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Barbara Rogosz Cluster-Dialog Germany-Poland (CDDP) Final Workshop Kassel 11.09.2009 CLUSTER for power generation and energy utilization in mega- and nano-scale The Cluster was established in 2007 by the Wrocław University of Technology CLUSTER AIMS • Cooperation between science and industry • Development of innovation techniques of energy generation in mega- i nano-scale • Education activities in power technologies • Integration of universities, industry and local authorities • Acceleration of knowledge transfer and innovation between industrial, business and science as well as acceleration of Silesian society development • Communication platform http://www.klaster-energia.wroc.pl E-mail: [email protected] Cluster’s addressee benefits Citizens Industry City Scientists Economy CLUSTER Region Students ? Members of the Cluster Within the structure of the Cluster there are 16 industrial partners , 4 Universities and municipality of Wrocław Wrocław University of Technology The Silesian University of Technology Warsaw University of Technology Opole University of Technology Municipality of Wrocław ABB Ltd. Warszawa- Ltd BIAP Ltd. Wrocław PGE BOT Turów Power Plant Energetyka Rokita Ltd. with head office in Brzegu Dolnym ENEA Kozienice PP KGHM POLSKA MIEDŹ S.A. With head office in Lubin KGHM CUPRUM ltd. Wrocław „POLTEGOR – INSTITUTE” – Mining Institute, Wrocław IASE Institute of Energy System , Ltd. Wrocław CHP-Południowo Zachodnia Grupa Energetyczna Ltd. Wrocław CHP-Przedsiębiorstwo Energetyki Cieplnej Ltd., Jelenia Góra CHP-Wojewódzkie Przedsiębiorstwe Energetyki Cieplnej Ltd. ( CHP) Legnica Wrocławski Park Technologiczny, Wrocław MicroTech Ltd. Wrocław Vattenfall Heat Poland S.A. Warszawa VULCAN POWER Ltd., Wrocław Cluster’s organisation Cluster COMMUNITY OF KNOWLEDGE AND INNOVATION Council Steering board Industrial partners Project’s liders Experts Consortium Research institutes Universities GR1 GR2 GR3 GR4 GR5 GR6 GR7 GRn GR = WorkGroup The fields of potential cooperation • utilization of alternative energy sources : geothermal, photovoltaic, biomass, waste biomass • Potential of solid and liquid biomass ; utilization of biomass and waste biomass to production of high quality of fuel and energy • Combustion of biomass in small and medium size boiler - optimization of burnout and emission, certification and Co-combustion of biomass in existing Power &Heat Plants – with high share of biomass • Micro CHP (Micro combined heat and power) • Lignite pre-treatment: UC gasification, Lignite pre-drying etc. • Clean coal technology: - Gasification of coal for hydrogen production - Zero-emission technologies – oxy- fuel, capture technology of CO2 sequestration and storage CO2 hydrates • Waste management • Audits, intelligent management of heat energy demand and supply • Ceramic fuel cell „Poltegor-Institute” Institute of Opencast Mining „Poltegor Institute is a research and development unit with over 50 years history. Institute employees 76 persons: 2 professors, 18 doctors of technical and natural sciences, (58 employees with higher education) Poltegor Institute interdisciplinary teams has access to 11 laboratories, 4 authorized including Laboratory for Research and Diagnostics of Machines and Devices Laboratory for Chemical Research on Water Laboratory for Research on Well Filters Laboratory for Research on Rock Mass Seismic Our current projects Mechatronical systems for technological processes control and enhancement of large machines exploitation safety Infiltration biochemical preservation and rehabilitation of in-soil-water zones at municipal water intakes Propositions of new bilateral cooperation projects Underground and surface gasification of brown coal Revitaization and development of brownfield and post-mining areas Cooperation of renewable and conventional energy sources Mechatronical systems for technological processes control and enhancement of large machines exploitation safety Operational Programme - Infrastructure and Environment I.3. Supporting innovativeness Interdisciplinary field of exploatronics in opencast mining 1. Mechatronical