Development of Poland’s energy infrastructure
Education
- International Programmes at Bachelor's level
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Bachelor of Engineering
- Admission requirements
- Architectural Engineering
- Bioprocess Engineering
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Civil and Structural Engineering
- General Part
- Elective Courses
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Specialization and Bachelor Project
- Separation of sewage system in Sunds
- Energy optimization of Vildbjerg School
- Future supply for future housing
- Energy optimization and environmental certification of buildings
- Economy optimization in construction techniques
- Atria - energy consumption and daylight conditions
- Road Bridge – pre-stressed concrete
- Intelligent glass facades – dynamic u- and g-values
- Canadian Solar Wall – experimental studies
- Expansion of Esbjerg Stadium
- Intelligent facade solution - potential of a Canadian Solar Wall on Navitas
- Analysis of crack propagation in shear reinforced concrete beams
- Roadway design between Viborgvej and the displaced Herredsvej
- Optimization of district heating networks
- The pile foundation of Isbjerget at Aarhus Harbour
- Design guide for solar walls
- Roadway design between Viborgvej and Herredsvej
- Rosenholm Estate – altering a barn into an office building
- Tender documents for Bering - Bedervejen
- Foundation Navitas
- Design of junction between E45 and M51 near Kliplev
- ETFE as climatic envelope – new greenhouse, The Botanical Garden Aarhus
- Sustainable alternatives to the prefabricated residential house
- Life cycle analysis and alternative energy sources
- Bearing constructions in glass
- Design of road and roundabout in Kolt
- Navitas – bearing constructions
- Warehouse construction
- The usefulness of heat pump’s
- Bypass east of Gl. Egaa
- The importance of the facade for energy and inside climate
- Development of Poland’s energy infrastructure
- Storm water drainage from Havndal
- Practical change management for the Danish building industry
- Conference Centre, structures
- Kjellerup-Truust transport system: Design, dimension and transient analysis
- Hørning Waterworks
- Electronic Engineering
- Healthcare Technology
- Information Technology
- Mechanical Engineering
- Teaching Methods
- Business Engineer
- M.Sc.Eng
- Bachelor of Science
- PhD Studies
- Summer Schools
- Course Catalogue
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Description:
This project deals with global climate debate on greenhouse gases and a project as an opportunity to reduce these.
The Polish energy strategy is outlined before the countries entering in the EU in the year 2004 and until now. Poland has commitments to reduce CO2 emissions towards EU, and has therefore made strategies to achieve these. The main introduction from Poland is called certificates, which is specified from the color names and assigned to projects which produce energy from renewable sources. It is also possible through the EU to build JI -projects in other countries with reduction commitments and get ERU’s, which covers for tons of CO2 which the project has saved the environment for. These are awarded in the form of financial support, depending on how much CO2 emissions are reduced with the project.
In many of Poland’s energy strategies biogas is rated as a big potential for continuous energy. In this paper/project there is decided to focus on cost-benefit analysis in such facility, with support from creditors and certificates.
By contacting farmers in Poland that uses poultry manure, pig slurry and oil grease from a chips production line as substratum. When you build a biogas facility, there are a lot of assumptions to be made. There for it is unknowable how long the repayment period will take.
Poland has certificates for energy production based on renewable energy and there are coming more for biogas which uses organic material as a substrate. This will hopefully contribute for a better economy for biogas and make the investors more interesting.