E Fuel Cells and Hydrogen. www.ENERTRAG.com2 Erection and maintenance of energy plants Financing of energy projects Construction and operation of electricity.

Slides:

Advertisements

Similar presentations

SECTIE ENERGIE EN INDUSTRIE The crucial integration of power systems; Combining fossil and sustainable energy using fuel cells Kas Hemmes Lunchlezing 21.

Advertisements

Electrical Engineering Department, Amirkabir University of Technology, Tehran, Iran M. Poursistani N. Hajilu G. B. Gharehpetian M. Shafiei CHP Systems.

© OECD/IEA 2012 Cédric Philibert Renewable Energy Division International Energy Agency Renewable energy technologies, 2030 and beyond: And the winners.

A Probabilistic Method for Sizing of Isolated Wind-Electrolyser Systems Lars Nesje Grimsmo NTNU Magnus Korpås NTNU Terje Gjengedal NTNU/Statkraft Steffen.

The Potential for CHP in the Northeast Provided by the Industrial Energy Consumers Group, 1/18/07 Source: Energy and Environmental Analysis, Inc.

EStorage First Annual Workshop Arnhem, NL 30, Oct Olivier Teller.

1 EERMC Public Meeting on Combined Heat and Power September 17, 2013.

CHP & Fuel Cells at Home. Combined Heat and Power (CHP) aka “Cogeneration”

1 March 2-3, 2015, Bonn Expert workshop Addressing Variable Renewables In Long‐Term Energy Planning (AVRIL) Renewables Energy Integration In Long‐Term.

Introduction to the EnergyPLAN model Henrik Lund Aalborg University Denmark Aalborg University, September October 2005 PhD-course: Energy System Analysis.

Renewable Energies and Climate Protection Policy in Freiburg Dr. Dieter Wörner Director, Environmental Protection Agency City of Freiburg - Germany.

Electricity Supply in Alaska Frank Abegg, PE Fairbanks, Alaska April 2006 Frank Abegg, PE Fairbanks, Alaska April 2006.

Hybrid Power Systems. INTRODUCTION In the last lecture, we studied –Principles of generation of electricity –Faraday’s law –Single phase and 3 phase generators.

Wind-to-Hydrogen Project: Advanced Testing & Results Kevin W. Harrison NREL National Hydrogen Association Long Beach, CA May 4, 2010 NREL is operated by.

Efficient Use of Biogas, Sewagegas and Landfillgas Combined Heat- and Power Generation Schnell Dual Fuel Technology SCHNELL Motoren AG Hugo-Schrott-Straße.

Electricity Generation, Storage and Distribution Technology Presentation Peter Ellwood (HSL)

Efficient Use of Biogas, Sewagegas and Landfillgas Combined Heat- and Power Generation Schnell Dual Fuel Technology Schnell Zündstrahlmotoren AG & Co.

FOR174 _INES B ELECTRICITY STORAGE FOR RENEWABLES NINTH MEETING OF THE COUNCIL – THEMATIC EVENTS 1 FRANCK AL SHAKARCHI ATOMIC ENERGY AND ALTERNATIVE ENERGIES.

Siemens sans siemens sans bold siemens sans italic siemens sans italic bold siemens sans black siemens black italic Siemens Building Technologies.

The National Danish Energy Policy focus on waste and biomass Anders H Kristensen Danish Energy Agency.

E.ON on the Romanian Energy Market ZF Power Summit Bucharest, February 27, 2013 Frank Hajdinjak CEO E.ON România.

IceWind project TFI Annual Conference September 2010 Niels-Erik Clausen Wind Energy Division, Risø DTU.

RES Integration for Increasing of Energy Supply Security in Latvia: ENVIRONMENTAL AND ECONOMICAL FACTORS NEEDS FORUM 2 “Energy and Supply Security – Present.

Demand Response – A New Option for Wind Integration ?

Enable Energy Efficiency Green I.T.: Reduce energy use of I.T. “IT for Green”: Use IT to improve energy use in buildings, transportation, grids, industry.

1 © Alexis Kwasinski, 2012 Kitakyushu smart community.

© Prof. Dr. Georg Erdmann 1 Electricity Systems with High Renewable Energy Shares Prof. Dr. Georg Erdmann TU Berlin; Chair Energy Systems Member of the.

Power transmission and generation politics Mitchell Johnston CBE /27/2014.

Distributed Generation Technologies A Global Perspective NSF Workshop on Sustainable Energy Systems Professor Saifur Rahman Director Alexandria Research.

W. Schufft: Challenges for electrical power engineering IP 2007, Pernink Challenges for Electrical Power Engineering.

Renewable Energy Wind Energy Liang Li Qing Yu Samuel Marin Calvo Department of Technology and Built Environment, University of Gävle, Gävle, Sweden.

Texas Wind Energy American Meteorological Society Summer Community Meeting – Norman Oklahoma Henry Durrwachter, P.E. August 12, 2009.

Folie 1 ICEPAG 2012 > Leucht > Hydrogen Rich Natural Gas as a Fuel for SOFC Systems Florian Leucht, Moritz Henke, Caroline Willich, Christina.

A MAJOR PLAYER IN ENERGY EFFICIENCY AND RENEWABLE ENERGY SOURCES The District Heating Network, the most modern and adapted tool to develop renewable energy.

Pecan Street Project Inc.. Two energy economies ElectricityTransportation Percentage from petroleum: 0.6 percent Percentage not from petroleum: 0.3 percent.

