THE FUTURE OF ENERGY BEGINS IN THE NORTH Specialised information on topics, projects and partners of the joint project NEW 4.0 – Norddeutsche EnergieWende 4.0 CONTENTS

FOREWORD ...... 3

NEW 4 .0 – IMPORTANT FOR THE ENTIRE ENERGY INDUSTRY ...... 5

GRIDS ...... 6

LOAD MANAGEMENT ...... 8

GENERATION MANAGEMENT ...... 10

INFORMATION AND COMMUNICATION TECHNOLOGY (ICT) ...... 12

OTHER TOPICS ...... 14

NEW 4 .0 – PARTNERS ...... 17

LEGAL INFORMATION AND CONTACT DETAILS ...... 19

2 Norddeutsche EnergieWende · NEW 4.0 VORWORT TIME FOR THINGS TO CHANGE FOREWORD

Our energy supply is in urgent need of modernisation. This fundamental restructuring has begun with the energy transition. The increasing development of renewable energies is changing the demands made on the German energy supply system.

The increasing flexibility of energy generation and demand, the rapid expansion of grids and the further development of the current energy market design are important and challenging components of a successful energy transition in Germany. The integration of electricity from renewable energy sources into the energy system, from storage to con- version and load shifting, is increasingly becoming one of the key technical and economic challenges. In addition, there are soft factors such as the architecture of market conditions, the increase in acceptance among the general public and the creation of education and training opportunities to train skilled workers.

The ‘NEW 4.0 – Norddeutsche EnergieWende’ (Northern German Energy Transition) joint project is facing up to all these challenges. For example, in a comprehensive, large-scale practical testing of the system integration of renewable energies, it is linking ‘s

Norddeutsche EnergieWende · NEW 4.0 3 Photo: HAW Hamburg Photo: HAW First gathering of NEW 4 0. partners in June 2017

load centres and those on the Lower Elbe in Schleswig-Holstein with Schleswig-Holstein‘s wind energy generation centres to form one single energy region. The goal of NEW 4.0 is to provide a framework to supply the entire region with 100 percent renewable elec- tricity, safely and reliably, as early as 2035. To this end, generation and consumption will be coordinated through a technology- open shift from a load-driven to a predominantly supply-oriented and flexible energy system with refined market rules.

For the trial phase to be a success, the legal framework must create temporary conditions that permit experiments in ongoing market processes. For this purpose, in May 2017 the Federal Cabinet approved the so-called experimentation clause. The key features of the resulting SINTEG regulation are the exceptional rules to avoid economic disadvantages for project participants as a result of their project activities. Although the regulation is certainly not yet perfect, it allows a gradual implementation of sector coupling.

NEW 4.0 is one of five projects sponsored by the Federal Ministry of Economics and Energy (BMWi) from the end of 2016 to the end of 2020 as part of the “Smart Energy Showcas- es – Digital Agenda for the Energy Transition (SINTEG)” funding programme. Altogether, in the north German showcase around 60 partners have joined up to form an innovation alliance, in order to demonstrate the feasibility of the energy transition within 100 individ- ual projects, of which 25 are demonstrators. With an investment and funding volume of almost 125 million euros, the aim is to showcase the “energy transition business case” in the region and thus present a “blueprint” for the nationwide energy transition.

4 Norddeutsche EnergieWende · NEW 4.0 NEW 4 0. – IMPORTANT FOR THE ENTIRE ENERGY INDUSTRY

The NEW 4.0 project deals with the most pressing topics of the energy transition and is therefore of strategic interest to companies with operations in the field of sustainable energy supply: How can a sustainable energy supply be achieved? How can the challenge of the growing imbalance between generation and load situation be mastered? Which legal and market frameworks need to be adjusted so that the transformation of the energy system can gradually be implemented? How are companies preparing for the upcoming processes?

Stay informed about the NEW 4 .0 network in German language:

> INNOVATION NEW 4.0 is an interdisciplinary and innovative network of around 60 partners in Hamburg and Schleswig-Holstein, covering the entire value chain in the energy sector. With us, you will be part of one of the most innovative and holistic projects for shaping the German energy transition right from the start, and will learn from the project experiences in the joint venture.