system of continuous diagnostics of effort of carrying structure and main mechanisms of machines 2. Complex system of fire hazards monitoring and signaling for basic machines 3. Mechatronical system of caterpillar conveyor steering 4. Mechatronical system of landslide monitoring 5. Mechatronical system of wheel excavator Infiltration biochemical preservation and rehabilitation of in-soil-water zones at municipal water intakes membran a wewn ętrzna ze struktury porowatej membrana zewnętrzna ze struktury porowatej inside membrane made of porous structures outs ide membran e made of porou s structure roztwór mikrofiltracyjno-sorpcyjny micro-filtration and sorption solution RE TE NT AN Diagram of biochemical remediation of surface water in controlled hydro-dynamical system of infiltration T Application: in water intakes in public utility company; renaturalization of surface waters, secure storage, full availability of water reserves in case of contamination risk PO MP A PER MEA T POMPA Diagram of hydrodynamic module for water purification in integrated sorption membranous process Application: in health food production plants, (sorption-membranous layer is made of natural geological components) Diagram of drainage system for intensive purification of contaminated Application: on contaminated areas Underground gasification of brown coal Technological diagram of experimental installation of underground brown coal gasification Technological diagram of experimental installation of underground brown coal gasification Synthesis gas and liquid fuel production according to Fisher-Tropsch technology (Linc Energy) Costs forecasts of energy production from underground gasification • according to American research - 1,08-1,70 Euro/GJ • according to Russian research- 0,85 Euro/GJ Prices are competitive in comparison with average costs of energy production from: natural gas: 2,0 do 5,0 Euro/GJ; hard coal: 1,5 do 1,8 Euro/GJ brown coal: 1,25 do 1,5 Euro/GJ Test stand for brown coal gasification and products influence on surrounding geological structures Poltegor was coordinating projects co-financed by EU “Scenariusze technologiczne rozwoju wydobycia i przetwórstwa węgla brunatnego” Bio-technological Conversion of Sludge into Organic Fertilizers Project co-financed by EU (EU Program INCO-COPERNICUS) Partners : “Poltegor Institute” Partners: - “Poltegor Institut”-coordinator -Politechnika Wrocławska - University of Horticulture and Food Industry. Department of Soil Sciences and Water Management, Hungary - Akademia Górniczo-Hutnicza, Kraków - Study and Design Office of Villages Sanitation Ltd, Poland - Państwowy Instytut Górniczy, Warszawa - Norwegian Institute for Water Research, Norway - Główny Instytut Górnictwa, Katowice - KGHM CUPRUM, Wrocław, -Instytut Automatyki Systemów Energetycznych – Wrocław - KGHM Polska Miedź S.A. - BOT KWB Turów S.A. - KWB Konin S.A. - Foundation for Technological and Industrial Research at the Norwegian Institute of Technology. Applied Chemistry, Norway - Bundesforchungsanstat für Landwirtschaft. Institut für Technologie, Germany - Nederlandse Organisatie voor Ntuurwetenschappelijk Onderzoek. Institute of Environmental Sciences, Energy and Process Innovation, Netherlands - KWB Adamów S.A. - ZE PAK S.A. Total costs: 6 000 000 PLN Time of realization 06.2006 – 05.2008; 24 months Costs- 92 219 Euro, (350 205 PLN + 387 000 PLN- Polish Government) Time of realization- 42 months 1999-2002 Currently Poltegor is participating in HUGE Project Hydrogen Oriented Underground Coal Gasification for Europe – HUGE Research Programme of the Research Fund for Coal and Steel Coal RTD. Partners:Central Mining Institute, Katowice, Poland- coordinator Technische Universiteit, Nederlands Universitaet Stuttgart, Germany Institute of Chemical Process Fundamentals, Czech Republic Institut Scientifique de Service Public, Belgium Kompania Węglowa S.A., Katowice, Poland BOT Górnictwo i Energetyka S.A., Poland “Poltegor-Institute, Poland UCG Partnership, Great Britain Politechnika Śląska, Poland National Mining University, Ukraine Total costs- 3 150 000 Euro Time of realization 07.2007 – 06.2010; 36 months Revitaization and development of brownfield and post-mining areas (Submitted project proposals) INTERREG IVC Landscape Vitalisation of former mining sites (LAVITA) Priority 2- Environment and risk prevention Leading Partner: Aufbauwerk Region Leipzig GmbH- Germany CENTRAL EUROPE PROGRAMME Brownfield regeneration management for sustainable regional development (BRM unit) Priority 4 – „Enhancing Competitiveness and Attractiveness of Cities and Regions” Partners: - Municipality of Komló- Hungary Leading Partner- Usti Region, Czech Republic - DIADYMA - Waste Management of Western Macedonia S.A.