Vienna's Sustainable Energy Policy Climate Protection and Energy Efficiency Climate Protection and Energy Efficiency Dipl.-Ing. Dr. Edgar Hauer City of.

Renewable Technology Integration Dave Mooney October 30, 2009.

Wind Energy Haley Campbell, Alex McManus, and Emma Pollick Pd. 2.

Production of Hydrogen from Renewable Electricity: The Electrolysis Component Workshop on Electrolysis Production of Hydrogen from Wind and Hydropower.

Real life demonstration plant for benchmarking hydrogen technologies Adwin Martens WaterstofNet Sydney, 13 October 2015.

Energy Management and Planning MSJ0210 Energy generation 2 Eduard Latõšov.

Hydrogen Fuel And its place in our future. Some Chemistry 2 H 2 + O 2 2 H 2 O kJ.

CONCERTO Premium Performance indicators of energy supply units Michael Kleber 23 October Brussels.

Marketing of CCP's in Germany - Experience report of a German Company.

Issues of Grid Integration of Renewables : Creative solutions 09/11/2012Mickaël HERVY01 / 11.

1 Basic Concepts on Power Supply Agreement (PSA) Francis Saturnino C. Juan Executive Director Energy Regulatory Commission.

Energy Sustainability, The Challenge for Future Generations John A. Turner National Renewable Energy Laboratory Denver West Pkwy, Golden CO

J. G. Weisend II for the ESS Team Energy Efficiency & Recovery at ESS.

India’s Energy Security: Role of Renewable Energy Amit Kumar TERI, New Delhi.

Energy Transition – Energiewende - in Germany

The STORM Concept Ludwig Karg B.A.U.M. Consult GmbH (Leadpartner)

The amount of electricity produced must always be on the same level as demanded!  Base Load  Intermediate Load  Peak Load Source : http ://

Science A Physics – P1 Science A Physics – P1 Topic 1: Electricity Generation - 3 Topic 1: Electricity Generation - 3.

Powertech Labs Allan Grant Joe Wong 2008 NHA Conference April 1, 2008 Hydrogen, Renewables and a Smartgrid - The HARP Project in British Columbia.

Offshore Wind ENERGY – SUSTAINABLE, ECONOMICAL, sAFE

Uniper Energy Services

Deep Green Energy for the Smart City

RENOVAGAS Project: Power to Methane

Caspian Company مجری پروژه های نیروگاهی ، احداث مولد های مقیاس کوچک و سیستم های CCHP & CHP ohen staufen ring-20- koln – germany.

Project Area Processes and Diagnostics

Hydrogen Production using Wind and Hydro in New Zealand

Presentation by Shreenithi Lakshmi Narasimhan

Opportunities for Hydrogen-Based Energy Storage for Electric Utilities

NS4960 Spring Term, 2018 China: Expanded Renewables

Improving Energy Reliability & Performance

Improving Energy Reliability & Performance

ETIP SNET: The 2050 Vision of Europe’s Energy System

Brandenburg’s Contribution to the “Energiewende” in Germany

Your partner with over 70 years of experience

Presentation transcript:

E Fuel Cells and Hydrogen

Erection and maintenance of energy plants Financing of energy projects Construction and operation of electricity grids Development and controlling of interlaced power stations Technology development Company ENERTRAG is a European IPP specialized in sustainable energy and acting in all areas necessary for power generation.

Figures 900 million € investment over 650 MW installed capacity over 500 erected turbines over 1200 turbines under service and maintenance over 250 million € annual turnover over 1.2 billion kilowatt hours per year 400 employees (140 of them in O&M) 8 trainees

Kraftwerk N-O Brdbrg. ENERTRAG Generation Management Electricity work Hour Fluctuation wind offer Electricity demand Repowering

World‘s first industrial-scale Hybrid-Energy-Plant 500 kilowatts outlined “green” capacity Over one year project development Partnership with University of Applied Sciences in Stralsund, Technical University in Braunschweig and experts from the international hydrogen community Preferred location: Brandenburg, Germany Start of plant operation in the beginning of 2008 Over 4 million € direct investment and over 3 million € research investment Supply of Energy, Heat and Fuel at all times, even if the wind isn’t blowing HYBRID-ENERGY-PLANT

Functional principle HYBRID-POWER-PLAN CHP Heating Grid 3 Turbines Electricity Grid Hydrogen Electrolysis Fuel Mixing valve Variable mixing Storage

HYBRID-ENERGY-PLANT: Project details Technical Specifications: Green Energy: 500 kW from the ENERTRAG-WEC Grid Hydrogen Generation incl.: Alkaline Electrolyser (500kW): load Compression to 30 bar Biomass plant: 625kW Ground storage: Hydrogen: Biogas CHP: 350kW (el.) 155kW (thermal) Fuel: max. 70% Hydrogen, 30% Biogas Main Objectives – First Steps: Development of a Control and Power Conditioning Unit (Software and Hardware) System integration according to specific local conditions Optimization of a standard electrolyser Improvement of system efficiency, reliability and availability Balance of component-sizing Development and optimization of a H 2 /Biomass-CHP Operational: Forecast error compensation Grid Stabilization Peak-Shaving Insured Supply (Availability during calm periods) Economy 7

Gas Injection

Full Energy Supply Biogas Wind Fuel Heat and CookingElectricity Hydrogen Intelligent Energy Mix Wind

Responsible Energy Generation