> WIDE RANGE OF TOPICS You can read about the knowledge of the partners in 100 project activities, divided into eight topic areas: grids, load management, generation management, information and communications technology, market conditions and regulatory framework, utilisation and acceptance, education and training and holistic system design. We will soon put you in touch with suitable contact persons.

> INFORMATION SERVICE Thanks to a website, a blog, a monthly newsletter, press work and social media channels, you can keep an eye on the NEW 4.0 network and stay up to date with its implementation.

> EVENTS You can regularly take part in our free-of-charge NEW 4.0 events or partner events, where you will have the opportunity to forge contacts or get to know business partners.

The individual topics of NEW 4.0 are explained below. The topics form the work packages of the mega-project, and the 60 or so partners are organized into these work packages. Each work package has a main contact person responsible for the respective topic. After a short explanation of the topic, some examples of projects from the work package will be provided. More information on all the partners and projects can be found at www.eehh.de/new40.

Norddeutsche EnergieWende · NEW 4.0 5 Photo: silkwayrain/iStockphoto

GRIDS

The energy system of the future will be characterised by renewable energy generation plants. This requires, firstly, consistent expansion of the grids and, secondly, greater region- al utilisation of green electricity. The formerly hierarchical electricity grid is being adapted more and more to the altered generation structures and new energy market regulations. In addition there is sector coupling, which must link the electricity grid with the heat and gas grid, so that there too low carbon energy can be employed.

The overall objective in the “Grids” topic area is to find solutions applicable to the chal- lenges facing today’s energy grids. In the NEW 4.0 project, therefore, efforts are being made to simplify the system integration of renewable energies and the interaction of the various players at all levels of the grid. To this end, grid operators need greater real time transparency on the status of their grids. This is necessary in order to show them possible ways of finding solutions to the urgent issues through new forms of grid operation – and through the support of market players.

Electricity grids connect producers and consumers with each other. This responsibility makes the “Grids” work group the contact point for all use cases and work groups. It checks new ideas for their feasibility and supplies the data necessary for this purpose. The grid operators involved in the work group are particularly important input providers and partners.

6 Norddeutsche EnergieWende · NEW 4.0 EXAMPLES OF PROJECTS FROM THE “GRIDS” TOPIC AREA

PROJECT PARTNERS IN THE SPOTLIGHT

ENKO – the con- Schleswig-Holstein The “intelligently coordinating energy (ENKO)“ concept is cept for impro- Netz AG intended to give local, cross-sector flexibilities the power to use ving integration renewable electricity for reducing grid bottlenecks. In specific of green power ARGE Netz GmbH terms, Schleswig-Holstein Netz AG devised the ENKO concept in into the grid & Co. KG collaboration with ARGE Netz GmbH and planned the imple- mentation of the ENKO coordination platform. This platform Das Fraunhofer- allows providers to make their flexible loads available, which in- Institut für Energie- crease local consumption and thus help reduce feed-in manage- wirtschaft und ment. Thus, with the ENKO platform, in periods of high green Energiesystem­ power input additional local consumption can be used to reduce technik (IEE) or even completely avoid impending grid bottlenecks. The capac- ities for achieving this are being developed in collaboration with the Fraunhofer Institute for the Energy Economics and Energy System Technology (IEE). Grid impedance Helmut-Schmidt- Grid impedance reflects the combined characteristics of all measurement Universität equipment, consumers and power producers connected to the of renewable grid. Hence, as a result of the increased share of renewable energies in the Stromnetz Ham- energy and the rise in consumption, a significant change in the distribution burg GmbH grid impedance, which is dependent on frequency, is also to be grid expected. The Helmut Schmidt University (HSU) will perform grid impedance measurements at 10 kV and 110 kV levels and investi- gate the influence of renewable energy input, consumer man- agement and different grid constellations on grid impedance. Stromnetz Hamburg (SNH) will agree on subsequent steps with HSU and carry them out. SNH will participate in the measure- ments as distribution system operator (DSO). Prediction TenneT TSO GmbH This project focuses on improved integration of wind power into optimisation the electricity transmission networks and the energy system as a for markets whole. New data sources and innovative big data technologies and system are to be used for improved forecasting. In addition, load and management storage use forecasts are to be improved or created in order to ensure sufficient system transparency even in an increasingly transformed energy system. The aim is to achieve easier technical system management and an optimised, and thus more cost-ef- fective marketing of renewable energy. TenneT ist participating as transmission system operator (TSO). Dynamic Stadtwerke This project examines what potential is available for flexibility electricity tariff Norderstedt in the use of surplus electricity in the residential sector. Dynamic, for residential supply-dependent tariffs are being developed to boost previous- customers ly unused potential. The aim of the activities is to create a tariff model that manages the storage, transfer and avoidance of elec- tricity in domestic applications through prices based on times and events. This control task is to be carried out using a dynamic electricity tariff as a market-based tool, in collaboration with producers, transmission system operators and distribution system operators.

