a price for your electricity
consumption data and its visualization?
© IFEU 2011
RESULTS: field prooven system
Cellular moma system architecture – field proven!
Availability of the system
BPL system BPL incl. Backbone End-to-End BPL* = Broadband Powerline
RESULTS: detailed analysis of
own-price elasticity
Up to 35% own-price elasticity
Own-price elasticity by group
Daytime
Ow
n-p
rice
ela
sti
cy
Without control
With control
Cu
rren
t [p
.u.]
RESULTS: Voltage control by grid agents
Cu
rren
t [p
.u.]
Max. current
Min. current
Range of tolerance
Voltage control of many interacting distribution grid cells
0%
10%
20%
30%
40%
50%
60%
Ja Vielleicht Nein
Question: Would you like to use the moma tariff or a comparable one after the end of the field trial?
Kontrollgruppe
Versuchsgruppe
Yes Maybe No
RESULTS: Acceptance of variable tariffs
Customers are showing a high demand for a variable tariffs!
Control group (n=78)
Moma particippants (n=296)
Variable / dynamic
tariffs have
economic benefits for
customers and
countries
High demand
for dynamic
tariffs
Moma systeme
architecture is
transferable
from electricity to
other fuels Detailed hourly
own-price
elasticity
moma system can
help to stabilise
the voltage level in
the grid and zu
relive the grid from
stress
Our results – project highlights