ECTS: History and Structure (1)Industrial heating and air conditioning Cogeneration of power –...
Transcript of ECTS: History and Structure (1)Industrial heating and air conditioning Cogeneration of power –...
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ECTS: History and Structure (1)
� Founded in Brussels in December 2004
� Motivation:� Shift of decision-making processes in the European Union: more than
50% of law-making relevant for companies is European and not longernational
� 1990s saw a change in the structure of the suppliers of machinery for theceramic industry in Germany: it became more international
� General shift of growth markets: significant growth is taking place outsideof Europe thus making a united effort of European technology providersabroad more and more important
� Members: currently, 24 companies from nine countries
� Mainly producers of machines and plants for the following industries:� Heavy-clay� Refractories� Fine Ceramics� Technical Ceramics
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ECTS: History and Structure (2)
� Current focus is on heavy-clayrelated activitites
� Turnover of members (2009): ca. 200 Mio. EUR
� Markets: very export oriented. Mainly Europe, North Africa and Middle East, East Asia and South East Asia, North America, South America
� ECTS is an official supporter of Ceramitec (since 2009)
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Selected Activities
� 2006: Information tour through India
� 2007: Symposium and Delegation Tour Refractories China
� 2007: Morbi Ceramics: information booth ECTS
� 2008: Indian Ceramics, Mumbai
� 2010: � Indian Ceramics in Ahmedabad (March) and ECTS information booth at
CeraGlass India in Jaipur (November)� “Encontro Nacional“: trade fair organized by the Brazilian heavy-clay
industry association ANICER (August)
� Currently:� Energy Using Products directive: EU forces members to enhance
energy efficiency of industrial kilns and ovens, preliminary study underway, ECTS is an active stakeholder in this process
� March 2011: Symposia in Chandigarh and Varanasi
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Structure (1)
� Board of Directors (from left to right):� Chairman: Luca Caramelli, Bongioanni Macchine, Italy� Vicente Romeo, Talleres Verdés, Spain� Paul Eirich, Maschinenfabrik Gustav Eirich, Germany
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Structure (2)
� Secretariat: located in Frankfurt, Germany� Managing Director: Joachim Schmid (left)� Coordinator: Alessandro Colucci (right)� Assistance: Dorothee Hayer (didn‘t want to appear on photo)
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Structure (3)
� Plenary Meetings twice a year in changing countries, often on invitation of one or more members� Often in combination with plant visits: we believe that
building mutual trust is one of the most important tasks of ECTS
� Working Groups:� Energy using Products� Terminology� „Modern Building“: image campaign regarding the
advantages of heavy clay as a versatile building material
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� Facts
� Challenge Energy Efficiency
� European Regulation
� Principles
� Kilns and furnaces
� Partnerships for Energy Efficiency
Energy Efficiency and EuP Directive
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� Facts
� Challenge Energy Efficiency
� European Regulation
� Principles
� Kilns and furnaces
� Partnerships for Energy Efficiency
Abstract
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The Question ?
Is there a correlation between the combustion of
� Natural Gas� Oil
� Diesel� Petrol
and the produced amount of CO2 ?
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The Answer
Combustion generated:
� 1 m3 Natural Gas => 1,06 m3 CO2
� 1 l Oil => 1,61 m3 CO2
� 1 l Diesel => 1,61 m3 CO2
� 1 l Petrol => m3 CO2
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Why should we save (Process-) Energy ?
� Increasing energy costs
� Preservation of resources
� Climate regulations
� Legislation (Brussels, Berlin, Paris, Rome, … )
� Reduce dependence on imports
� Growth und employment
� …
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� Facts
� Challenge Energy Efficiency
� European Regulation
� Principles
� Kilns and furnaces
� Partnerships for Energy Efficiency
Abstract
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Abstract of the European Regulationfor development of Energy Efficiency
� Directive 2006 / 32 / EC� Directive on Energy end-use efficiency
and energy services (EEE – Directive)
� Directive 2005 / 32 / EC� Directive on establishing a framework
for the setting of ecodesign requirements for energy-using products(EuP – Directive or Ecodesign - Directive)
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Abstract of the European Regulationfor development Energy Efficiency
� Directive 2006 / 32 / EC� Directive on Energy end-use efficiency
and energy services (EEE – Directive)
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Energy end-use efficiency and energy services directive (2006/32/EC)
Aim of the directive:� Saving of 9 % end-use energy until 2016
(basis: average of the years 2001 to 2005)� Member States shall take cost-effective, practicable and
reasonable measures designed to contribute towards achieving this target.
� Every 4-year an EEAP from each Member State� Each Member State shall draw up programmes and
measures to improve energy efficiency (=> individual national ways to reach the target)
Energy Efficiency Action Plan (EEAP):� Member States send an EEAP for the period of 4 years to the
Commission ( 30.06.2007, 2011 und 2014)
� Commission evaluates and publishes its conclusions
� By actions of the market partners and administrative actions the aim of the possible energy savings will be reached
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Harmonised Energy Efficiency-Indicators and -Benchmarks
The Commission developed a list of harmonised energy efficiency indicators and benchmarks
Member States shall gradually integrate these indicators and benchmarks into the statistical data included in their EEAPs,
Member States use them as one of the tools at their disposal to decide on future priorities in the EEAPs.