> More information in German Language about the “grids” topic and other projects of our partners can be found at www.eehh.de/new40.

Your NEW 4 .0 contact person for the “Grids” topic

Jan Gratenau Schleswig-Holstein Netz AG Schleswag-HeinGas-Platz 1 25450 Quickborn [email protected]

Norddeutsche EnergieWende · NEW 4.0 7 Photo: EEHH GmbH Factory premises, ArcelorMittal Hamburg GmbH

LOAD MANAGEMENT

The projects of the “Load Management” work package are the powerhouse of NEW 4.0. It is under this umbrella that the operators of facilities allocated to the consumer side are organised. With the aid of the individual demonstrators, they provide the various load flexibilisation and storage options.

These include, for example, “power-to-heat” systems for heat generation. In these systems, the electricity taken from the grid for a short time usually replaces a fossil fuel. Demonstra- tors for flexibilisation of industrial production processes in terms of time and performance will compensate for fluctuating renewable energy generation, positively or negatively.

By the end of the project in 2020, a quickly adjustable potential for electrical load transfer in the two-figure to lower three-figure megawatt range is to be made available both for sector coupling and for unburdening the grid.

The objectives in this topic area are therefore identifying, modelling and supplying suitable loads. In addition, the practical requirements for structuring the legal framework governing the use of these systems and for IT integration are dimensioned and coordinated with the requirements of the distribution and transmission system operators.

More information in German language about the “Load management” topic as well < as other projects and details of our partners can be found at www.eehh.de/new40.

8 Norddeutsche EnergieWende · NEW 4.0 EXAMPLES OF PROJECTS FROM THE “LOAD MANAGEMENT” TOPIC AREA

PROJECT PARTNERS IN THE SPOTLIGHT

Time shift for ArcelorMittal The aim of the “Time shift“ subproject is to evaluate, test and an electric arc Hamburg GmbH implement adaptations of the melting capacity of an electric furnace arc furnace in response to the conditions on the electricity market. In the “Time shift” activity, optimal operating points for load-flexible operation of the electric arc furnace are to be defined by means of calculations, comprehensive test campaigns and subsequent evaluations. Arcelor-Mittal plans to make a flexibility of approx. +/- 10 MW available with the project. In the three-phase electric arc furnace, scrap and sponge iron are melted down with an average electrical melting capacity. This meltdown is a complex process that is dependent on a variety of parameters. The electrical power can be varied by setting various parameters, which are mainly the voltage and current of the arc. The aim of the first activity is to vary the operating point of the electric arc furnace. These operating points are then to be in- tegrated into the process automation, so that at the end of the project period the new load flexibility can be used in response to external signals. Feed-in Stadtwerke The Flensburg public utility company operates a block heating management Flensburg GmbH plant in the Tarp cogeneration facility, which is shut down by the meets electric upstream network operator for around 2,000 hours per year for heaters wind related feed-in-management measures.. During these times, the district heating supply is partially safeguarded by operating an oil boiler. The new electric boiler with an installed capacity of 800 kW is designed to convert surplus electricity – mainly from renewable energies – into heat that can be stored and fed into the Tarp district heating network. The new system is designed to respond to fluctuating power supply within seconds, thus help- ing to keep a stable balance between supply and demand within the grid. By using this demonstrator, therefore, the shutdown of renewable energy systems and the burning of heating oil can be avoided at the same time. Likewise, the distribution network is unburdened and CO2-free district heat is produced – a real win- win situation for the environment, district heating customers and the power grid. “Karoline” Vattenfall Wärme In Hamburg‘s Karolinenviertel district, Vattenfall traditionally op- power-toheat Hamburg GmbH erates an electric boiler that is integrated into Hamburg‘s district electric boiler heating system (the “Karoline“). Now, with a new electrode boiler, and flow two flow heaters to be operated for the Allermöhe and Burg- heaters wedel- island networks, and modern control technology, the heating sector is to be integrated into the electricity sector (power-to-heat). The facilities will use an oversupply of electricity from renewable energy plants while simultaneously reducing the existing heat generation capacity, in order to sustainably and systematically generate heat, which will then be made available to the Hamburg district heating system and the two island net- works in Hamburg. After completion, the Karoline electric boiler will have a capacity of approx. 45 MW; the flow heaters will have capacities of 1,000 kW and 500 kW respectively.

