HomeMy WebLinkAboutC2007-492 - 3/20/2007 - ApprovedCorpus Christi Area
8-hour 03Flex Agreement
August 2007
2007-492
Res. 027189
03/24/07
Air Quality Committee
TABLE OF CONTENTS
INTRODUCTION
BACKGROUND
Page
I
PARTICIPATING STAKEHOLDERS 2
APPLICABLE STANDARDS 2
5TATUS OF AIR QUALITY 2
SOURCES OF POLLUTANTS 3
MONITORING 5
MAJOR SOURCES IN ADJACENT AND UPWIND COUNTIES 6
HIGH OZONE EPISODES 6
REGIONAL PHOTOCHEMICAL MODELING 6
TRENDS AND MEASURES OF SUCCESS 7
COMPLETED PLANNING AND EMISSIONS REDUCTION ACTIVITIES 8
ACTION PLAN
11
PLANNING MEASURES 11
VOLUNTARY EMISSIONS REDUCTION MEASURES 14
IMPLEMENTATION OF ONE NEW MEASURE WITHIN ONE YEAR 17
CONTINGENCY MEASURES 1$
SEMI-ANNUAL REVIEW ~ 21
CORPUS CHRISTI URBAN AIRSHED AGREEMENT 21
I. GENERAL PROVISIONS 21
II. EPA AND TCEQ RESPONSIBILITIES 22
III. LOCAL GOVERNMENT RESPONSIBILITIES 22
IV. EXPECTED AGREEMENT DURATION 23
V. CONDITIONS FOR MODIFICATION OR EARLY TERMINATION 23
VI. ADDITIONAL TERMS OF THIS AGREEMENT 23
List of Ta61es
Table 1: Emission Reduction Estimates from Voluntary Controls 8
Table 2: TERP projects in the Corpus Christi urban airshed 11
List of figures
1. 1999 Summary of Emission Inventory Estimates
2. VOC Corpus Christi Urban Airshed
3. NOx Corpus Christi Urban Airshed
4. Location Map -- CAMS 4 and CAMS 21
5. Fourth High 8-Hour Ozone Levels Observed by Year
List of Appendices
1. Air Quality Committee Participants
2. Conceptual Model
3. Work Plan, Rider 8 Projeck
4. Estimates of VOC and NOx Reductions for Selected Sectors
5. Map of Air Quality Monitors in Nueces and San Patricio Counties
6. Commitment Letters
7. AutoCheck Repair Data Summary
8-03FLEX MEMORANDUM OF AGREEMENT
PLAN TO MAINTAIN ATTAINMENT
WITH THE S-HOUR OZONE STANDARD
NUECES COUNTY AND SAN PATRICIO COUNTY IN TEXAS
(THE CORPUS CHRISTI URBAN AIRSHED)
INTRODUCTION
Two adjoining counties, Nueces County and San Patricio County in Texas, contain a
large urbanized area with a number of industrial point sources of air emissions and a
concentration of mobile sources. The two counties are home to the nation's fifth busiest
deep-water port with access to the Gulf of Mexico and the Gulf Intracoastal Waterway, a
large industrial and petrochemical complex, two major military bases, and a network of
highways including the Interstate Highway System, railroads, and air routes that
facilitates commerce and a thriving tourism industry.
Such urbanized areas are referred to as urban airsheds. The Corpus Christi area,
comprised of Nueces County and San Patricio County, may be considered an urban
airshed in which air emissions from sources in both counties interact to influence the
level of ambient air pollution in the community. Control of ambient air quality requires a
strategy that considers sources of air emissions in both counties.
The urban airshed of Nueces County and San Patricio County in Texas is an area in
which local entities, the Texas Commission on Environmental Quality (TCEQ}, and the
U.S. Environmental Protection Agency (EPA) are working together to plan and
implement voluntary actions appropriate to community needs to improve air quality.
This collaboration makes it possible to design common sense strategies that reflect the
weather, driving habits, and economy of the region in the creation of a model program.
A plan was formalized in 1996 in a Flexible Attainment Region Memorandum of
Agreement, and modified and continued in 2002 in an 03FLEX Memorandum of
Agreement. The parties to the plans were the following governmental authorities:
City of Corpus Christi Texas Commission on Environmental Quality
Nueces County U.S. Environmental Protection Agency
San Patricio County
Port of Corpus Christi Authority
Regional Transportation Authority
Other stakeholders making major contributions to this effort include the following:
Port Industries of Corpus Christi, Inc., and its member companies
Texas A&M University-Corpus Christi, Department of Community Outreach
(TAMUCC)
Texas A&M University-Kingsville, Department of Environmental Engineering
(TAMUK}
Corpus Christi Metropolitan Planning Organization (MPO)
The policy and guidelines adopted in 2001 governing the 03FLEX program encouraged
voluntary air emission reductions that help keep an area in attainment with the 1-hour
ozone standard, while contributing positively to achieve the health benefits envisioned
under a proposed standard based on 8-hour averages. The 03FLEX Memorandum of
Agreement expressly provided that it may also serve regional efforts to meet the Clean
Air Act requirements, as appropriate, when the $-hour ozone guidance was issued.
During 2005 the new 8-hour standard was being implemented and the 1-hour standard
was withdrawn for the Corpus Christi urban airshed.
The goal of this agreement is to encourage voluntary air emission reductions that help
keep Nueces County and San Patricio County in attainment with the 8-hour ozone
standard, thereby achieving the health benefits envisioned.
As the 8-hour ozone standard is being implemented, stakeholders in Nueces County and
San Patricio County have expressed their desire to develop a program similar to the
Flexible Attainment and 03FLEX programs but based on the 8-hour standard. This intent
was expressed in a letter by the Mayor of Corpus Christi dated October 4, 2004, and
acknowledged in a reply from the U.S. Environmental Protection Agency Regional
Administrator dated December 3, 2004.
Guidelines for the 8-03Flex Program were approved on May 18, 2006. This Agreement
was prepared in accordance with the guidelines. A letter from the Mayor of Corpus
Christi dated August 18, 2006, reaffirmed intent to participate in the 8-03Flex Program.
