LESZEK DROGOSZ COGENERATION OF POWER AND HEAT IN WARSAW Warsaw, as both the capital city of Poland and its largest metropoly (1.7 million, agglomeration.

Slides:

Advertisements

Similar presentations

AVOIDED CO 2 EMISSION IN CO-FIRING Marek Sciazko Ph.D. Institute for Chemical Processing of Coal (IChPW) 1 Zamkowa Str., Zabrze, Poland tel.: +

Advertisements

Dokumentname > Folie 1 > Vortrag > Autor Potentials for Renewables in Europe Wolfram Krewitt DLR Institute of Technical Thermodynamics Systems.

BIOMASS FUTURES: Bioenergy Use in the EU Member States – Cumulative Projections from the NREAPs and the associated implications Bogdan ATANASIU

Energy policy and its implementation in Estonia Renewable energy Madis Laaniste, Energy Department.

District heating year District heating and cooling 2013 Heat sales (incl. taxes)2 330 mill. Sold heat energy31,6 TWh Average price of.

Biomass Cogeneration in ASEAN, GHG Mitigation Potential and the Barriers Dr. Ludovic Lacrosse, Arul Joe Mathias EC-ASEAN COGEN Programme UNIDO Expert Group.

COPYRIGHT © 2014 MITSUBISHI ELECTRIC EUROPE B.V. ALL RIGHTS RESERVED.

Strategies for power generation in Cyprus Dr. Andreas Poullikkas Electricity Authority of Cyprus 0 Workshop on Co-generation of Electricity and Desalinated.

Rainer Friedrich, Sandra Torras Ortiz, Ganlin Huang Institute for Energy Economics and the rational Use of Energy – University Stuttgart, Germany Jouni.

Lignite Project By Ramic, Haris. GLOBAL OUTLOOK FOR ENERGY World energy consumption is projected to increase at about 1.8%/year between 2000 and 2030(driven.

Cogeneration Facility The University of North Carolina at Chapel Hill Cogeneration Systems Energy Services Department Phil Barner- Cogeneration Systems.

 Efficient Vehicles  Reduce Use of Vehicles  Efficient Buildings  Efficient Baseload Coal Plants.

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

Mitigation Strategies Review LP Mitigation Strategy #1: Transportation Efficiency A car that gets 30 mpg releases 1 ton of carbon into the air.

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

Neeharika Naik-Dhungel, EPA CHP Partnership Program Central Pennsylvania AEE Meeting January 26, 2012 Combined Heat and Power: CHP Partnership and the.

Alternative Energy. Fossil Fuels Fossil fuels are a very efficient way to produce energy! However… – Burning Fossil fuels creates POLLUTION. – Coal mining.

COGENERATION Allison M. Selk 12/8/04 CBE 562.

Euroheat & Power Why is there not more combined heat and power?

Combined Heat and Power ITT experience in Coal Technologies Andrzej Ziębik Institute of Thermal Technology, SUT.

Some aspects of energy efficiency and energy conservation in buildings Dorota Chwieduk Department of Eco-Building Engineering Institute of Fundamental.

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

City of Munich Department of Health and Environment Urban Strategies to reduce CO 2 Emissions by 50 % by 2030 (i.e. by 10 % every five years) Case Study.

Bellringer. Alternative Energy -To achieve a future where energy use is sustainable, we must make the most of the energy sources we already have and develop.

Energy year 2013 District Heat Wilhelms District heat in Finland year 2013  Heat sales (incl. taxes) 2,31 mrd €  Sold heat energy31,7 TWh.

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

UK Renewable Energy Policy with particular reference to bioenergy

Renewable EnergySection 2 Bellringer. Renewable EnergySection 2 Alternative Energy To achieve a future where energy use is sustainable, we must make the.

SUSTAINABLE CITIES – AN INTEGRATED SOLUTION TO A GLOBAL CHALLENGE.

Co- and Poly- generation Martin Hannemann Andi Prah Nuri Feichtinger Paul Polterauer.

© Oxford University Press 2011 IP Energy from waste Energy from waste.

Renewable EnergySection 2 Alternative Energy To achieve a future where energy use is sustainable, we must make the most of the energy sources we already.

No energy wasted Example of an energy strategy in urban areas Brussels, 22nd June 2006.

1 5.2 Low-energy strategies for the European Union Katharina Koch Manuela Steiner Barbara Unterrainer.

Eco-efficiency and EU legislation. Eco-efficiency in cities What kind of urban sprawl What kind of architecture What kind of transport What kind of waste.

Spain: Can we give up any of the primary energy sources? Alejo Vidal-Quadras Roca Vice-President of the European Parliament Member of the Industry, Energy.

Brussels, Dec 1, Making an inefficient energy system in Europe more efficient Sven Werner, professor Halmstad University, Sweden Partly based on.

Overcoming Vancouver’s District Energy Barriers Renewable Cities Forum May 14, 2015.

EC BREC 1 The Regional REEEP Meeting, 3-4 July, Szentendre 2003 Status of policies and financial mechanisms to promote RES in Poland Magdalena Zowsik.