Your NEW 4 .0 contact person for the “Load management” topic

Klaus Schweiniger Trimet Aluminium SE Aluminiumstraße 21129 Hamburg +49 (0)40 29150-520 [email protected]

Norddeutsche EnergieWende · NEW 4.0 9 Photo: Wind to Gas Energy GmbH & Co. KG Battery storage power plant, Wind to Gas Energy

GENERATION MANAGEMENT

The work package “Generation management: storage facilities and system services” inves- tigates, analyses and tests the technical properties of generating and storage facilities, in order to model and test innovative and marketable concepts. The aim here is to safeguard supply reliability when the availability of renewable energies in the region is 100 percent. Current and future markets are to be made more flexible by coupling with the heating and mobility sectors. Good coordination between producers and consumers can be condu- cive to savings in grid expansion and reduce generation capacities in reserve.

In addition to maintaining reliability of supply, the provision and further development of system services, especially from wind power plants, is an overriding goal. Another cen- tral topic is the connection of the demonstrators on the consumer side to a smart market so that energy and various system services can be handled both regionally and between regions.

10 Norddeutsche EnergieWende · NEW 4.0 EXAMPLES OF PROJECTS FROM THE “GENERATION MANAGEMENT” TOPIC AREA

PROJECT PARTNERS IN THE SPOTLIGHT

Multi-MW Wind to Gas Energy Wind to Gas Energy GmbH & Co. KG is planning a hybrid storage hybrid storage GmbH & Co. KG project: an electrolyser and battery accumulator are to be con- project Bruns- nected directly to wind turbines in the surrounding area. With büttel a peak output of 2.5 MW, 450 Nm³ of hydrogen can be pro- duced per hour. The hydrogen produced is fed into the city‘s gas network, but is also intended to be used by other customers, for example at gas filling stations. The objectives of the project are, on the one hand, providing system services through a multi-MW battery storage facility and, on the other, innovative marketing of wind power in the electricity and gas accounting circuit. Haurup H2 Energie des This project consists of constructing an electrolyser (1.25 MW project – green Nordens GmbH electric, 225 Nm³/h hydrogen) for combining the electricity, gas, hydrogen from & Co. KG heat and mobility sectors and simultaneously integrating them excess wind into the system network. If possible, the plant is to be operated power with surplus, renewably produced wind power in order to demonstrate how energy grid shutdowns work can be used pur- posefully. The plant is to be used for feed-in (admixture) into the existing gas pipeline network, and for constructing and operating a hydrogen filling station. Analysis M.O.E. GmbH – The aim is the creation of wind turbine models and especially and creation Moeller Operating wind farm models for dynamic simulations in grid studies. It is of dynamic Engineering GmbH intended to create models that are as simplified as possible and simulation which reflect the electrical properties of the wind farm at the models to grid connection point. These models are designed to be used in determine large network studies and, if possible, to include results from system services plant certifications. required in the future Power control Vattenfall Europe A power control plant with lithium ion storage, with an expected plant with Innovation GmbH capacity of about 0.8 MWh and 0.7 MW electrical output, is to storage in Ham- be installed and operated in Hamburg-/Curslack as burg-Curslack Nordex SE part of a practical test. The participating companies and universi- ty want to develop operational management and control models HAW Hamburg for it, from which they aim to derive control algorithms which can be analysed and evaluated in simulations and practical tests. The link-up between the Hamburg-Curslack wind farm and the battery storage facility is designed to create a power control plant that focuses on the integration of control technology into wind farms, contributing to system stability and controlled energy use.

> More information in German language about the “Generation management” topic as well as other projects and details on our partners can be found at www.eehh.de/new40.