BACKGROUND
PARTICIPATING STAKEHOLDERS. An active Air Quality Committee was
established in 1995 to review the ozone attainment issues for the Corpus Christi urban
airshed, comprised of Nueces and San Patricio counties in the Texas Coastal Bend
Region (see area map included in Appendix 5). The membership includes local
government, business and industry, local universities, the military, and representation
from the news media. The meetings are open to the public. The attached Appendix 1 is a
list of participants in the Air Quality Committee.
APPLICABLE STANDARDS. This Agreement is applicable under the current
National Ambient Air Quality Standard for ozone based on 8-hour averages. The
standard is that the average for the past three calendar years of the fourth highest daily
maximum 8-hour average ozone level each year may not exceed 0.08 parts per million.
If the current 8-hour standard is withdrawn or is determined by the Environmental
Protection Agency to be inapplicable in the Corpus Christi urban airshed at a future date,
this agreement may be terminated or revised in accordance with state and federal law.
STATUS OF AIR QUALITY. The Corpus Christi urban airshed, comprised of Nueces
and San Patricio Counties, is designated attainment with the National Ambient Air
Quality Standard for ozone based on 8-hour averages. The Corpus Christi urban airshed
2
is considered to be one of several near non-attainment areas in Texas. The current design
value is 72 parts per billion {ppb) based on monitoring results (CAMS 4).
SOURCES OF POLLUTANTS. Scientific research performed by Texas A&M
University -Kingsville, including emissions inventory activities and backward
trajectories for high ozone episodes, indicates the primary sources of ozone precursors:
1. lnbound_transpo_rt. Cluster analysis of high ozone episodes from 1995 through
2003 showed that a significant majority of the episodes were heavily influenced
by inbound transport of ozone and ozone precursors from northeast of the Corpus
Christi area. This information is detailed in the Conceptual Model of weather
patterns attached as Appendix 2. Progress in reducing ambient ozone and ozone
precursors in areas northeast of Nueces County and San Patricio County along
and near the Texas coast and in Louisiana is needed to assist in controlling
ambient ozone in the Corpus Christi urban airshed.
2. Stationary sources. The 1999 inventory contained in the 2002 Ozone Flex Plan
was updated for this plan. Figure 1 represents the updated numbers. Point
sources account for 58% of nitrogen oxide emissions and 39% of volatile organic
compounds in the two county area. Within this category, electric generating
facilities and other industrial facilities are the largest local sources of nitrogen
oxide emissions.
3. Mobile sources. The updated calendar year 1999 emissions inventory indicates
that on-road and off-road mobile sources produce 39% of nitrogen oxides and
32% of volatile organic compounds in the two county area.
Figure 1: 1999 Summary of Emission Inventory Estimates (Tons /Year)
Nueces Coun
Pollutant Point Area Non-Road On-Road Biogenic Total
VOC 11092.3 2891.3 3746.5 6464.8 3110.3 27305.2
NOx 22113.4 277.0 46949 10019.4 401.4 37506.1
CO 9428.2 331.3 187689 66924.3 95452.8
San Patricio Coun
Pollutant Point Area Non-Road On-Road Biogenic Total
VOC 3489.2 880.9 533.8 1455.7 3830.3 10189.8
NOx 4359.4 53.0 789.6 2376.1 347.7 7925.8
CO 2396.0 756.4 2480.3 15075.7 20708.4
Cor us Christi Urban Airshed Total
Pollutant Point Area Non~Road On-Road Biogenic Total
VOC 14581.5 3772.2 4280.2 7920.4 6940.6 37495.0
NOx 26472.8 330.3 5484.5 12395.5 748.9 45432.0
CO 1 i 824.2 1087.7 21249.2 82000.1 116161.2
Figure 2
VOC Cor us Christi Urban Airshed
21%
On-Road
19%
n~....e..~.-
1 'f % 10
Non-Road Area
Figure 3
NOx Corpus Christi Urban Airshed
z%
Biogenic
On-
58%
Paint
^ Point
^ Area
^ NomROad
C] On-Road
^ 8ipgenic
^ Point
^ Area
^ Nan-Roatl
^ On-Road
M Biogenic
rvon-noaa 1
Area
MONITORING. The Texas Commission on Environmental Quality operates two
Continuous Air Monitoring Stations (CAMS) in Corpus Christi. CAMS 4 is located at
the State School at 902 Airport Road. CAMS 21 is located in West Guth Park at 9866 La
Branch St. Ozone levels recorded at these two monitors are used to determine the
attainment status of the area.
Additional ozone and meteorological monitors are operated by Texas A&M University-
Kingsville in the metropolitan area, along the north shore of Corpus Christi Bay (upwind
on high ozone days}, and to the west and south (downwind on high ozone days). These
monitors are used for research purposes to define the magnitude of the transport problem.
Three of these were operated during the 2004 and 2005 ozone seasons and have provided
a great deal of useful information. Three more were installed in 2006. (Appendix 5)
A third set of seven monitors installed for the Corpus Christi Air Quality Project
(CCAQS) by TCEQ and the University of Texas-Austin. These monitor the levels of
hydrocarbons in the area. Two of them are equipped with continuous gas
chromatographs which provide speciated hydrocarbon data on a real-time basis 24 hours
a day. These were in operation for the 2005 ozone season and beyond.
MAJOR SOURCES IN ADJACENT AND UPWIND COUNTIES
Major point sources upwind of the Corpus Christi Urban Airshed are included in the
database of point sources maintained by the TCEQ. The information from this database
is included in the emissions inventory input into the CAMx regional base case model
(discussed below) used to simulate ozone production. This model is a tool used for
emissions reduction strategy analysis for the airshed.
HIGH OZONE EPISODES. Monitoring has shown that normally law ozone levels in
the Corpus Christi area are occasionally elevated to near the National Ambient Air
Quality Standard. These episodes are characterized by hot sunny days, cloudless skies,
light northeasterly winds, and high background levels of ozone and ozone precursors
associated with inbound transport from northeast of the community.
These conditions facilitate buildup of ozone levels from local emissions of ozone
precursors. Special events such as holiday weekends and festivals generate additional
motor vehicle traffic that increases local sources. High ozone episodes usually span
several days and end when the inbound transport from the northeast ends.
REGIONAL PHOTOCHEMICAL MODELING.
