integrating indoor air quality and energy efficiency …€¦ · iaq is a part of larger problem of...
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INTEGRATING INDOOR AIR QUALITY AND ENERGY EFFICIENCY IN BUILDINGSWilliam P. Bahnfleth, Ph.D., P.E., FASHRAE, FASME
Indoor Environment Center, The Pennsylvania State University
Outline
� Connection between indoor air quality and energy use
� Importance of indoor air quality (IAQ)
� Current status of IAQ control� Current status of IAQ control
� Efficient IAQ technologies
� Integrating IAQ and energy efficiency
February 20, 2014Lisbon, Portugal
Energy conservation and ambient environment are high priorities…
� Component efficiency
� Reduced system energy use intensity
� Stratospheric ozone depletion
� Global climate change� Global climate change
� Use of alternative fuels
� Protection of water supplies
February 20, 2014Lisbon, Portugal
Buildings are the largest energy end-use sector
� ~ 40% of US primary energy use
� 22% residential /18% commercial
Source: US Energy Information Administration (2010)
February 20, 2014Lisbon, Portugal
Priority of energy, ambient environment apparent in law, policy, programs…
� US Energy Laws� National Energy Conservation Policy Act (1978, amended)
� Energy Policy Act of 1992
� Energy Policy Act of 2005
� Energy Independence and Security Act of 2007
� Other Public and Private Initiatives� Montreal Protocol (1987, amended
� Kyoto Protocol (1997, amended)
� Directive on Electricity Security Act of 2007
� Emergency Economic Stabilization Act of 2008
� American Recovery and Reinvestment Act of 2009
� Directive on Electricity Production from Renewable Energy Sources (EU, 2001)
� Directive on the energy performance of buildings (EU, 2002)
� ASHRAE Vision 2020
� many others…
February 20, 2014Lisbon, Portugal
More than half of building energy use is for environmental control
� US buildings, all types
� Space heating 37%
� Lighting 10%
� Space cooling 9%� Space cooling 9%
� Ventilation 3%
� TOTAL 59%
� HVAC 46%
Source: US DOE Buildings Energy Data Book (2010)
February 20, 2014Lisbon, Portugal
“That all people should have free access to air
and water of acceptable quality is a fundamental
human right.”
~World Health Organization, Air Quality Guidelines for Europe, 2nd ed.
“An energy declaration without a declaration “An energy declaration without a declaration
related to the indoor environment makes no
sense.”
~Bjarne Olesen, Olli Seppänen, Atze Boerstra. Criteria for the Indoor Environment for Energy Performance Of Buildings – A New European Standard.
February 20, 2014Lisbon, Portugal
Importance of IEQ - asthma
� According to US CDC based on data collected in 2007, 2008, 2009� 8.2 % of population/26 million people affected
� 10.5 million missed
� Asthma triggers (CDC)� ETS� Dust mites� Outdoor air pollution� Cockroach allergens
� 10.5 million missed school days
� 14.2 million missed work days
� 475,000 hospital stays� 3,447 deaths
Cockroach allergens� Pets� Mold� Wood smoke� Respiratory infections
February 20, 2014Lisbon, Portugal
Poor IAQ/IEQ is costly – national scale(Fisk, W. How IEQ Affects Health, Productivity. ASHRAE J., May 2000)
� Potential health and productivity saving from feasible IAQ and IEQ improvements
Source of Gain Potential Annual Benefits
Lower
$ (€) Billion
(2012)
Higher
$ (€) Billion
(2012)
Reduced Respiratory Illness
16 - 37 Million Avoided Cases of Common Cold or Influenza
9 (6.8) 21 (15.8)
Reduced Allergies and Asthma
8% - 25% Decrease in Symptoms - 53 Million Allergy Sufferers, 16 Million Asthmatics
1 (0.8) 6 (4.5)
Reduced Sick Building Syndrome Symptoms
20% - 50% Less SBS Symptoms at Work for ~15 Million Workers
15 (11.3) 44 (33.1)
Lighting/ Thermal Gain 30 (22.6) 237 (178.2)
TOTAL 55 (41.4) 308 (231.6)
February 20, 2014Lisbon, Portugal
IAQ benefits are worth more than energy savings
� Value of the health and productivity of building occupants can be more than an order of magnitude greater than the cost of the energy it consumes
