Green Building Conference, Chicago Green hospital: Energy efficiency of hospitals

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Charlotte Boone
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20.9.2016 Green Building Conference, Chicago Green

1 Green Building Conference, Chicago Green hospital: Energy efficiency of hospitals Marco Schmidt Technische Universität Berlin Institute of Architecture Chair Building Technology and Design

2 ÜBERSCHRIFT (ARIAL BOLD 22/26) Energy Optimized Construction:

3 ÜBERSCHRIFT (ARIAL BOLD 22/26)

4 University Medical Center Frankfurt Hospital Agatharied/ Bavaria

5 Monitoring Concept

7 Sankey: Energy Budget Hospital Agatharied 2014 in MWh (34900 m² NGF)

8 [MWh/a] Electricity: Demand and Measured Consumption in MWh/a Lighting and further use Auxiliary Energy Heating Auxiliary Energy Hot Water Ventilation Auxiliary Energy Absorption Chiller Demand (calculated) Consumption (measured) *) Electricity Demand including further Use (Arbeitshilfen) after DIN V Hospital Agatharied NGF m²

9 [MWh/a] Hospital Agatharied, Heat and Cold: Demand and Measured Consumption in MWh/a 8000 Heating Heating in Ventilation Hot Water Cooling Demand (calculated) Consumption (measured) *) incl. Absorption Chiller

10 700 kwh/ m³ at 45 C Water heated from 30 to 90 C = 70 kwh/m³ Water Energy Phase Change Material (PCM) = 61 kwh/m³

Desiccant Systems Sorptive Humidification and Dehumidification Salt Solution: MgCl Exhaust air emits heat and moist to the brine Return Air Reducing energy consumption by using a salt

11 Desiccant Systems Sorptive Humidification and Dehumidification Salt Solution: MgCl Exhaust air emits heat and moist to the brine Return Air Reducing energy consumption by using a salt solution Full separation of supply and exhaust air The brine heats and humidifies the supply air Exhaust Air Supply Air Seasonal Storage without any transmission loss Source: Outdoor Air

12 Humidification and dehumidification with salt solutions - Combined with evaporative exhaust air cooling -

13 Global Radiation Budget mean of one squaremeter worldwide =+- 10 ft ² Data after physicalgeorgaphy.net

14 Urban Radiation Budget Example: Asphalt roof

15 400% 350% 300% 250% Goal: Decrease of energy consumption of buildings by 2020: 50%!! But forecast: Increase of energy consumption for cooling: 260% Germany (%) Greece (%) France (%) Spain (%) Italy (%) EU Total (% and Kt CO2/a) Kt CO2 (EU Total) % % % M.Schmidt 2006 after: EECCAC 4/ Source: Energy Efficiency and Certification of Central Air Conditioners (EECCAC) Study for the D.G. Transportation-Energy (DGTREN) of the Commission of the E.U.

16 Reasons for increase in cooling demand 1: Increase in use of glass 2: Decrease in Heat Capacity, use of light materials 3: Increase in electricity consumption 4: Increase in Urban Heat Island Effect 5: Global Warming

17 Never use electricity to cool a building! 680 kwh Cold 310 kwh Electricity (annual COP 2,2) 990 kwh Sensible Heat Released Outside

18 ÜBERSCHRIFT (ARIAL BOLD 22/26)

planter boxes providing shade and evaporative cooling Evaporative

19 Institute of Physics, Humboldt- University Berlin Rainwater harvesting for cooling, tank size: 40 m³ 450 climbing plants in 150 planter boxes providing shade and evaporative cooling Evaporative exhaust air cooling in 8 air conditioners Main Goal: Reduction of operating costs

20 kwh/(m²a) Primary Energy needed for Heating and Cooling Primary Energy needed for Heating and Cooling Heating kwh/(m²a) Cooling kwh/(m²a) Total kwh/(m²a) without Sunblinds Sunblinds (conv., manual, standard) Sunblinds (conv., automat., standard) Sunblinds (conv., Measured Data) Green Façade (Measured Data)

21 ÜBERSCHRIFT (ARIAL BOLD 22/26) Maintenance: /a Maintanance: /a Investment 3M membrane:

22 Evaporative Exhaust Air Cooling

23 Difference in conv. Energy Consumption with and without Evaporative Cooling Worst case: 100 F outside air temperature, Savings 70 % 40,0 35,0 [ C] Aussentemperatur [ C] Anlage 4 [kw] [kw] ,0 25,0 4 20,0 3 15,0 2 10,0 5,0 1 0, : : : : : : : : : : : :37 0

24 Costs for Cooling (for german prices) 1000 kwh Costs for Cooling kwh - 1 g H 2 O: 2450 J = 2450 Ws at 100 C 1 m³ = 2720 MJ = 700 kwh at 45 C ,75 Heat Adiabatic: 7,24 (Electricity: 0,185 /kwh) (Water: 2,22 /m³) (Wastewater: 2,57 /m³) Electricity Water Compression: 90,24 (Electricity: 0,185 /kwh COP 2,05) 80 60,05 90,24 Absorption: 161,05 (Heat: 0,0376 /kwh COP 0,47) (Electricity: 0,185 /kwh) (Water: 2,22 /m³) (Wastewater: 2,57 /m³) ,25 1,06 6,18 0 Absorption Compression Adiabatic

25 Costs for Cooling (for Chicago prices) for 1000 kwh of Cold $ Costs for Cooling kwh - Adiabatic: $2.36 (Electricity: $/kwh) (Water: 3.81 $/ 1000 gal) (Wastewater: 3.81 $/ 1000 gal) Compression: $51.66 (Electricity: $/kwh COP 2.05) Absorption: $ (Heat: $/kwh COP 0.47) (Electricity: $/kwh) (Water: 3.81 $/ 1000 gal) (Wastewater: 3.81 $/ 1000 gal) $54,27 Heat Electricity Water $51,66 $34,37 $13,27 $0,70 $2,66 Absorption Compression Adiabatic

26 ÜBERSCHRIFT (ARIAL BOLD 22/26)

27 Primary Energy Demand according DIN V (calculated) ÜBERSCHRIFT compared (ARIAL to BOLD consumption 22/26) (measured) kwh/(m²a) Compression Cooling District-heating Absorption Chiller Auxiliary Energy Absorption Chiller Humidification Ventilation Ventilation Light Heating Demand Consumption

28 ÜBERSCHRIFT (ARIAL BOLD 22/26)

29 ÜBERSCHRIFT (ARIAL BOLD 22/26)

30 ÜBERSCHRIFT (ARIAL BOLD 22/26)

31 ÜBERSCHRIFT (ARIAL BOLD 22/26)

Thank you for your attention! http://www.gebaeudekuehlung.

36 Thank you for your attention!