Your NEW 4 .0 contact person for the “Generation management” topic

Prof . Dr . Holger Kapels Fraunhofer-Institut für Siliziumtechnologie (ISIT) Fraunhoferstraße 1 25524 Itzehoe +49 (0)40 82117-4302 [email protected]

Norddeutsche EnergieWende · NEW 4.0 11 Photo: MF3d/iStockphoto

INFORMATION AND COMMUNI­ CATION TECHNOLOGY (ICT)

The partners working on the “ICT” package explore solutions for all parts of the project. This technology forms the “brain” and “nerve pathways” of future energy systems. In an intelligent energy system, decisions are made in real time by distributed software (the decentralised brain), which receives its information via the data connections (the nerve pathways) from a number of various systems.

A solution approach: the “energy platform”. This platform is a universal marketplace (smart market), combined with direct management of the systems. It enables “fully auto- matic trading” between equals, and is to be achieved by means of a blockchain. Among the applications for which the platform can be used is the “local short-notice intraday”. Here, consumers can obtain electricity directly from certain regional products, in other words, locally. “Short-notice” can mean trading one minute before supply. In this way, use can be made of available renewable energy which would otherwise have to be switched off. The platform is open to all market actors and accessible to other interested parties from outside the NEW 4.0 group.

More information in German language about the “ICT” topic as well as other projects < and details on our partners can be found at www.eehh.de/new40.

12 Norddeutsche EnergieWende · NEW 4.0 EXAMPLES OF PROJECTS FROM THE “ICT” TOPIC AREA

PROJECT PARTNERS IN THE SPOTLIGHT

Energy Hamburg Energie The EnergiePlattform enables market-based initiatives for greater platform GmbH und use of renewable energies and simultaneous system stabilisation PONTON GmbH to become reality. An exchange of information with the network operators – called bidirectional network transparency – ensures that the market-based trading benefits the network. If supply and demand match a “flexibility“ in the marketplace blockchain, a digital contract directly results in correct control of the systems. This applies to producers, consumers and storage providers. As a flexibility manager and energy supplier, Hamburg Energie is trying to bring Cogeneration, Power-to-X, Storage, PV and other virtual power plants together in a common network, in order to optimise operations and lift market entry barriers, especially for small virtual power plants. In addition to virtual power plant concepts, the blockchain technology is employed as a commu- nication and organisation technology. The partner organisation PONTON is a pioneer of blockchain technology. Smart meters/ e.kundenservice Smart meters and intelligent measurement systems provide the intelligent Netz GmbH essential basis for adapting consumers even more precisely to measurement renewable energy production and the grid situation. The partner systems organisation e.Kundenservice Netz – an established German smart meter gateway administrator – is investigating how such intelligent measurement systems can provide market and net- work services. This is related to other work, such as that of the public utility company Stadtwerke Norderstedt, which is investi- gating tariff models for smart meters and control boxes, with energy monitoring by their partner cbb software GmbH, or other research work on energy efficiency of ICT infrastructures by partner organisation WiE/FH Lübeck. Telecontrol and Nordex SE Wind turbines in particular offer a multitude of possibilities not system services only to generate renewable energy but also to support the energy system. This is achieved by means of ICT. Nordex is inves- tigating how to provide high-availability system services using its turbines and wind farm software. The basis for this includes uniform data points and telecontrol protocols – the main focus being on the OPC UA protocol (IEC62541). This work has inter- ­faces with the activities of partner organisation Fraunhofer IWES, which is concerned with the prequalification of renewable energy plants, and also the work on standardisation by partners HAW and Fraunhofer ISIT. ICT security Universität The University of Hamburg researches and develops security Hamburg concepts for communication in intelligent energy networks. The development of the security concept involves pursuing a holistic approach, which takes into account the technical requirements, the needs of the stakeholders, and the legal and industry-specific specifications. It thus contributes to the further development and reliable operation of renewable energy systems. Among the concepts being developed is a key and certificate management system to safeguard the integrity and authenticity of the de- centralised components and of their communication with each other.