� Annual energy cost: $1 - $3/ft2 (~€9 – €25/m2)� Annual energy cost: $1 - $3/ft (~€9 – €25/m )
� Annual functional costs: $80 - $600/ft2
(~€680 – €5100/m2)
February 20, 2014Lisbon, Portugal
Poor IAQ is not a problem of wealthy countries alone
� Unvented indoor biomass cooking remains common in developing nations
� ~2,000,000 deaths per year due to chronic exposure
� Mostly women and children
(Smith, K. R. 2003. The global burden of disease from unhealthy buildings: preliminary results from comparative risk assessment. Proc. Healthy Buildings 2003)
…plus concern about the role of indoor exposure in real or feared epidemics – SARS, tuberculosis, influenza
February 20, 2014Lisbon, Portugal
Practical knowledge of IAQ is limited
� Factors correlated with perceived air quality and air quality problems
� Dampness
� Ventilation rate� Ventilation rate
� Building materials and other sources
� Indoor air chemistry
� Not enough known to prescribe specific control levels for most contaminants and for mixtures of many interacting contaminants
February 20, 2014Lisbon, Portugal
Methods are few and simple -
� Source control
� Task ventilation and general ventilation – dilute
� Non-specific particulate filtration – inorganic, viable and non-viable organicand non-viable organic
� Moisture control – prevent mold growth
…and the basis for ventilation rates is fundamentally subjective impression of people
February 20, 2014Lisbon, Portugal
ASHRAE Standard 62.1
Acceptable Indoor Air Quality: air in which there are no known contaminants at harmful concentrations as determined by cognizant authorities and with as determined by cognizant authorities and with which a substantial majority (80% or more) of the people exposed do not express dissatisfaction.
February 20, 2014Lisbon, Portugal
Comfort vs. Sensory Load &Ventilation
1 olf sensory load(1 sedentary adult)
Fanger, P. O. (2008) “Perceived Air Quality and Ventilation Requirements” in Indoor Air Quality Handbook, J. Spengler, J. McCarthy and J. Samet eds.
Note definition of class A ventilation – 10 L/s-olf
February 20, 2014Lisbon, Portugal
ASHRAE Standard 62.1- Air Quality
February 20, 2014Lisbon, Portugal
Ventilation rates too low? SBS Symptoms
Source: W. Fisk, A Mirer, M. Mendell. 2009. Quantitative relationship of sick building syndrome symptoms with ventilation rates. Indoor Air
February 20, 2014Lisbon, Portugal
Ventilation rates too low? Productivity
Source: Seppänen, O. and W. Fisk. 2006. Some Quantitative Relations between Indoor Environmental Quality and Work Performance or Health. HVAC&R Research.
February 20, 2014Lisbon, Portugal
Ventilation rates too low?Decision Making Ability
February 20, 2014Lisbon, Portugal
Source: Satish, U., M. Mendell, K. Shekhar, T. Hotchi, D. Sullivan, S. Streufert, and W. Fisk. 2013. Is CO2 an Indoor Pollutant? Direct Effects of Low-to-Moderate CO2 Concentrations on Human Decision-Making Performance. Env. Health Perspectives 20(12):1671-1677.
Ventilation rates too low? Infection
� Wells-Riley model
1 expv f d
ipqt
VP
η η η
− = −+ +
� Air change rate (η) affect probability of airborne infection (P)
February 20, 2014Lisbon, Portugal
v f dη η η+ +
Source: Sun, Y., Z. Wang, Y. Zhang, J. Sundell. 2011, In China, Students in Crowded Dormitories with a Low Ventilation Rate Have More Common Colds: Evidence for Airborne Transmission. PLoS ONE 6(11) e27140.
Are we doing enough to support indoor air quality? Probably not
� Typical HVAC designer
� Assumes code/standard compliance provides good IAQ
� Focuses on minimizing energy use/cost, carbon emissions
� Has limited awareness of costs of bad IAQ and has � Has limited awareness of costs of bad IAQ and has difficulty applying published research to practice
February 20, 2014Lisbon, Portugal
IAQ is a part of larger problem of IEQ
…and observe ~12% increase in SBS symptoms per 1ºC above 22.5ºC
February 20, 2014Lisbon, Portugal
Source: Seppänen, O. and W. Fisk. 2006. Some Quantitative Relations between Indoor Environmental Quality and Work Performance or Health. HVAC&R Research.