The Corpus Christi Air Quality Committee and Texas A&M University-Kingsville
(TAMUK) participated in the development of a base case regional photochemical model
simulating the September 1999 ozone episode. This modeling was accomplished with
the cooperation of the Texas Commission on Environmental Quality and the communities
of San Antonio, Austin, and Victoria. This episode was regional in nature covering most
of central and South Texas. The model simulates ozone plume movement down the coast
and ozone production from local emissions. The resultant concentration plot compares
quite favorably with actual monitor data.
Texas A&M University-kingsville, Department of Environmental Engineering began
doing air quality studies for the Air Quality Committee in 1995 using funds contributed
by local businesses and government entities. The product of the regional study is a base
case Comprehensive Air Quality Model (CAMx) for the region and is used for sensitivity
analyses to determine the impact of selected source categories on ozone formation in the
area. With sensitivity analysis, emissions reduction strategies are tested for their impact
on the region. Use of the model helps to provide a determination of the most effective
strategies for ozone control unique to the Corpus Christi urban airshed.
A number of sensitivity analyses have been run. Those would include runs to investigate
the impact of emissions from sources and locations upwind from Corpus Christi as well
as various source types within the Corpus Christi airshed. A report on that activity is
available in the Rider 13 report submitted to TCEQ in .lanuary 20x5, which may be found
on the University's website at httpa/air.tamuk.edulriderl3-00011.
6
~, r
TRENDS AND MEASURES OF SUCCESS. Monitoring has shown a slight
downtrend in annual fourth high daily 8-hour average ozone levels during the past ten
years.
Figure 5: Fourth High 8-Hour Ozone Levels Observed by Year
goo
95
90
85
m
a 80
75
70
65
BO
ANNUAL FOURTH HIGH DAILY MAXIMUM 8-HOUR OZONE LEVELS
CORPUS CHRISTI URBAN AIRSHED
~~~1 ^~~0 +~°~°~ ^9°j° ~~°'^ ^~°'ti ^g°''S ~9°'D~ ^~~h ^9°'m ^~'l ~°P'~ ^~°'~ ry°°° ry°°^ ~°°ry ry°°3 ry°°p ry°°y ry°°6
This improvement is attributed to the voluntary measures implemented under the
provisions of the Flexible Attainment Region Agreement approved in 1996 and the
03FLEX Agreement approved in 2002. These voluntary measures were selected to
stabilize ozone 1-hour averages, but the success of these measures is also reflected in 8-
hour monitoring results.
The following Table 1 contains estimates of emissions reductions achieved as a result of
the voluntary programs established in the 1996 Flexible Attainment Agreement and the
2002 03FLEX Agreement that would be continued under this Agreement. Estimates for
Stage One Vapor Recovery and Low RVP Gasoline include all reductions. Regulations
now require Stage One for larger gasoline retail outlets; but the ongoing voluntary
training activities include non-regulated facilities and result in increased compliance by
regulated facilities. Low RVP gasoline is now required in summer months but not in
October.
7
Table 1: Emission Reduction Estimates from Voluntary Controls
Voluntary Control Strategy VOC
Tons/Yr) NOx
(Tons/Yr
Sta e I Va or Recove 766 ---
7.8 RVP Gasoline A ril - Se tember 622
9.0 RVP Gasoline in October 88
TERP reductions 33.4
Gra hic Arts BACT 57
D Cleanin BACT 22b
Furniture Mf .BACT 170
Auto Refinishin BACT 11
Sand blastin 1 aintin BACT 20
Marine Loadin Controls 253$
Additional reductions resulting from ozone action day alerts and similar educational
outreach efforts are much more difficult to quantify. A telephonic community survey
was conducted by DeVille and Associates in September 2004. Responses were received
from 400 people. A similar survey was conducted by Deville and Associates in 1995.
When people were asked what the major sources of air pollution were, 18% stated "auto
emissions" compared to 3% in the 1995 survey. 10% associated their activities with air
emissions in 2004 compared to 5% in the 1995 survey. When asked what they do to help
reduce pollution, 68% stated that they keep their vehicle tuned in the 2004 survey
compared to 51% in the 1995 survey. 24% responded that they car pool in the 2004
survey compared to 14% in the 1995 survey. Although it is difficult to assign a measured
emission reduction from the improved community education and subsequent emission
reduction activities, it can be inferred that the community is realizing reduced emissions
as a result of community education and response. Since there is no reliable method to
verify results, we have not attempted to associate numbers to those programs.
COMPLETED PLANNING AND EMISSIONS REDUCTION ACTIVITIES. Since
1995 a number of air quality planning measures and voluntary emission reduction
measures have been initiated and have been fully implemented.
Planning. and Research. Air quality planning measures have afforded the opportunity for
scientific research and study. The air quality planning measures for the Corpus Christi
urban airshed are sponsored by the near nonattainment area funding program through the
TCEQ. The TAMUK Department of Environmental Engineering leads the research
effort, which has as its goal a mechanism enabling sound decisions to reduce emissions,
especially the types of emissions that affect peak ambient ozone levels more than others.
The contribution of "highly reactive hydrocarbons" to ozone production in the Houston
area was identified as a result of the TexAQS 2000 Field Study.
Stationa emission sources control devices control rocedures. Refineries,
petrochemical plants, and other major industries implemented the following actions:
8
• Marine vapor recovery and control equipment is used at marine tank ship and
barge loading facilities for transfer of products that have a vapor pressure higher
than 0.5 psi.
• Uncontrolled loading of volatile products that have a vapor pressure higher than
0.5 psi is rescheduled to occur on days other than Ozone Action Days to the
extent feasible.
• Industries and the Port of Corpus Christi Authority made specific commitments to
voluntarily reduce emissions.
Public awareness, notification and participation pro rg ams. The TAMUCC Department of
Community Outreach Pollution Prevention Partnership has provided emission reduction
recommendations and activities to the community, complementing and building on the
public education and outreach activities of the TCEQ. This effort has gained acceptance
by small business owners, vehicle owners and operators, and other citizens of emissions
reduction recommendations that have contributed to continued attainment of the National
Ambient Air Quality Standard for ozone.
• An ozone action day program was initiated by TCEQ. Major participants include
the City of Corpus Christi, the TAMUCC, local industries and military
installations, the Corpus Christi Regional Transportation Authority, the Fort of
Corpus Christi Authority, and the Texas Department of Transportation.