-Greece Partners - ERGO Umweltinstitut GmbH- Germany - Environmental Centre of Kozani - Prefectural Enterprise- Greece - Aufbauwerk Region Leipzig GmbH- Germany - "Poltegor-Institute" Institute of Opencast Mining- Poland - The District of Leipzig- Germany - Burgas Municipality- Bulgaria - EGW Development Company – Germany - ELECTRIC POWER INDUSTRY OF SERBIA Head Department for Energy Production- Serbia - Gorj County Council- Romania - LMBV international GmbH- Germany - Region of Western Macedonia- Greece - „Poltegor-Instytut” Institute of Opencast Mining Cooperation of renewable and conventional energy sources (Submitted project proposals) CENTRAL EUROPE PROGRAMME Effective development of dispersed renewable energy in combination with conventional energy in Regions (ENERGYREGION) Energy Efficiency and Renewables for Citizens Priority 3 – „Using our Environment Responsibly” Leading Partner: E-zavod Institute for Comprehensive Development Solutions- Slovenia Priority 3 – „Using our Environment Responsibly” Leading Partner : „Poltegor-Instytut” Institute of Opencast Mining Partners: - Brown Coal Research Institute j.s.c.- Czech Republic Partners: - Institute Golea - Institute for Economic and Environmental Policy University of Economics in Prague- Czech Republic - University of Natural Resources and Applied Life Sciences Austria - SEVEn Energy, Ltd. – Czech Republic - Belluno Province- Italy - Udine Provincial Energy Agency- Italy - E-zavod Institute for Comprehensive Development Solutions Slovenia - Polish Foundation for Energy Efficiency- Poland - “Poltegor-Institute” Institute of Opencast Mining- Poland - Energy Club Environmental Association- Hungary - Chamber of Agriculture and Forestry of Slovenia- Slovenia - Energy Agency Development and Service Public Company -Hungary - PORSENNA o.p.s.- Czech Republic - Energetické centrum Bratislava- Slovakia - Wrocław Technical University- Poland - Energy and Environmental Centre Allgaeu- Germany - IASE Wrocław- Poland Effective development of dispersed renewable energy in combination with conventional energy in Regions (ENERGYREGION) WP-1 Project Management and Coordination WP-2 Communication, Knowledge management and Dissemination WP-3 Elaboration of knowledge transfer, know-how, and innovation for effective development of dispersed energy WP-4 WP-5 Vulnerability assessment Definition of RES and conventional dispersed energetic sources in Regions and their effective development WP-6 Definition of level of effectiveness and energy consumption of main brands of production and service in Regions as well as undertakings aimed at reduction of energy consumption PROJECT GOALS Identification of RES and presentation of possibilities of their utilization Elaboration of set of information, know-how, new technologies and innovation Elaboration of technology of cooperation between dispersed energy and regional power networks Elaboration of prospective indicators of unit energy consumption reduction Elaboration and presentation of tested models of development and monitoring of dispersed renewable and conventional energy Presentation of recommendations of tested efficient technologies of sustainable development RES Elaboration of innovative activities concerning connection of RES to regional power networks with utilization of FACTS tools Elaboration of integrated technology of wind farms and water power plants and gas power plants Elaboration of technology of optimal utilization of biomass by co-combustion in coal fired power plants. ENERGYREGION Thank you for your attention