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Transcript
Power Plants and Air Quality
Presentation to
Cape Wind Stakeholder Group
October 31, 2002
Hyannis, MA
Bill Lamkin
Bureau of Waste Prevention
Massachusetts Dept of Environmental Protection
Topics to Cover
• Pollutants of concern and their impacts
• MA emission inventory and the impact of
power production
• Comparison of emission levels for
various power alternatives
Pollutants of Concern and
Regulatory Standards
• Federal (US-EPA) - National Ambient Air
Quality Standards (NAAQS)
– Designed to be protective of public health & the
environment
– Sulfur dioxide (SO2)
– Particulate Matter
– Carbon Monoxide
– Ozone (NOx and VOC)
– Nitrogen dioxide (NO2)
Pollutants of Concern and
Regulatory Standards
• Ozone and PM2.5
– Existing standards and MA levels
• CO2 and Hg - emerging issues
Overview of Power Plant Impacts
•
•
•
•
•
•
•
•
Acid Deposition
Climate Change
Mercury
Nitrification, Eutrophication
Ozone
PM 2.5
Regional Haze
Visibility
Health Effects of
Exposure to Ozone
• Coughing
• Nose, and throat irritation
• Chest pain
• Reduced lung function
• Increased susceptibility to respiratory illnesses
• Aggravation of asthma
• Children and people with chronic lung diseases
are particularly at risk
Health Effects of Exposure
to Fine Particles
• Premature death
• Respiratory related hospital admissions and emergency
room visits for cardiac and other conditions
• Aggravated asthma
• Acute respiratory symptoms
• Chronic bronchitis
• Decreased lung function (shortness of breath)
• People with existing heart and lung disease, as well as
the elderly and children, are particularly at risk
Fine particles, or haze, impairs
health and visibility
(Jan. 12, 2001)
Hourly conc. of
fine particles in
the 9-11 g/m3
range
The Boston
skyline on a
hazy day
Hourly conc. of
fine particles
55.4 g/m3
The Boston
skyline on a
clear day
(March 8, 2001)
CO2 emissions contribute to global climate change –
which is projected to have serious and wide-ranging
impacts on human health and the environment
8-hr O3 Exceedance Days & Total Exceedances 1987-2001
Ozone exceeded the 8-hour standard (0.085 ppm)
250
243
# Exceedances
200
100
# Exceedance Days
136
150
124
59
50 24
81
75
43
21
22
80
26
74
82
98
84
39
20
23
20
20
15
85
61
24
12
15
22
5
27
0
1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001
Year
Areas Recommended by the States as
Not Meeting EPA’s Ozone Standard
Based on 1997-1999 ozone data
Massachusetts 1996 Daily NOx Emissions
S ectoral Breakdown
Of f R o a d
29%
Ot h e r P o i n t
7%
Are a
3%
Af f e c t e d
Fa c i l i t i e s
10 %
8%
Ot h e r El e c t r i c
Ge n e r a t i o n
2%
On - R o a d
5 1%
Massachusetts 1996 S O2 Emissions
S ectoral Breakdown
Are a
35%
Af f e c t e d
47%
Fa c i l i t i e s
46%
Ot h e r El e c t r i c
Ot h e r P o i n t
Ge n e r a t i o n
11%
1%
Of f R o a d
1%
On - R o a d
6%
Relative Emission Rates
(Tons per Year)
Pollutant
Wind Facility
NEPOOL
Marginal Rate
NOx
0
599
SO2
0
1953
CO2
0
468,720
420 MW of generating capacity 1500 Hrs
Conclusions
• Electricity generation is a significant piece
of the air pollutant emissions inventory.
• Renewable energy (including wind) projects
produce electricity w/o the emissions of air
contaminants typically emitted from fossil
fuel fired electricity generating facilities.
Conclusions (Continued)
• Air quality benefits will result from
renewable energy projects.
• Predicting where those improvements will
occur is difficult to predict.
• Predicting the specific facility displaced by
a new electricity generating facility
(renewable or other) is difficult to predict