1 / 36

European Directive on Energy Performance of Buildings and Enhanced Thermal Insulation

Explore the impact of the European Directive on Energy Performance of Buildings (EPBD) and the need for enhanced thermal insulation in buildings. Learn about the relationship between indoor comfort, energy consumption, and building design. Discover the new CEN standards on Thermal Losses Calculations and the certification of building energy performance.

roberthudson
Download Presentation

European Directive on Energy Performance of Buildings and Enhanced Thermal Insulation

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Laboratory of Heat Transfer and Environmental Engineering Department of Mechanical Engineering Aristotle University Thessaloniki The European Directive on theEnergy Performance of Buildingsand the need for enhanced Thermal InsulationProfessor Agis M.PapadopoulosTirana, 07.04.06

  2. The role of a building with respect to climate and its inhabitants A building’s design should aim to provide comfort to its inhabitants, whatever the ambient conditions are. The balancing of climatic conditions in the indoor environment can be implemented either through an energy conscious design or/and by energy consuming devices (HVAC systems)

  3. Relation of indoor comfort and a building’s energy demand A building’s design should aim to provide comfort to its inhabitants, whatever the internal loads are.

  4. Indoor comfort and the human reaction A building’s design should aim to provide comfort to its inhabitants, keeping in mind the human needs.

  5. Energy consumption in buildings 40% of energy consumption in the EU is in buildings of all kinds. 25% of CO2 emissions result from buildings. Electricity consumption is expected todouble between 2000 and 2020

  6. This is the main reason and philosophy behind…The new European Directive on the Energy Performance of Buildings (EPBD) or 2002/91/EC

  7. This is the main reason and philosophy behind…The new European Directive on the Energy Performance of Buildings (EPBD) or 2002/91/EC asks for four main things:- A detailed methodology to determine energy consumption- Final and primary energy consumption statement- Inspection of heating systems and air-conditioning systems- Energy certification of buildings

  8. EPBD: a systemic, generic approach A holistic and integrated consideration of the building:We determine the primary energy demand of the building!

  9. EPBD: a systemic, generic approach A whole set of new CEN standards to implement it

  10. EPBD: a systemic approach towards reducing energy consumption A four-phase approach

  11. EPBD: New CEN standards on Thermal Losses Calculations A typical construction practice in Greece. Up till now the calculation of the transmission heat transfer coefficient was calculated not taking into account the thermal bridges Thus, the transmission heat transfer coefficient was calculated according to

  12. EPBD: New CEN standards on Thermal Losses Calculations A new constructional approach will be required to cope with the implementation of the new standards and the following regulations. According to standard ISO 14683 the transmission heat transfer coefficient is calculated by

  13. EPBD: New CEN standards on Thermal Losses Calculations For the simple two storey building with the thermal bridges R, B, C, F the new calculation procedure determines …

  14. EPBD: New CEN standards on Thermal Losses Calculations * It is noted that the calculations were conducted for common material properties and included only the linear thermal bridges (and not the point) … HD = 148.15 W/K instead of HD = 106 W/K Thus, linear thermal bridges account for the 28.5% of the total transmission heat transfer coefficient of the building. Otherwise, the inclusion of thermal bridges in the calculation increases the heat transfer coefficient of the building by almost 40%.

  15. EPBD: Indoor comfort and new CEN standard CEN/TC 156 WG 12 For not air-conditioned buildings Tc = 13.5 + 0.54 To where Τcis the thermal comfort, and Το the ambient air temperature

  16. EPBD: Indoor comfort and new CEN standard CEN/TC 156 WG 12 For fully air-conditioned buildings

  17. EPBD: Taking care of real life conditions Introducing the inspection of heating and A/C systems

  18. EPBD: Certifying the energy performance of buildings Who has to comply? All new buildings bigger than 1.000 m2 All public buildings All buildings to be sold or rented And how? Either as designed Or as built Valid for 10 years

  19. EPBD: Certifying the energy performance of buildingsand setting the goals for an efficient policy If 200 kWh/m2 is the average consumption of the current building stock (class C), then 125 should be the aim for 50% of the buildings after 2005 (class A) If 100 kWh/m2 is the average consumption of a good current building (class C), then 75 should be the aim for 50% of the buildings after 2005 (class A)