Your NEW 4 .0 contact person for the “ICT” topic

Onnen Heitmann Hamburg Energie GmbH Billhorner Deich 2 20539 Hamburg +49 (0)40 334410-60105 [email protected]

Norddeutsche EnergieWende · NEW 4.0 13 OTHER TOPICS

Besides the implementation of the research projects, the NEW 4.0 consortium deals with topics involving important, non-technical factors. The principal concerns here are the regulatory framework, ensuring acceptance of the project, the B2B-utilisation of the project results and the creation of training opportunities. Photo: Nele Neubauer Get-together at the NEW 4 0. consortium meeting in December 2017

MARKET CONDITIONS AND REGULATORY FRAMEWORK

The primary aim of this work package is to develop proposals for the structure and legal form of an electricity market 2.0. based on SINTEG. To this end, the reg- ulation of the power transmission and distribution grids, the design of the elec- tricity market and the funding mechanisms of renewable energies are examined in terms of their future viability, effectiveness and efficiency. The examination is based on market, economic and legal criteria.

Furthermore, within this work package the topic-specific activities of the consortium partners when carrying out the SINTEG projects are monitored in order to gain insights for the further development of the legal framework. Additionally, as a first step, the legal wording of the SINTEG experimentation clause, which is essential for testing the energy transition in the NEW 4.0 project, will be backed up scientifically in cooperation with the consortium partners and the other SINTEG project members.

14 Norddeutsche EnergieWende · NEW 4.0 As a second step, the existing obstacles for each individual field of application within the current legal framework will be examined, and proposals drawn up for improvements in order to achieve the goals of NEW 4.0 in the long term.

> More information in German language about the “Market conditions and regulatory framework” topic as well as other projects and details on our partners can be found at www.eehh.de/new40.

Your NEW 4 .0 contact person for the “Market conditions and regulatory framework” topic

Prof . Dr .-Ing . Hans Schäfers HAW Hamburg Am Schleusengraben 24 21029 Hamburg +49 (0)40 42812-5895 [email protected]

UTILISATION AND ACCEPTANCE

The primary goal is to effectively communicate the results and individual implemen- tation steps of the project to the general public. This goal is being pursued in three different working sectors. The aim of the first sector is to communicate the project results and promote their economic utilisation. In this B2B marketing project work, the focus is on establishing a regional network of players. This is to be achieved by organis- ing events, participating in trade fairs and strong online communication via the dedicated NEW 4.0 portal.

A second sector is concerned with promoting acceptance by the general public, media and multiplicating actors in the project region, which is to be achieved through extensive media work, comprehensive information material and a roadshow. The third sector is focused on project-related acceptance research, and conducts several surveys to determine the extent of the impact the NEW 4.0 project has on public trust in, and society’s accept- ance of, the development of a new energy system, and what impact factors are involved.

> More information in German language on the “Utilisation and acceptance” topic as well as the partners involved can be found at www.eehh.de/new40.

Your NEW 4 .0 contact person for the “Utilisation and acceptance” topic

Jan Rispens Erneuerbare Energien Hamburg Clusteragentur GmbH Wexstraße 7 20355 Hamburg +49 (0)40 694573-11 [email protected]

Norddeutsche EnergieWende · NEW 4.0 15 EDUCATION AND TRAINING

The energy transition requires new technologies and innovative solution approaches. This results in new challenges for specialists. The aim of this work package is to meet the training needs of the energy transition by providing precisely tailored further training courses, in order to prevent a shortage of specialists. To this end, interviews are conducted with the consortium partners and similarly oriented companies. The aim is to close the gaps in further training, and develop and implement commercial and academic further training provision within the project network using the results of these interviews and the findings from the technical work sectors of NEW 4.0.

> More information in German language on the “Education and training” topic as well as other projects and details on our partners can be found at www.eehh.de/new40.

Your NEW 4 .0 contact person for the “Education and training” topic

Prof . Dr . Jens-Eric von Düsterlho HAW Hamburg Berliner Tor 5 20099 Hamburg +49 (0)40 42875-6941 [email protected]

HOLISTIC SYSTEM DESIGN

This part of the work package involves supporting the field tests and analysing the system changes resulting from a large-scale rollout of the demonstrators and use cases tested in NEW 4.0. The aim is to create a simulation system that analyses the project parameters of the NEW 4.0 demonstrators, transfers them to a model, and then uses simulations to examine and analyse their potential impact in the context of the use cases. Furthermore, for various scenarios the effects of the rollout of the demonstrators within the model region are to be simulated. The anticipated result is an extendable and scalable model with which various simulation scenarios and populations can be examined and economic and ecological effects assessed.

> More information in German language on the “Holistic system design” topic as well as other projects and details on our partners can be found at www.eehh.de/new40.