� The market for household appliances / information technology and lighting: Kitchen appliances (white goods); Lighting;Entertainment/information technology.
� The market for domestic heating technology:Heating; Hot-water provision; Air conditioning; Ventilation; Heat insulation; Windows.
� The market for industrial ovens.� The market for motorised power in industry. � The market for public-sector institutions:
Schools/public administration; Hospitals; Swimming pools; Street lighting.
� The market for transport services.
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Abstract of the European Regulationfor development Energy Efficiency
� Directive 2005 / 32 / EC� Directive on establishing a framework
for the setting of ecodesign requirements for energy-using products(EuP – Directive or Ecodesign - Directive)
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EuP-DirectiveAim and Background
� AimPromotion of sustainable development through free movement of EuP, environmental protection and increased security of energy supply
� Backgroundconsider all environmental impacts of products throughout their life cycle
� Eco-design approachSearch for design options that could improve the product environmental performance in balance with technical and economic constraints
� ScopeAll energy using products, but no transport sector
� Target groupManufacturers, suppliers, dealers and importers of EuPs© European Commission
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EuP-Directivekey data and political surrounding
� Ambitious efforts of the EU-Energy- and climate policies
� Increase energy efficiency by 20%� Reduction of greenhouse gas emission by 20%� Promote renewable energy
� Entry into force: 11. August 2005
� EuP is the central element of the EU climate
policies
� The directive is a framework directive and the Commission will enact implementing measures.
© European Commission
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Implementing measuresWhich products are concerned ? (§ 15)
They have to…
� Represent a significant volume of sales and trade in
the internal market (indicative threshold: 200 000
units / year)
� Involve a significant environmental impact.
� Represent a significant potential for improvement...
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Implementing measures : Proposals
� Limit ceiling for electricity (and water)
consumption
� Emission limit (efficiency factor or specific
use): e.g. lighting (lm/W)
� Exhaust emission limit– ppm NOx:
e.g. energy efficiency index for pumps
� Labeling obligation
� Efficiency category: lighting,
� Washing machines
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Lot XX: Industrial furnaces and laboratory ovens
(source: recent work programme of EU Commission)
� Infra-red radiation ovens,
� resistance heated industrial and laboratory furnaces and ovens,
� electrical induction industrial or laboratory furnaces and ovens,
� furnaces and ovens functioning by dielectric loss,
� furnace burners for solid, liquid or gaseous fuels,
� furnaces and ovens for heat-treatment of surfaces or materials,
� furnaces and ovens for the incineration of rubbish.
This list may be extended or reduced.
Kilns are included !
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EuP-Directive- effects on the branch (e. g. kilns)- requirements set up by Commission
Study
� Determination of effectiveness for industrial ovens
� Effectiveness must be measurable
� Determination of all types of ovens/procedures that are concerned by the Directive
� Reduced variety of types of industrial ovens to a maximum of 4
Implementation Measure
� Determination of a required minimum effectiveness in the implementation measure
� Example: 30 % (or more) of large-scale energy plants, machines, components shall not be placed or made available on the market anymore
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� Facts
� Challenge Energy Efficiency
� European Regulation
� Principles
� Kilns and furnaces
� Partnerships for Energy Efficiency
Abstract
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EnergyAn important topic of the machine and equipment suppliers
� Technologies: key to a successful energy and climate policy
� Competence all along the complete supply chain
� Energy conversion
� Energy efficient components
� Energy efficiency in production
Pioneers on the way to
� Security of energy supply
� Conservation of resources
� Energy efficiency from component to production
� Energy efficient products as future market
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Energy efficient components
� Technologies� Pumps� Ventilators� Compressors� Actuators
� Topics� Optimisation of individual system elements� Optimisation by consideration of the complete
system� Optimisation of system operation and of
maintenance
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Energy efficiency in production
� Technological spectrum� Thermoprocessing equipment� Actuator technology � Refrigeration equipment
� Topics� Energy recovery� Heat management� Load management and light weight
construction� System control
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Energy saving potentials in production
� Compressed air technology� Pumps & systems� Ventilators & systems� Motor drives (e.g. electric motors)� Steam generation and cooling� Industrial Lighting� Industrial heating and air conditioning� Cogeneration of power – heat - coooling� …
Potentials of individual branches
� e.g. Thermo process technology� Production of metals, NF-metals, glass, ceramics,
cement, chemical products, …� Processing of materials (annealing, burning,
tempering, sintering, heating,..)� ….
Cross branch potentials
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� Facts
� Challenge Energy Efficiency
� European Regulation
� Principles
� Kilns and furnaces
� Partnerships for Energy Efficiency
Abstract
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Thermoprocessing equipment incl. kilns
� Due to their manifold applications, industrial furnaces and kilns are responsible for approximately 40% of all end use energy used for industrial purposes, e.g. in Germany
� Life cycles of equipment are high(>30 years are not rare)
� Nowadays, new equipment consumes 30% less energy in comparison to old equipment
� Technical aspects are:� Burner and firing systems
� Furnace insulation
� Integrated use of energy in production process
� Waste heat recovery
� Power consumption
� Auxiliary material