  20. EPBD: Certifying the entire performance of the buildings’ indoor environment

  21. EPBD: A partial success is not enough Up till now, a building with poor thermal comfort conditions, due to the lack of thermal insulation could be “improved”, by means of higher energy consumption. Up till now, a building with poor indoor air quality could be “improved”, by means of increased ventilation and, therefore, higher energy consumption. Up till now, a building with high energy consumption could be “improved”, by reducing the heating or cooling provided, and hence reducing thermal comfort. This is no longer possible. Buildings have to be “honest” to their users, and this officially certified.

  22. EPBD and thermal insulation Thermal insulation is still the most economic and efficient way to design and construct an energy thrifty building. Insulation materials are the key tool in that sense. This is demonstrated by the increasing thicknesses used in buildings, which also reflects in the growing sales of the branch.

  23. EPBD and thermal insulation: The potential The greatest potential, also for existing buildings, lies within the reduction of thermal losses through the building’s shell – and also in the improvement of heating systems. . Exploitable potential 60 kWh/m2 a

  24. EPBD and thermal insulation: the case study A real case study: 41 buildings in Northern Greece, with a climate almost identical to Albanian zones 1 and 2.

  25. EPBD and thermal insulation: the case study Energy consumption with respect to the date of construction. . Heating and cooling consumption with respect to the heated surface.

  26. EPBD and thermal insulation, not forgetting thermal comfort Thermal comfort conditions in winter are by and large good or acceptable – yet the energy cost is very high. Without it, comfort would be poor. In summer we have both problems: lack of comfort and high energy costs. .

  27. EPBD and thermal insulation: The real saving potential The average achievable saving on the average specific annual consumption is some 40 kWh or 20% of the current condition.

  28. EPBD and thermal insulation: The economic aspect The latest increase in energy prices is a good reminder of how short-sighted the policy of the last years has been. 20% of the Greek population spends more than 10% of its income for energy – tendency rising! Had the measures been carried out, their reduced pay back period would now become apparent.

  29. EPBD and thermal insulation: The problems The unsuitability of the densely built urban environment (An only partially existing problem) Lack of legislative obligations and incentives, complex legislative framework Lack of financial incentives (The two most frequently mentioned barriers) Lack of proven expertise and qualified professionals Unwillingness to abandon the ‘business as usual’ approach (The two less easily acknowledged reasons) Low energy prices (not anymore?) Lack of energy and environmental consciousness (The truly socio-political problems) All points mentioned are result of a FORESIGHT study carried out in Greek SMEs in 2004

  30. EPBD and thermal insulation, not forgetting the exploding air-conditioning demand Estimated growth of Air Conditioning (cooling) in the EU (EECCAC study)

  31. EPBD and thermal insulation, not forgetting the exploding air-conditioning demand Estimated growth of Room Air Conditioning in the EU (EERAC study)

  32. EPBD and thermal insulation, not forgetting the exploding electricity demand In July 2005 the absolute peak monitored was 9,620 MW. At the same time the cost for providing the ‘upper 600’ MWs, that are used only for 20 days per year was estimated at something like 3,800 Euros / MW, compared to the 1,300 of the base load.

  33. EPBD and thermal insulation, not forgetting the exploding electricity demand According to the Green Paper on energy efficiency (June 2005): The production of an electrickWh costs on average 0,12 € The production of an electrickWh peak load costs between 0,15and 0,25€ The cost of saving this same kWh is onlybetween 0,026 and 0,039€

  34. EPBD and thermal insulation, not forgetting the exploding electricity demand

  35. EPBD, thermal insulation and a rational, realistic policy Average energy consumption is increasing rapidly, due to increased thermal comfort demands, black and white appliances and electronic equipment. The most effective way to absorb this increase is to exploit the saving potential in space heating, A/C and DHW demand of new and older buildings.

  36. EPBD, thermal insulation and a certain goal This is the minimum aim that we must set,in order to be able to establish and maintainhigh living standards affordable by everyone.

More Related