E-Energy

The term E-Energy subtitled English Smart Energy made in Germany is the name of a program to encourage the German Federal Ministry of Economics and Technology (BMWi), the interministerial in partnership with the Federal Ministry for the Environment, Nature Conservation and Nuclear Safety was launched and 2008-2013 has comprehensively examined the digital networking and optimization of the energy supply system through the use of modern information and communication technologies.

E-Energy stands for English Electronic Energy and Energy Internet .

For example, the energy consumption of private customers was fed back via the Internet in order to achieve changes in consumption behavior. For this purpose, consumers were given so-called intelligent meters built into their households, which they could use to track their electricity consumption. It was also investigated how a balance between volatile (weather-dependent) electricity generation and fluctuating demand for electricity can be achieved so that electricity generation with wind and solar energy can be better integrated into the energy supply system.

The program was started with a duration of four years and a total budget of around 140 million euros. Twelve model regions were identified in a competition, six of which were funded with special projects. Consortia consisting of the private sector, the public sector and educational institutions have come together in the regions. Together they planned and implemented their research and development activities. The federal government contributed 60 million euros to the total financing of the project, the rest from the companies.

The EEBUS initiative emerged from the E-Energy project , in which the interface between power generators and the devices in houses and buildings is standardized. Today, EEBUS is the largest cross-industry initiative in Europe that deals with the device language for energy.

Funded model regions

Overview

eTelligence

As part of the “eTelligence” project, a complex control system is to be developed for balancing the volatility of wind energy , which integrates the electricity into the markets and grids and guarantees a high level of security of supply with improved economic efficiency. To this end, a new marketplace for energy was created in and around Cuxhaven. Generators and consumers can offer not only electricity there, but also grid relief, reactive power and system services. Private households can also bring very small quantities to the market - without having to worry about them themselves. This is largely achieved by automatic plug & play devices that operate independently on the market according to the owner's specifications. Above all, the city's numerous cold stores and the adventure pool are used.

E-DeMa

The model region of the regional network "E-DeMa" comprises rural and urban areas with two different distribution networks in the Rhine-Ruhr area and is characterized by a very heterogeneous supply density. This leads to special technical challenges, which are met by creating an intelligent ICT infrastructure. For example, “E-DeMa” is about the development of intelligent consumption control as well as timely consumption data acquisition and provision. So u. a. digital electricity meters integrated in households in order to achieve energy efficiency through networking in the household. In addition, network management in decentralized distribution networks is to be optimized.

MeRegio

“MeRegio” aims to use ICT to minimize CO ₂ and protect the climate. The aim is to increase the efficiency of the network, to make better use of renewable and decentrally generated energy by adapting the demand to the fluctuating supply while avoiding network bottlenecks, and to create a platform for trading even small amounts of energy (e.g. currently possible at EEX). The project will also define a certification process through which regions can obtain a certificate for the particularly efficient use of energy. For this purpose, a model house was constructed, which generates energy on the roof or with a small combined heat and power plant in the basement. The household appliances are connected to one another and to an intelligent system platform via communication technology. An electric vehicle is also integrated into the electrical circuit.

moma (model city Mannheim)

A representative large-scale test with new methods to improve energy efficiency, network quality and the integration of renewable and decentralized energies in the urban distribution network is being carried out in Mannheim . The core is the development of a cross-divisional approach (electricity, heat, gas, water) to network the consumption components by means of a broadband powerline infrastructure. With an appropriate supply infrastructure, the forward-looking user of the energy market can base their consumption and their own generation on variable prices and contribute to greater energy efficiency.

RegModHarz

The aim of the "Regenerative Model Region Harz" project is to ensure grid stability with high volatility of renewable energies. In connection with an innovative online network, the producers, traders, network operators and customers involved are given an ecologically and economically optimized energy supply up to full supply. From a technological point of view, the integration of electric vehicles as electric storage systems should also be emphasized, which is to be tested.

Smart Watts

The model project “Smart Watts” is based on a consortium of research, energy industry and electronics, which want to contribute to an “Internet of Energy” in particular by creating interoperability and standardization in an ICT-based energy supply. In the project, modular intelligent electricity meters are to be developed into an energy center in the household. The aim is for household appliances to use electricity independently primarily when it is available cheaply (e.g. in strong winds or sunshine), without reducing comfort. In addition, customers should be provided with detailed information and new services from the energy market on the basis of this infrastructure, e.g. B. energy saving tips are supplied. The field test to test the newly developed components and systems started with 250 participants in December 2012 in Aachen. The EEBUS was also successfully tested here in a field test for the first time.

See also

• Intelligent power grid
• Vehicle to Grid (V2G)
• Demand side management

Web links

• E-Energy website
• Final brochure E-Energy. Federal Ministry for Economic Affairs and Energy, May 2014 (PDF; 3.9 MB)
• Federal Report on Research and Innovation 2008, briefing by the Federal Government ( page 255 ) (PDF; 6.1 MB)
• Federal Budget 2009, Section 09, Federal Ministry of Economics and Technology ( page 44 )
• Website of EEBUS Initiative eV

Individual evidence

1. ↑ See Flyer. ( Memento of the original from March 24, 2012 in the Internet Archive ) Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. In: e-energy.de (PDF; 246 kB) @1@ 2Template: Webachiv / IABot / www.e-energy.de
2. ↑ E-Energy: EEBus. (No longer available online.) In: e-energie.pt-dlr.de. Federal Ministry of Economics and Technology, Public Relations Department, archived from the original on October 23, 2017 ; accessed on October 23, 2017 . Info: The archive link was inserted automatically and has not yet been checked. Please check the original and archive link according to the instructions and then remove this notice. @1@ 2Template: Webachiv / IABot / www.e-energie.pt-dlr.de 
3. ↑ Smart Watts - EE bus in field tests. In: etz.de. Retrieved October 23, 2017 .