Cranbrook A zero carbon case study 10 th July 2012 Mike Wood Centre for Energy and the Environment.

Earth’s Changing Environment Lecture 15 Energy Conservation.

Renewables: can they deliver? Jorgen Mads Clausen CEO of Danfoss Chairman of Danish Energy Industries Federation European Business Summit Greening The.

District heating year District heating and cooling 2014 Heat sales (incl. taxes)2350 mill. € Sold heat energy31,3 TWh Average price.

ENERGY AGENCY LITHUANIA Perspective for the EU Structural Assistance to the Energy Projects in Lithuania for the period Marijus Franckevičius.

1 Cogeneration in the Forest Products Industry January 2008 by Phil Zirngibl.

Solar Energy. Energy Sources Of The Earth Pros about solar energy  We use that kind of energy because it will never end  It‘s environmental friendly.

Chapter 13 Renewable Energy and Conservation. Overview of Chapter 13  Direct Solar Energy  Indirect Solar Energy  Wind  Biomass  Hydropower  Geothermal.

Update on methodological work within UNFCCC and future outlook Workshop on CDM Methodologies and Technical Issues 3 rd December, 2005 Montreal, Canada.

1 Norwegian experiences with renewable energy in the district heating sector and industry International training conference on RES, Gdansk November.

Alternative Energy and Conservation

Energy year 2014 District Heat.

ENTER+ ENTER+ METZ - FRANCE 25th -26th November 2010 AGORÁ Società Cooperativa a r.l. Via Copernico, Senigallia (AN) tel. & fax

By Iyus Rusmana. Cogeneration  Cogeneration, also known as Combined Heat and Power, or CHP, is the production of electricity and heat in one single process.

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

WARSAW'S CURRENT AND UPCOMING PROJECTS RELATED TO BUILDING EFFICIENCY AND DISTRICT ENERGY Marcin Wróblewski Chief Specialist in Infrastructure Department.

Jyväskylä’s energy use in 2012 ● The consumption of energy was 12 % lower than in 2010 ● Energy was mainly used in traffic and district heating ● The main.

London 2062 Symposium London’s Energy Future Peter North 19 th March 2012.

Heat Plan Denmark Low Carbon Urban Heating Anders Dyrelund, market manager Rambøll Denmark.

SINTEF Energi AS CenBio and Bioenergy Research at SINTEF Lars Sørum Research Director/Dr. ing. SINTEF Energy Research CenBio – Centre Coordinator.

WARSAW'S HISTORY OF IMPLEMENTING ENERGY SYSTEMS, BUILDINGS EFFICIENCY AND RELATED PROJECTS Leszek Drogosz Director of Infrastructure Department of Warsaw.

Clean Power Purchasing Meeting April 24, H OW S UPPLY D E - CARBONIZATION F ITS I N City Deep Decarbonization Goals Electricity and Combustion Emissions.

Energy year 2015 District Heat.

JP Elektroprivreda BiH d.d. – Sarajevo

Mitigation Strategies Review

Mitigation Strategies Review

Success with Biomass CHP in Saint Paul

Energy Conservation CERD /12/2017

District heating in Finland 2017

2006 Energy Consumption By Sector * Coal Petroleum Natural Gas Biomass Hydro Nuclear Other Electric Power Sector**

Presentation transcript:

LESZEK DROGOSZ COGENERATION OF POWER AND HEAT IN WARSAW Warsaw, as both the capital city of Poland and its largest metropoly (1.7 million, agglomeration up to 3 million) realizes importance of challenges about tackling climate change we face. We are trying to improve energy efficiency, popularize vehicles with alternative propulsions and introduce renewable energy sources. Another, sometimes underappreciated method to improve energy efficiency and reduce GHG emissions is cogeneration of heat and power.

PRODUCING POWER AND HEAT IN COGENERATION The Warsaw district heating system uses heat from combined heat and power plants (CHPs). Waste heat, produced in the power plants during the production of electricity, is usually treated as a waste and sent to nearby water reservoirs. Using cogeneration leads to reduction of coal consumption of 30-37% compared to separate production of the same amount of heat and power. Co-generation gives our city extra 3,5 TWh of energy. If not for this, separate production of heat and electricity would lead to additional emission in Poland of 2 mln t CO 2 a year! Heat Plant Losses Fuel Power Plant CHP Fuel

THE CENTRAL HEATING SYSTEM IN WARSAW CHPs Siekierki and Zeran produce 3640 MWt of heat and 970 MWe of power, while heat plants Kaweczyn and Wola 930 MWt of heat One of the largest such systems in Europe (1700 km of main pipes) Heat Plant Wola CHP Zeran Heat Plant Kaweczyn CHP Siekierki B G T

RENEWABLE ENERGY FROM BIOMASS RES make cogeneration of heat and electric energy more pro- environmental: due to projects being implemented in Warsaw area (modernization/extension of Zeran CHP, biomass combustion installation in Siekierki CHP and complete conversion of Pruszkow CHP to biomass) we envisage reaching the following biomass shares in combusted fuel: 2009 r.: 2% 2015 r.: 11% 2020 r.: 15%.