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FEUERRIEGEL, STEFAN
(2)
answer(s).
Srl
Item
1
ID:
149969
Integration scenarios of demand response into electricity markets: load shifting, financial savings and policy implications
/ Feuerriegel, Stefan; Neumann, Dirk
Feuerriegel, Stefan
Journal Article
0 Rating(s) & 0 Review(s)
Summary/Abstract
Demand Response allows for the management of demand side resources in real-time; i.e. shifting electricity demand according to fluctuating supply. When integrated into electricity markets, Demand Response can be used for load shifting and as a replacement for both control reserve and balancing energy. These three usage scenarios are compared based on historic German data from 2011 to determine that load shifting provides the highest benefit: its annual financial savings accumulate to €3.110 M for both households and the service sector. This equals to relative savings of 2.83% compared to a scenario without load shifting. To improve Demand Response integration, the proposed model suggests policy implications: reducing bid sizes, delivery periods and the time-lag between market transactions and delivery dates in electricity markets.
Key Words
Policy Implications
;
Demand Response
;
Optimization
;
Economic Potential
;
Load Shifting
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2
ID:
127237
Measuring the financial impact of demand response for electrici
/ Feuerriegel, Stefan; Neumann, Dirk
Feuerriegel, Stefan
Journal Article
0 Rating(s) & 0 Review(s)
Publication
2014.
Summary/Abstract
Due to the integration of intermittent resources of power generation such as wind and solar, the amount of supplied electricity will exhibit unprecedented fluctuations. Electricity retailers can partially meet the challenge of matching demand and volatile supply by shifting power demand according to the fluctuating supply side. The necessary technology infrastructure such as Advanced Metering Infrastructures for this so-called Demand Response (DR) has advanced. However, little is known about the economic dimension and further effort is strongly needed to realistically quantify the financial impact. To succeed in this goal, we derive an optimization problem that minimizes procurement costs of an electricity retailer in order to control Demand Response usage. The evaluation with historic data shows that cost volatility can be reduced by 7.74%; peak costs drop by 14.35%; and expenditures of retailers can be significantly decreased by 3.52%.
Key Words
Economic Growth
;
Energy Policy
;
Energy Consumption
;
Government Policies
;
Energy Strategy
;
Energy Demand
;
Energy Supply
;
Supply Chain
;
Demand Response
;
Economic Strategy
;
Financial Implications
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Export