Small Business Assistance. The TAMUCC Department of Community Outreach
Pollution Prevention Partnership established a program in 1995 to educate small business
on methods to reduce emissions and waste streams at their facilities through an ambitious
outreach effort. The strategy far the program was based on the assumption that many
small businesses use equipment, materials, and processes that could be changed both to
benefit the business and to reduce pollution, and that small businesses will voluntarily
make changes to reduce emissions if managers believe it is in their company's best
interest to do so.
Business sectors were targeted through an analysis of emissions inventory data, and in
consultation with TCEQ Region 14 and the TCEQ Local Government and Small
Business Assistance Program. Sectors included gasoline retail outlets (stage I vapor
recovery), graphic arts, dry cleaners, furniture manufacturing, automobile refinishing, and
sand blasting/painting. Pollution Prevention Partnership staff members met with small
business representatives and consultants to identify motivations for participation, best
practices, pollution prevention possibilities, and applicable environmental regulations.
Educational seminars, training sessions, and compliance audits were provided based on a
program specifically designed for each small business sector to follow the
recommendations from industry representatives who participated in focus groups. Sector
advisory groups were recruited and high-credibility consultants in each business sector
were used as needed for technical assistance, while leveraging other volunteer resources.
Participants received and display the Pollution Prevention Partnership window decal as
part of a community wide recognition effort.
9
Mobile sources.
Local refineries have voluntarily provided the Corpus Christi area with gasoline
having lower Reid vapor pressure than required by regulation, as a measure to
reduce emissions oFvolatile organic compounds. Beginning in 1996, refineries
have provided gasoline having a maximum vapor pressure of 7.8 psi during the
months May through September, a reduction from the maximum of 9 psi then
allowed by regulation. Subsequently, research and monitoring programs have
shown that the ozone season in the Corpus Christi urban airshed extends through
the month of October. Therefore, beginning in 2000, refineries have voluntarily
provided gasoline during October of each year having a maximum vapor pressure
of 9 psi, a reduction from the maximum of 11.5 psi currently allowed by
regulation.
The use of alternative fuels has been encouraged with the assistance of the Ciean
Cities Program of the U.S. Department of Energy. The City of Corpus Christi,
which operates a consumers' natural gas distribution system, has committed to
promote the use of compressed natural gas as an alternative fuel for vehicles. The
first public fueling station far compressed natural gas located at 4225 South Port
Avenue was constructed and placed into operation in 2001.
• Local propane dealers have actively promoted retail sale and use of propane for
vehicle fuel. One of the propane dealers installed a consumer accessible fueling
station with 24-hour, card reader availability.
The Corpus Christi Regional Transportation Authority (RTA) has aggressively
pursued strategies to utilize clean fuels. Fleet fixed-route services and para-transit
services use low emissions vehicles.
The Texas Legislature created and funded the Texas Emissions Reduction Plan to
provide grants and other incentives for improving air quality throughout the state.
The plan is being administered by the Texas Commission on Environmental
Quality, in cooperation with the following participants: the Texas Emissions
Reduction Plan Advisory Board, the Public Utility Commission of Texas, the
Comptroller of Public Accounts, the Texas Department of Transportation, the
Energy Systems Laboratory of Texas A&M University, the Texas Council of
Environmental Technology, and the State Energy Conservation Office. The plan
has been implemented in the Corpus Christi urban airshed to accomplish the
following:
o Provide funding for cleaner on- and off-road engines.
o Provide funding for energy efficiency programs.
o Provide funding for cleaner fuels and other infrastructure programs.
la
o Provide funding for research and development of new technologies.
o Replace rules that would have restricted operation of construction
equipment and also would have required early purchase of cleaner off-
road diesel equipment in certain counties in Texas.
o The following projects in the Corpus Christi urban airshed have been
approved:
Table 2
Total
Projected Tons per Projected Equipment
App. Approved NOx day NOx cost per or
Number licant Amount Reduciion Reduced ton Cate o Vehicles
20042044 Gulf Marine Fabricators $973,DD0 139.12 0.1113 $6,994 Re wer E ui ment
Terminal Transportation,
20042159 Inc. $33,000 4.72 0.0038 $6,992 Re wer E ui ment
Kiewit Offshore Services,
20042371 Ltd. $175,365 26.30 4.0210 $6,668 Re wer E ui ment
Berry Contracting, LP dba
20042378 Sa Ltd. $726,631 105.21 4.0842 $6,906 Re wer E ui ment
CORPUS CHRISTI AREA $1,947,996 275.35 4.22 $6,929
* Other control measures adopted by TCEQ that include Corpus Christi in their
scope include:
o Texas Low Emission Diesel {TxLED)
o Low Reid Vapor Pressure {RVP) Gasoline (required)
o Large Non-Road Spark-Ignition Engine Standards
o California NTE Heavy-Duty Diesel Engine Emission Standards
o Vehicle Anti-Tampering Restrictions
o Vehicle Gas Cap Testing (Dept. of Public Safety Rules)
o Portable Fuel container Rule
o Water Heaters, Small Boilers, and Process Heaters
o Voluntary Energy Efficiency/Renewable Energy
ACTION PLAN
PLANNING MEASURES. Air quality planning measures will be carried out by
TAMUK with near nonattainment funding provided by the Texas Legislature through
TCEQ and the City of Corpus Christi. Scientific research and study will enable
appropriate and effective control measures to be identified, prioritized, and selected as
necessary through the process established in this agreement. A proposed work plan for
two-years is attached as Appendix 3. A summarized scope of work follows:
Monitoring air pollution levels
• Operate and maintain three air-quality monitoring sites ~- Holly Road, Violet, and
Aransas Pass ~- within San Patricio and Nueces counties for ozone concentration
and meteorological parameters.
• Maintain an additional three monitoring sites in San Patricio County funded
through a grant from the Texas Environmental Education Program and TCEQ
(Appendix 5).
• Conduct continuous monitoring of nitrogen oxides (NOX) concentrations at the
11
Holly Road site during the ozone season.
Upgrade air monitoring equipment at the three Texas A&M University-Kingsville
(TAMUK} monitoring sites.