Your NEW 4 .0 contact person for the “Holistic system design” topic

Prof . Dr .-Ing . Hans Schäfers HAW Hamburg Am Schleusengraben 24 21029 Hamburg +49 (0)40 42812-5895 Hans.Schaefers(@)Haw-Hamburg.de

16 Norddeutsche EnergieWende · NEW 4.0 NEW 4 .0 – PARTNERS

TOPICS

SPONSORS ArcelorMittal Hamburg GmbH x ARGE Netz GmbH & Co. KG x x Aurubis AG x cbb software GmbH x Coulomb GmbH x e.kundenservice Netz GmbH x Energie des Nordens GmbH & Co. KG x EnSpireME GmbH i. G. x Erneuerbare Energien Hamburg x Clusteragentur GmbH Fachhochschule Lübeck/WiE x x x Fraunhofer-Institut für Silizium- x x x technologie (ISIT) Fraunhofer-Institut für Energiewirt- x x x schaft und Energiesystemtechnik (IEE) Hamburg Energie GmbH x x x HanseWerk Natur GmbH x Helmut-Schmidt-Universität x Hochschule Flensburg/WETI x Hochschule für Angewandte Wissen- x x x x x x x schaften Hamburg/CC4E HWK Hamburg/Elbcampus Hamburg x x M.O.E. GmbH x Nordex SE x x PONTON GmbH x Sasol Germany GmbH x Schleswig-Holstein Netz AG x x x Siemens Wind Power GmbH & Co. KG x Stadtwerke Flensburg x Stadtwerke Norderstedt x x Stiftung Umweltenergierecht x Stromnetz Hamburg GmbH x x Technische Universität Hamburg x TenneT TSO GmbH x x x Trimet Aluminium SE x Universität Hamburg x x x Vattenfall Europe Innovation GmbH x Vattenfall Wärme Hamburg GmbH x x Wind to Gas Energy GmbH & Co. KG x Worlée Chemie GmbH x

Norddeutsche EnergieWende · NEW 4.0 17 TOPICS

ASSOCIATED PARTNERS Behörde für Umwelt und Energie (BUE) der Freien und Hansestadt x x Hamburg Behörde für Wirtschaft, Verkehr und Innovation (BWVI) der Freien und x x Hansestadt Hamburg Danfoss A/S x dezera GmbH x egeb Wirtschaftsförderung x Eisenbahnbauverein eG x EKSH – Gesellschaft für Energie und x x Klimaschutz Schleswig-Holstein GmbH Energiespeicher Nord GmbH & Co. KG x Flughafen Hamburg GmbH x Institut für Wärme und Oeltechnik x e. V. (IWO) Hamburg Port Authority AöR x Hamburg Wasser x x Handelskammer Hamburg x x IHK Schleswig-Holstein x x Industrieverband Hamburg e. V. x x mdex AG x Ministerium für Energiewende, Landwirtschaft, Umwelt, Natur und x x Digitalisierung des Landes Schles- wig-Holstein (MELUND) Ministerium für Wirtschaft, Verkehr, Arbeit, Technologie und Tourismus x x (MWVATT) Regionale Kooperation Westküste x Stadtwerke Lübeck GmbH x Steinbeis Energie GmbH x Vattenfall Energy Trading GmbH x

Your NEW 4 .0 contact person for B2B-Marketing

Hanna Naoumis Erneuerbare Energien Hamburg Clusteragentur GmbH Wexstraße 7 20355 Hamburg +49 (0)40 694573-15 [email protected]

18 Norddeutsche EnergieWende · NEW 4.0 LEGAL INFORMATION AND CONTACT DETAILS

PUBLISHER: Erneuerbare Energien Hamburg Clusteragentur GmbH Wexstraße 7 / 20355 Hamburg Tel.: +49 (0)40 694573-10 / Fax: +49 (0)40 694573-29 www.eehh.de/new40 Legally responsible for content: Jan Rispens Published for NEW 4.0 GbR Alexanderstraße 1 20099 Hamburg Design: eigenart grafik und idee Title photo: www.mediaserver.hamburg.de/Christian Spahrbier Printed by: RESET ST. PAULI Druckerei GmbH Print run: 250 As at: 02/2018

Norddeutsche EnergieWende · NEW 4.0 19 www .eehh .de/new40