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To serve the human, and to built up a cultural landscape in the global dynamic equilibrium.
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Self-sufficient residential areaIntegrated Environment Protection Concept
www.muenchgroup.comwww.ecologic-architecture.org/main
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A building that
● for a long time and● without major changes● with low environmental impact● intense● economic and● is used with great advantages for all stakeholders,
is ecologically worthwhile.
All of our activities, we should ask again and again on this foundation, because otherwise we lose because of blindness about details the most important task of building:
To serve the human, and to built up a cultural landscape in the global dynamic equilibrium.
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The Concept Energetic self-sufficient Settlement: Renewable Energy and
Waste-to-Energy as sources combined covers demand of electricity, heating and cooling – in countries with more than 2.000 hours of sun per year a surplus of energy can be produced.
Waste Utilization: Recycling of raw materials, energetic utilization based on gasification and solarthermal wastewater evaporation
Prefabricated Houses: Optimized passive-house architecture combined with the advantages of pre-fabrication leads to high-quality and economically pricing
Urban Structure: Ultimately, the task of a city is to supply essential requirements such as housing, employment, food and recreation. A balanced planning process is necessary
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Self-sufficient energy supplyfrom solar thermal energy with combined and intergrated waste-to-energy concept for a residential allotment
There are four components in this operation:● Solarthermal production of heat for:
– production of electricity– evaporation of domestic sludge
● Production of electricity from heat of burning dried solid content of domestic sludge● Gasification of municipality waste and production of:
– electricity– process heat– light fuel– clean water– different raw materials
• Solar climatisation of residential buildings (solar heating/cooling)
All components are connected and synchronized to ensure the efficiency and uninterruptibility of the energy production.
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Listing of processable waste
The processing technology for thermal waste disposal, including the production of fuel, electricity and thermal energy is applicable to a wide range of waste material, including:
● Municipal waste● Hazardous waste● Sewage sludge of wastewater treatment plants● Agricultural waste (biomass)● Rubber waste● Chemical waste● Waste of electronic industry● Plastics● etc.
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Construction design
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Legend (System components) :
1: EPU waste gasification plant for solid municipality waste
2: Evaporation of urban sewage sludge
3: Solar thermal collector box,
4a: burner for process and synthetic gas from Gasifikation and landfill gas and vaporizer
4b: Burners for dry matter from sewage sludge and evaporator
5a 5b: GE Global Engine system to generate electricity
6: Power supply
7: depot for purified water
: Heatexchanger for heating/cooling system for residential allotment
Construction design
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Sample calculation
of self-sufficient energy supply with combined and intergrated waste-to-energy concept for a residential allotment with 35.000 houses
It is assumed, that every household consumes 4 kW electricity per hour
The consumption of airconditioning is not counted, because the buildings are cooled solar.
Consumption is calculated for a 4-person household per unit.
DemandElectricity
Residential allotment 35.000 houses to 200 qm to 4.500kWh
Total demand electricity 157.500.000 kWh
Overall performace demand 18 MW
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Calculation of wasteMunicipality waste
Waste per day 140.000 Inhabitants 520 kg/year 199 to/day
pot. electric energy 5 MW
pot. therm. energy 5 MW
Wastewater 125 ltr/day 17.500m3/day
4% sol id content 700 to/day
pot. electric energy 15MW
pot. therm. energy 15MW
Sample calculation
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OutputElectricity 20MW
Heat 20MW
clean water 6.000.000m3
Fuel depending on composition of waste
Raw materials depending on composition of waste
Investment incl. installation of solar heating/cooling systemTotal 490.000.000€
per house per sqm
14.000 € (avaraged) 70 € (avaraged)
Saving (no heating/cooling equipment) 3.000 € (avaraged) 15 € (avaraged)
net Invest 11.000 € (avaraged) 57 € (avaraged)
Sample calculation
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The Houses
Our goal is it to convert the optimal connection of ecological and economic aspects as well as of functionality and architectural organization with construction of buildings. Consistently we set for the realization of our projects on our economical construction system. With a large attention we observed and converted world wide construction trends by us. By using the newest construction and building technologies we are always „up to date“.
Framework construction - for a pleasant indoor climate
The timber frame construction, in America, Scandinavia and Western Europe and in Germany has long been proven successful for over 10 years, is an efficient network system.
It is in the range of cost-saving construction and proven surface, a special design principle. This is in accordance with the recommendations of the German federal government worked Carpenters (BDZ).
The supporting elements are made of solid timber. The structural reinforcement of the Ge-edifice is the cladding of external walls, roof and ceilings with wood based panel achieved with quality verified OSB.
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Sample outside wall
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Sample construction phases
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Sample houses
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Pricing houses
Prefabricated houses can be designed in nearly every architectural style.
To include in a project waste utilization a minimum number of 15.000 houses is needed to make it feasible, because a waste treatment plant is modular and the smallest unit utilizes 100 to of waste per day.
Depending on style, equipment, etc. turnkey prices for e.g. 190 sqm houses of such a project start at about 89.000 - 94.000 €.
Taking in consideration that there will be no energy costs at all for lifetime of the houses and all waste handling is included, the real feasibility and advantages are obvious.
Additional profit because of e.g. surplus production of energy have to be calculated depending on given projects.
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The Opportunity
Climate change due to CO2 emissions, the oil’s high price and its nature of limited resource make up the case for Renewable Energies as strategic investments for institutional investors and governments.
Climate change is forcing governments worldwide to establish legal frameworks, such as the Law on Renewable Energy in Germany and other European countries, or current laws being approved in Canada.
Opportunities also arise in Waste to Energy from the harmonization trend within the EU regarding environmental requirements and the development of the East European countries.
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Philosophy
muench group’s philosophy is the identification of problems and the proposal of solutions
muench group focuses on developing and implementing projects to solve particular problems and utilizing the best technical and economical solution available
Helping clients to meet Kyoto protocol’s objectives Multidisciplinary approach
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Technology
The company has secured preferential technology rights, access to patents and commercialisation rights for several technologies
Major progress has already been made in negotiating co-operation rights and business alliances with other engineering companies, general constructors, technology providers, facility operators and other companies
Other patents and products under study lead to the expansion of in-house proprietary technology. Further subsidies can be obtained for utilizing new technologies in projects.
Proprietary technology can also be exported via technology transfer services.
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Project Development: Renewable energy
Solar Thermal Power Plants with special designed collectors producing temperatures up to 400° C and more
Biomass Power Plants with different gasification technologies patents in combination with Global Engine, Organic Rankine Cycle or Kalina Cycle, which lead to the maximum possible energy efficiency.
Geothermal Power Plants with Global Engine and Kalina Cycle, which provide a higher yield than any other known power generation technology with low thermal water temperatures.
Combinations of Technologies depending on project and geographical/climatical circumstances
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Project Development: Recycling, W2E,..
Waste to Energy Plants with different gasification / pyrolisis technologies patents in combination with Global Engine, which lead to the maximum possible energy efficiency.
Gas, water and soil cleaning systems Tyre Recycling plants Plastic to Diesel
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Project Development: Ecological Architecture
Passivehouse and zeroenergy/plusenergy house concepts combined with urban structure development
Production lines for prefabricated houses developed as zero-energy factories
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Karl H. Muench (CEO)TR-35540 Çiğli – İzmir
Tel: +90 232 324 80 61 mobil: +90 538 594 86 89
eMail: [email protected]
Further technical informations available at:
www.muenchgroup.comwww.ecologic-architecture.org/main
If you have any questions, don't hesitate to contact us!