Conduct simultaneous monitoring of volatile organic compounds (VOC) at an
urban site, a downwind site and at an upwind site within the Corpus Christi urban
airshed and perform speciation analysis at the TAMUK hydrocarbon research
laboratory.
• Compare TAMUK monitoring data to those obtained from the TCEQ sites in
Carpus Christi during the ozone season.
Inventor,~g sources of emissions of ozone precursors
• Develop an Inventory Preparation Plan document for the emissions inventories
that will be submitted to the TCEQ for comment and approval. TCEQ staff will
be available for consultation regarding U.S. Environmental Protection Agency
(EPA) guidance.
• Enhance the 1999 emissions inventory for several categories of sources that
needed further investigation. These include minor point sources, construction
equipment, and key non-road sources. These source categories will be addressed
through surveys andlor other means to obtain an accurate inventory.
• Develop a reEned 2002 emissions inventory for the Corpus Christi urban airshed.
Activity data representing 2002 will be collected when available in order to
develop a 2002 inventory. A methodology to grow the other categories from the
1999 inventory will also be evaluated.
• Conduct survey from Permit by Rule {PBR) filings at TCEQ Region 14 for minor
point sources over Corpus Christi urban airshed to update the emission
inventories for 1999 and 2002 emissions inventory.
• Develop an updated point source database with speciated hydrocarbons for air
quality modeling activities for 1999 and 2002 emissions inventory.
• Investigate NOx and VOC hot spots along roadways where high values of
emissions are observed based upon real-world data. Develop quantifiable
estimates of emissions from major hot-spots for 1999 and 2002 emissions
inventory. Use the Texas A&M University-Corpus Christi (TAMU-CC) remote-
sensing project to evaluate tailpipe emissions from on-road mobile sources and
inter-compare with MOBILE6 estimates for the Corpus Christi urban airshed.
• Use GIS tools to spatially disaggregate county wide emissions into an equally
spaced mesh structure (lxlkm), which develops a high resolution data to be used
for modeling purposes, which also enables visual analysis of the EI over the
appropriate geographical region.
• Submit all area, on-road, non-road, and biogenic emissions data in the EPA NIF,
version 3.0, format for input into the National Emissions Inventory submitted to
TCEQ.
• Submit all point source emissions data in NIF format linked with MS Access
2003 to TCEQ.
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Anal zin air uali data:
• Continue the study of historical ozone concentration data obtained from TCEQ's
air monitoring stations, CAMS04 and 21, and data from additional research
stations, CAMS 659, 660, and 664.
• Utilize information gathered from the Corpus Christi Air Quality Study
continuous gas chromatographs to gauge the levels of "highly reactive
hydrocarbons" in the Corpus Christi urban airshed and determine their effect on
local ozone production using the CAMx Base Case Regional Model.
• Develop a conceptual model for the Corpus Christi urban airshed by using mare
enhanced analyses to select a representative set of modeling episodes exceeding
the eight-hour ozone NAAQS for the South Texas region with updated 2003/2004
air quality data.
• Develop web-based real-time air quality data dissemination tools easy for public
and research users to access for analyzing and interpreting air quality data. This
will provide user-friendly interface via the use of real-time online analysis tools
including active data retrieval system and graphical data analysis tools for air
quality planners and researchers.
Modeling air quality:
• Improve the September 1999 episode modeling performance generated by the
joint Near Nonattainment Area modeling project by refining emissions and
meteorological inputs and test model performance along the coastal regions.
• Test photochemical model sensitivity to variations in meteorological parameters
and emissions estimates as defined in the TCEQ approved Rider 8 Workplan
(Appendix 3) and its successor agreements.
• Test model sensitivity to changes in emissions input due to
changes/revisionslupdates in emissions factors, emissions models, andlor
emissions processing techniques.
• Update on-road estimates using MOBILE6 and compare with estimates using
MOBILESa. Evaluate photochemical model predictions based an the two sets of
on-road emissions estimate.
• Evaluate the impact of Corpus Christi sources on other near non-attainment areas
as well as evaluate the impact of upwind source regions on Corpus Christi.
• Develop an online support tool using a series of existing photochemical model
runs and Geographical Information Systems (GIS) for ambient air quality analysis
and planning.
* Improve the modeling of highly reactive volatile organic compounds (HRVOC} in
the creation of ozone based on the latest technological developments to better
understand the contribution and sensitivity of volatile organic compounds (VOC)
to ozone formation.
• Simulate photochemical model sensitivity runs to assess effective control
strategies and identify alternatives beneficial to Corpus Christi.
• Use the conceptual model developed and updated for the Corpus Christi urban
airshed for identifying additional high ozone episodes for modeling. Additional
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episodes will be identified in conjunction with other near nonattainment areas for
potentially additional joint modeling activities.
• The CCAQS continuous GCs will provide information to gauge the levels of
VOCs in Corpus Christi air. This information will be used with the CAMx Base
Case Regional Model to determine their effect on ozone production locally.
• Perform base case photochemical modeling for the Corpus Christi urban airshed
using the CAMx model for the 2002 high ozone episode and conduct a detailed
model performance evaluation.
• Identify emissions control strategies beneficial for the Corpus Christi urban
airshed using optimization techniques applied to the model simulations for both
the 1999 and 2002 episode.
• Notify TCEQ technical staff of file download location of any modeling files
generated that were not originated by TCEQ. Such file transfer site and files will
be available for download for at least 2 years. Additionally, TCEQ staff may ask
that modeling files be submitted. Modeling files shall be made available in EPS3
and CAMx-ready input formats, with message files and summaries.
VOLUNTARY EMISSIONS REDUCTION MEASURES. Employers and citizens in
the Corpus Christi urban airshed will implement the following voluntary control
measures to reduce emissions of ozone precursors:
Stationary emission sources, control devices, control procedures.
• Industries and the Part of Corpus Christi Authority will make specific
commitments to voluntarily reduce emissions, as indicated in letters included as
Appendix 6.
• Local industries, other local entities, andlor TCEQ will deploy infra-red cameras
as needed to assist in detecting VOC emissions for the purpose of identifying
voluntary emissions reductions in the Corpus Christi urban airshed.