Achieving High IAQ Efficiently
� Energy recovery from ventilation air
� Allowance for intermittent occupancy
� Dynamic ventilation control
� DOAS� DOAS
� Air treatment as a substitute/supplement for ventilation
…all permitted by ASHRAE Standard 62.1, encouraged by 90.1
February 20, 2014Lisbon, Portugal
Achieving High IAQ Efficiently
� US Green Building Council (USGBC) “Leadership in Energy Efficient Design (LEED) Rating System
� Increased ventilation (ASHRAE 62.1 or CEN Standard EN 15251: 2007+30%)
� Dynamic ventilation
� Natural ventilation
� Low emission materials
February 20, 2014Lisbon, Portugal
Integrating IAQ and Energy Efficiency
� Design emphasis is imbalanced� IAQ is reduced to code ventilation rate
� Real effort goes into energy efficiency – evaluation and optimization of system alternatives using modeling
Few simulation tools have integrate coupled � Few simulation tools have integrate coupled simulation of energy and IAQ
� In the research arena, IAQ and energy are mainly the domains of different communities that work independently
February 20, 2014Lisbon, Portugal
Elements of an integrated analysis
� Energy simulation� Thermal� Equipment performance
� Air (and contaminant) flow modelingflow modeling� Multizone (e.g. CONTAM)� CFD
� IAQ performance modeling
� Economic analysis
February 20, 2014Lisbon, Portugal
Studies directed at integrated design:Fisk, et al., effect of economizer
� Fisk, W., D. Faulkner, O. Seppänen, J. Huang. 2005. Economic Benefits of an Economizer System: Energy Savings and Reduced Sick Leave. ASHRAE Transactions 111(2).
Would not classify as a “low energy IAQ � Would not classify as a “low energy IAQ technology” because IAQ benefit, if realized, is accidental
� Combines energy modeling with Wells-Riley based sick leave analysis for two-story office in Washington DC.
February 20, 2014Lisbon, Portugal
Fisk, et al. results
Health benefit is 3 – 8 times greater than energy savings
February 20, 2014Lisbon, Portugal
Studies directed at integrated design:Lee, et al., In-duct UVGI vs. filters
� Lee, B., W. Bahnfleth, and K. Auer. 2009. Life-cycle cost simulation of in-duct ultraviolet germicidal irradiation systems. Proc. Building Simulation 2009, Glasgow, Scotland.
� Energy analysis, Wells-Riley based sick-leave analysis, life-cycle cost analysis of UVGI air disinfection compared with equivalent (MERV 12) filter
� Office building in New York City
February 20, 2014Lisbon, Portugal
Lee, et al. scenarios
� New York City office building
� Base HVAC system (minimum OA, MERV 6) + UVGI downstream of cooling coil
� Base HVAC system + UVGI upstream of cooling coil
� Base HVAC system + filtration equivalent to UVGI (MERV 12)
February 20, 2014Lisbon, Portugal
Lee, et al. results overview
Annual Energy Use Best UVGI MERV 12 Filter
kWh/ft2 0.1 1
kWh/m2 1 11
Annual Energy Cost Best UVGI MERV 12 Filter
$/ft2 0.01 0.104
February 20, 2014Lisbon, Portugal
$/ft 0.01 0.104
€/m20.08 0.84
Annualized Life Cycle Cost Best UVGI MERV 12 Filter
$/ft2 0.01 0.104
€/m20.08 0.84
Health and productivity benefit: 3.5 $/ft2, 28.3 €/ m2
Studies directed at integrated design:Johansson – Life cycle optimization
� Johansson, D. 2009. The life cycle costs of indoor climate systems in dwellings and offices taking into account system choice, airflow rate, health and productivity. Building and Environment (44):368-376.376.
� PhD dissertation – cost-optimal system and ventilation rate selection based on equipment, energy, health/productivity cost
February 20, 2014Lisbon, Portugal
Johansson – representative result: optimal ventilation vs. salary in an office
-Cost to occupants has a significant effect on desirable ventilation rate-Lower energy HVAC makes higher ventilation rate cost effective
February 20, 2014Lisbon, Portugal
Summary
� Maintaining even mediocre IAQ uses lots of energy –and costs society a lot in quality of life and productivity
� We can do better with basic IEQ measures like ventilation, but that knowledge has not penetrated far into practiceinto practice
� The energy and IAQ worlds do not overlap a lot – not enough yet – integration is interdisciplinary
� Process and tools are needed for design, and lots more research into parameters of IAQ and interactions of IEQ parameters
February 20, 2014Lisbon, Portugal