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IEE ECOLISH Improvement of Energy E fficiency of Low Income Housing

Investigating Energy Exploitation and Performance Contracting feasibility for low-income housing, addressing barriers and solutions. Pilot locations in Netherlands, Latvia, Greece, Hungary. Detailed building and energy analysis, renovation strategies, financial schemes, and outcomes discussed. Overall aim is to tackle fuel poverty and enhance living conditions for residents.

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IEE ECOLISH Improvement of Energy E fficiency of Low Income Housing

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  1. IEE ECOLISHImprovement of Energy Efficiency of Low Income Housing Zoltán MAGYAR

  2. The problem - general • Energy use in residential buildings in EU is 9500 PJ (= 23% of total use) > largest proportion • Measures on existing residential buildings will make major contribution in energy and CO2 reduction But large number of barriers: • Technologies are available (however, often particularly developed for new buildings, not for retrofitting) • Financial constraints • Social constraints • Organisation

  3. The problem - specific • Social housing and (extreme) low incomes • Often high energy consumption (poor thermal and building physical quality, building services) • In combination with poor IAQ and Thermal Comfort • Increasing energy prices (>> inflation rates), leading to fuel poverty • Spread ownership • how to organise • who is interested/responsible • (Allocation of) revenues of investments • Investors do often not have repays of investments • How to allocate the repays

  4. Objectives of ECOLISH “The objective of this project is to investigate and to demonstrate the feasibility and the potential of Energy Exploitation and Performance Contracting for people with low income and social housing By organising private owned and managed Energy Exploitation companies, involving occupants and other concerned parties”

  5. … organised on 4 pilot locations • Heerlen - the Netherlands • Ogre- Latvia • Pieria – Greece • Pécsvárad – Hungary Representing 4 different regions and climate zones (moderate, cold, mild, continental)

  6. 1. Pilot location Heerlen (NL)

  7. Final results fieldwork • Domestic Hot Water: • Unvented appliances in kitchen: 65 % • Combined appliance: 31 % • Space heating: • Mainly central heating with radiators • Sometimes local heating • Ventilation: • 93 % natural • 7 % mechanical exhaust

  8. Final results fieldwork • Average temperature setting: 20°C • Bed rooms: • 28 % heated • 72 % unheated • Cooking: • 86 % natural gas • 11 % electric • Some airconditioning • No solar systems

  9. Building analysis • Moisture and leakage problems • Driving rain • Biological degradation • Freeze-thaw damage • Thermal cracks • Detached weather strips • Detachment of plaster layer • Decay of concrete

  10. Energy analysis EPBD • Original1960’s * Renovation 1980’s • 5075 m3 nat. gas * 2605 m3 nat. gas • EI = 4.05 (G-label) * EI = 2.68 (F-label)

  11. Actual situation • Fitted gas consumption: 2190 m3 • Energy-index = 2.18 (E-label) • Some packages:

  12. a. Basic package • Measures • Renovation and insulation roof (360 m2) • Insulation wall / stuck facades (305 m2) Investment € 74.000 inclusive VAT Gas saving 3.000 m3 yearly. • Financial scheme: • Financing by savings € 42.000 • Own contribution € 32.000 • Home appreciation PM

  13. b. Additional package • Measures • Basic package plus: • Insulation Behind Facades /stuck (180 m2) • HE glazing +insulated panels • Investment € 114.000 inclusive VAT Gas saving 7.500 m3 yearly. • Financial scheme: • Financing by savings € 104.000 • Own contribution € 10.000 • Home appreciation PM

  14. c. Complete package • Measures Additional package plus: • insulation front Investment € 198.000 inclusive VAT Gas saving 9.900 m3 yearly. Financial scheme: Financing by savings € 138.000 Own contribution € 60.000 Home appreciation PM

  15. d. Sustainable package

  16. d Sustainable package • Measures Complete package plus: • solar collector Investment € 208.000 inclusive VAT Gas saving 10.700 m3 yearly. Financial scheme: Financing by savings € 149.000 Own contribution € 59.000 Home appreciation PM

  17. Overview packages

  18. 2. Ogre - Latvia

  19. Typical kind of buildings Concrete panel houses

  20. Types of buildings 318 series – 42 buildings • typical “hrushovkas” white brick buildings, built mainly in 1960, 3 and 5 stories • 1 room flat 29 m2, 2 room flat 41 m2

  21. problems connected to social and political change and transition taking place in Latvia; lack of income; Individual problems economic and social, lack of self-esteem and self-reliance, young people prefer to move to Riga and work abroad. Lack of interest in municipal politics and public issues is also a problem at the individual level; Lack of extension and knowledge in home economics and especially in house management; Lack of free time FUEL POVERTY! Typical social problems

  22. 3. Pécsvárad - Hungary

  23. 121 flats in 10 buildings Min. floor area 65 m2 Max. floor area 105 m2 Houses

  24. Buildings datas – current situation • Spec. heat loss factor: Now: 0,52 W/m3KAllowed value: 0,27 W/m3K • Integrated energy performance: Now: 228 kWh/m2aAllowed value: 133 kWh/m2a 171,5% Category F (average)

  25. Buildings datas – After renovation • Spec. heat loss factor: After renovation: 0,17 W/m3KAllowed value: 0,27 W/m3K • Integrated energy performance: After renovation:100 kWh/m2aAllowed value: 133 kWh/m2a 75,3 % Category B (better than requirement)

  26. 4. Pieriki - Greece

  27. The blocks

  28. Conclusions (1) • Fuel poverty is becoming a serious problem for (social) housing • In social housing energy costs are high in combination with poor thermal comfort and indoor air quality • Saving potential and benefits are high • Benefits can be allocated to investments

  29. Conclusions (2) • Specific problem is spread ownership: to be solved by organising occupants and forming legal entities; very important to achieve any results and commitment. • To negotiate with possible investors, ESCO’s, EPC etc. • Important to provide a balanced set of energy saving measures, measures to improve IAQ and thermal comfort, in combination with ways how to finance this for these groups of housings that normally don’t have possibilities for this. However, comfort standards and expectations differ from country to country. • Technical solutions are not so much the problem but rather the relation between the quality and expected lifetime of buildings, and the lack of vision of strategic housing and strategic maintenance and financing. • Many buildings are at the end of their technical and economical lifetime • Risk allocation in energy exploitation is still a big problem.

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