Public awareness, notification and participation programs. Implementing voluntary
emissions reduction measures requires identifying measures or changes in behavior that
will result in reduced air emissions, and communicating with people engaged in those
behaviors to inform them of what they can do and why they should do it. Public
awareness, notification and participation programs are critical to achieving the goal of
this Agreement - to maintain attainment of the ozone standard. Activities will be
planned and implemented in coordination with the TCEQ Region 14 Office and Small
Business and Local Government Assistance Program.
• Air quality curricula for area schools for all grade levels.
• Anew digital presentation that can be modified for various audiences with an
accompanying hand-out.
• Contributions to newsletters and trade journals of local civic and business groups.
• Annual Clean Air Fairs.
* Clean Air High School Science Fairs.
• Clean Air bus wrap.
14
• Completion of an EPA funded research project investigating public health impact
of local air quality on children and promotion of findings with emission reduction
recommendations.
• Implementation of the "Statewide Transportation Air Quality Public Outreach
and Education Program " in partnership with the Texas Transportation Institute,
Texas Department of Transportation, and Texas Commission on Environmental
Quality using television spots, billboards, and radio spots to encourage Texans to
"Drive Clean across Texas" through car-pooling, proper vehicle maintenance and
alternative transportation options.
• Employment of TCEQ's world-wide-web-based "Today's Air Quality Forecast"
extending over four days, giving participants more advance notice enabling better
planning of ozone action day activities.
• Implementation of ozone action day messages, alternate route, and congestion
minimization messages on TxDOT intelligent message system highway signs.
+ Implementation of ozone action day messages and recommendations on National
Weather Service telephone recordings, web site, television weather information
channels, and weather radio announcements.
Small Business Assistance. The TAMUCC Department of Community Outreach
Follution Prevention Partnership will initiate a program to educate small businesses on
methods to reduce emissions focusing on mobile sources. Vehicle fleet operators and
fleet maintenance facilities will be trained to reduce emissions from fleet vehicles.
Owners of commercial and fleet vehicles will be identified, contacted, and baseline
information collected. Viable pollution prevention strategies including alternate fuels
and installation of pollution prevention equipment will be promoted. Technical support
will include assisting with the identification and quantification of potential emission
reductions, equipment and fuel selection and implementation, identification of funding
assistance sources, and assisting with the submission of funding proposals such as the
Texas Emissions Reduction Program (TERP). Analysis of fleet & commercial vehicle
emissions reduction will include potential participating companies or agencies contacted,
training materials, TERP or other funding applications submitted, data on pollution
prevention strategies implemented, vehicles converted to alternative fuels, and additional
research, data, and lessons learned. Similar programs will be delivered to fleet
maintenance facilities.
Mobile sources.
• Vehicle exhaust emissions. The TAMUCC Department of Community Outreach
Pollution Prevention Partnership will fully implement the remote vehicle exhaust
emissions sensor known as the AutoCheck program.
o Identify high polluting vehicles through the use of remote vehicle exhaust
emissions monitoring equipment and car care clinics where automotive
mechanics provide free advice to those with poor tailpipe emissions.
o Assist owners of high polluting cars and trucks in getting repair assistance,
and gather pre-repair and post-repair data to accurately measure the
reductions.
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4
o Educate the public about the importance of voluntary reduction of
emissions through car maintenance and changes in the way cars and trucks
are used.
o TAMUCC and TAMUK will collaborate to analyze and publish data
gathered by AutoCheck to serve as the basis of publishable research that
will further validate emissions measurement and reduction efforts
Trip reduction.
o TAMUCC is developing acampus-wide clean-commute program
coordinated by the Pollution Prevention Partnership. The University
serves 8,00(7 students and faculty and staff make up another 1,200, all of
which are potential commuters. The program entails geographic
information system (GIS) coding of the residence of each student, faculty
and staff member as well as existing bus routes. Gaps in bus service,
recommendations about revised service to fill gaps, preferred parking for
car-poolers, bicycle racks on campus serving buses and a privacy
protected on-line data base of all campus commuters willing to car-pool
with their associated GIS codes will be available to the campus
community.
o The Corpus Christi Metropolitan Planning Organization (MPO) will assist
other local government agencies in implementing the Regional Bicycle
and Pedestrian Plan with the objective of improving the facilities available
to encourage the use of bicycle and pedestrian trip alternatives.
Emissions Reductions from New Le~islationlRules.
TERP. The Texas Legislature created and funded the TERP to provide grants and
other incentives for improving air quality throughout counties affected by the
associated fee increases, including Nueces County and San Patricio County. The
plan is being administered by the TCEQ. Numerous on-going and future projects
lend themselves well to TERP funding such as retrofits far oil and gas
compressors, construction equipment retrofitting and other associated equipment
projects.
Other voluntary measures that could be considered
• Substantially increase the number of businesses notified on Ozone Action Days.
• Increase the number of public announcements about ozone.
• Post air quality information on business signs and marquees.
• Set up an ozone hotline.
• Implement an employee commute options awareness program for businesses with
twenty-five or more employees, including telecommuting, car-pooling, and trip
reduction
• Develop a pilot project for truck stop electrification to reduce truck idling time.
• Promote participation in Texas A&M University-Corpus Christi's small business
Pollution Prevention Partnership by additional business sectors.
• Expand the provision of bus service to special events.
l6
• Incorporate in public purchasing and construction contracts incentives for vendors
and contractors to use the various benefits of the Senate Bill 5 Texas Emissions
Reduction Plan.
IMPLEMENTATION OF ONE NEW MEASURE WITHIN ONE YEAR. The Air
Quality Committee will select and implement one or more voluntary control measures
within one year after this Agreement is signed. The measures selected may be
quantifiable reduction measures not yet implemented from the VOLUNTARY
EMISSIONS REDUCTION MEASURES listed above, or any other quantifiable measure
identified through the program of scientific research described in "Planning Measures"
consisting of inventorying emissions, monitoring ozone levels, assessing relative
effectiveness of control strategies, and evaluating specific control strategies that will
significantly affect ozone levels.
The fallowing quantifiable control measure is proposed to be implemented within one
year after this Agreement is signed:
"AutoCheck" On-Road Mobile Source Vehicle Exhaust Emissions Reduction _ProLct_
The TAMU-CC Department of Community Outreach, Pollution Prevention Partnership,
will fully implement the vehicle exhaust emissions project known as the AutoCheck
program.
• Identify high polluting cars and trucks through the use of exhaust emissions
monitoring equipment and car care clinics.
• Support owners of high polluting cars and trucks in receiving repair assistance,
and gather pre-repair and post-repair data to accurately measure and validate the
reductions.
• Educate the public about the importance of voluntary reduction of emissions
through car maintenance and changes in the way cars and trucks are used {driving
habits).
• TAMU-CC and TAMU-K will collaborate to analyze and publish data gathered
by AutoCheck to save as the basis of publishable research that will further
validate emissions measurement and reduction efforts.
The University of Denver deployed its Smart Sign emissions information system in
Corpus Christi, and the results showed that a small number of cars and trucks produce a
large portion of the total amount of tailpipe emissions from all vehicles sampled.
Subsequently, Supplemental Environmental Project funding and near nonattainment area
funding has provided for the procurement of exhaust emissions monitoring equipment
and operational expenses. The project, called AutoCheck, is capable of measuring the
exhaust emissions of vehicles. When used as the basis of ongoing Car Care Clinics, high
polluting vehicles can be located regularly and all participating drivers can receive
feedback on their car's performance. The testing and evaluation phase of AutoCheck has
indicated that the program will be successful in lowering pollution levels from vehicle
emissions by helping the drivers of high polluting cars and trucks get repair assistance.
Pre- and post-repair data was gathered to accurately measure the reductions in ozone-
17
related emissions (see Appendix 7). The average emissions per vehicle when first tested
and after repair were as follows:
NOx HC CO
Pre-Repair (ppm) 192 341 0.65
Post-Repair (ppm} 44 60 0.36
Reduction m 148 281 0.29
An estimated 12,000 vehicles will be screened annually, and high polluting vehicles will
be identified. Based on the results from testing and evaluation, it is estimated that fully
implementing the AutoCheck program during the first year after this Agreement is signed
will result in the owners of 160 identified high polluting vehicles volunteering to
participate in the repair and retesting program, yielding average measured reductions of
148 ppm NOx, 281 ppm HC, and 0.29 ppm CO.
CONTINGENCY MEASURES. The aforesaid measures are expected to be sufficient
to minimize exceedances and prevent violations of the 8-hour ozone standard, but if
exceedances or violations occur, then the region will be expected to voluntarily
implement some control measures that may be required in nonattainment areas in
addition to other control measures the community may select.
Definitions. For the purpose of this agreement, two-year average, exceedance and
violation are defined as follows:
Two-year average: The average for the current and previous calendar years of the
fourth highest daily maximum 8-hour average each calendar year.
Exceedance: A daily maximum 8-hour average exceeding 0.08 parts per million.
Violation: An average exceeding 0.08 parts per million of the fourth highest daily
maximum 8-hour average each calendar year for three consecutive calendar years.
Action Level. If there is deterioration in air quality evidenced by a two-year average of
84 parts per billion or higher and occurrence of four exceedances at CAMS 4 in the
current calendar year, or a two-year average of $4 parts per billion or higher and
occurrence of four exceedances at CAMS 21 in the current calendar year, then the cause
of the exceedances will be evaluated. Additional voluntary control measures will be
implemented. Within sixty days following the fourth exceedance, the Air Quality
Committee will review and select from the list of available control measures one or more
additional voluntary control measures which will prevent violations. Within ten days
following the action of the Air Quality Committee, a report of such action will be
submitted to the Texas Commission on Environmental Quality and the U.S.
Environmental Protection Agency. Implementation of selected voluntary control
measures will proceed in a timely manner to reduce ozone precursors as soon as
practicable.
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1. The measures selected may be a reduction measure not yet implemented from
the VOLUNTARY EMISSIONS REDUCTION MEASURES listed above, or any
other measure identified through the program of scientific research described in
"Planning Measures" consisting of inventorying emissions, monitoring ozone
levels, assessing relative effectiveness of control strategies, and evaluating
specific control strategies that will significantly affect ozone levels.
2. On the occasion of a fifth or subsequent exceedance, then the cause of the
exceedances will be evaluated. Additional voluntary control measures will be
implemented. Within sixty days following the fifth or subsequent exceedance, the
Air Quality Committee will review and select from the list of available control
measures one or more additional voluntary control measures which will prevent
violations. Within ten days following the action of the Air Quality Committee, a
report of such action will be submitted to the Texas Commission an
Environmental Quality and the U.S. Environmental Protection Agency.
Implementation of selected voluntary control measures will proceed in a timely
manner to reduce ozone precursors as soon as practicable.
Violations. If there is a deterioration of air quality as evidenced by recorded violations of
the 8-hour ozone standard, then the cause of the violations will be evaluated and
additional control measures needed will be identified. Within sixty days of a violation of
the 8-hour ozone standard, the Air Quality Committee will:
{1) review and evaluate control measures currently being used and the monitoring
results through an open, participative process,
(2) review modeling to evaluate the results of photochemical simulation of select
emissions control strategies, and identify measures through the program of
scientific research described in "Planning Measures" consisting of
inventorying emissions, monitoring ozone levels, assessing relative
effectiveness of control strategies, and evaluating specific control strategies
that will significantly affect ozone levels, and
(3} develop a recommendation to implement one or more additional control
measures, in consultation with the Texas Commission on Environmental
Quality and the U.S. Environmental Protection agency, for consideration by
the local governments.
Within sixty days following submission of the recommendation to the local governments,
the recommendation will be forwarded to the Texas Commission on Environmental
Quality and the U.S. Environmental Protection Agency requesting that such control
measures are made enforceable as appropriate in accordance with the following
procedure:
1. If a violation occurs, the City of Corpus Christi will request the Texas
Commission an Environmental Quality to:
a. Prepare and submit an updated emissions inventory to the U.S.
Environmental Protection Agency within two-years; and
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b. Amend, within one year of the recommendation being sent to the State
and EPA, the State Implementation Plan to enforce one or more of the
following additional control measures:
(1) Stage one vapor recovery systems at all gasoline retail outlets
(current regulations only apply to the larger outlets);
(2) Vehicle inspection and maintenance, including one or more of
the following elements:
• Two-speed idle emissions test
• On-board diagnostic system
• Dynamometer Acceleration Simulation Node 2 (ASM2)
test
• Remote sensing program
(3) Fugitive volatile organic compound emissions control for
valves at the leak detection level of S00 parts per million VOC,
and utilization of infrared technology or the regulatory reference
method to conduct periodic surveys of process units for VOC
sources outside the standard refinery leak detection and repair
programs.
(4) Additional generally accepted nitrogen oxides reductions or
controls for point sources to levels predicted by local modeling
necessary to achieve the 8-hour ozone standard.
(S} Incentives to encourage accelerated turnover of vehicle fleets.
(6} A reduction measure selected from the VOLUNTARY
EMISSIONS REDUCTION MEASURES listed above provided
that the measure is quantifiable, enforceable, surplus, and
permanent.
(7) Any other measure identified through the program of scientific
research described in "Planning Measures" consisting of
inventorying emissions, monitoring ozone levels, assessing relative
effectiveness of control strategies, and evaluating specific control
strategies that will significantly affect ozone levels.
Implementation of selected enforceable control measures will proceed in a
timely manner to reduce ozone precursors as soon as practicable but no longer
than 2~4 months from the date of violation. Following complete
implementation of selected enforceable control measures, a period of one year
will be granted to evaluate the effectiveness of selected measures. No
additional enforceable measures will be required during the one-year
evaluation period. During the evaluation period, an updated emissions
inventory will be incorporated into the program of scientific research
described in "Planning Measures" to provide updated assessments of the
relative effectiveness of control strategies, and ongoing evaluations of specific
control strategies, including the selected enforceable control measures.
2. If, after the measures in item 1 above have been implemented, another
violation occurs following the evaluation period, then the City of Corpus Christi
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will request the Texas Commission an Environmental Quality to amend the State
Implementation Plan to enforce one or more additional control measures selected
from the list of measures in the foregoing subparagraph 1 not yet implemented, or
from the following list:
a. A regulation that reduces the maximum allowable Reid vapor pressure of
gasoline during selected months of the ozone season.
b. A regulation that requires stage two vapor recovery at retail gasoline
outlets.
SEMI ANNUAL REVIEW. During the term of this agreement the Air Quality
Committee will voluntarily continue meeting to oversee the program of scientific
research described in "Flanning Measures" and to monitor progress. On an annual basis,
the Air Quality Committee during November through March will assess the effectiveness
of voluntary or mandatory control measures in conjunction with improved technical
understanding of the ozone problem. As part of the annual review the Committee will
consult with the Texas Commission on Environmental Quality and the U.S.
Environmental Protection Agency to consider whether to recommend any mid-course
corrections to the action plan. The Air Quality Committee will provide semiannual
reports for US EPA Region 6, TCEQ, and local stakeholders containing the latest
information on implementation of control measures, ozone monitoring data, and the
success of current measures.
CORPUS CHRISTI URBAN AIRSHED AGREEMENT
This Agreement is between the local governments representing the City of Corpus
Christi, Nueces County, San Patricia County, Port of Corpus Christi Authority, Corpus
Christi Metropolitan Planning Organization, and Corpus Christi Regional Transportation
Authority (herein referred to as the local governments), the Texas Commission on
Environmental Quality (TCEQ), and the United States Environmental Protection Agency
{EPA} for the purpose of reducing ground-level ozone concentrations in the Corpus
Christi Urban Airshed (Airshed) using locally selected control measures that account for
the unique character of the region and accommodate the region's social and economic
needs.
This agreement emphasizes local flexibility in selecting and implementing emissions
reduction measures. Given the varied emissions contributions and socioeconomic
characteristics of the entities in the Airshed, not all measures can or should be
implemented by all entities. Rather, each entity will implement the measures that work
for its specific jurisdiction and, when added together, work for the region as a whole.
I. GENERAL PROVISIONS
A. The signatory parties commit to develop, implement and maintain this
Agreement according to applicable EPA guidelines and adhere to all terms
and conditions stated in the guidelines.
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II. EPA AND TCEQ RESPONSIBILITIES
A. Regulations that apply to an area would still apply under the 8-03Flex
program. The 8-03FIex program does not shield an area from being redesignated
nonattainment for the 8-hour ozone standard if the area is in violation of that
standard. Should a violation occur, EPA would consider factors in section
l07)(d){3)(A) of the Act. These include "air quality data, planning and control
considerations, ar any other air quality-related considerations the Administrator
deems appropriate," including time to allow the implemented contingency
measures to work. As tong as the 8-03Flex agreement and control measures in
the MOA are being fully implemented, EPA would consider that circumstance in
exercising its discretion in making a decision to redesignate the area to non-
attainment.
B. The signatories' intent in entering into this Agreement is to proactively
implement and sustain air quality improvement strategies that are tailored to local
conditions and are effective, practical and measurable in reducing ground-level
ozone concentrations. This Agreement should in no way be construed as a
strategy to avoid or to defer a nonattainment designation under the 8-hour ozone
standard.
C. EPA and TCEQ commit to informing the Air Quality Committee of all
available options and flexibility, to the extent allowed by the Federal Clean Air
Act, in the event that the area, or any portion of the area, is determined to be non-
attainment for the 8-hour ozone standard for the duration of this agreement.
D. EPA supports flexible approaches that account for the complex nature of
ozone formation and has provided SIP credit for communities that adopt
quantifiable measures for ozone reduction plans that may be required in the
future. EPA will, consistent with the Federal Clean Air Act, do all it can do to
allow the Airshed appropriate State Implementation Plan credit for strategies
implemented under the terms of this Agreement.
E. This Agreement's terms do not abrogate any state or federal legal requirement.
The TCEQ and the EPA enter this Agreement solely for the purpose of their
responsibilities under Section 107(d)(3)(A) through (D} of the Federal Clean Air
Act.
III. LOCAL GOVERNMENT RESPONSIBILITIES
A. This Agreement developed by the Air Quality Committee contains an
introduction and sections describing the region's background, action plan,
other potential measures, contingency measures, coordination and public
participation process, schedules and reporting mechanism. These sections and
associated appendices further define the local governments and participating
entities commitments and actions.
22
1
B. The local interests will continue to conduct air dispersion modeling and
design through the Corpus Christi Air Quality Committee with funding
provided by the Texas Legislature through the TCEQ.
G The Air Quality Committee will continue to develop and regularly update area
emissions inventories with funding from the Legislature through the TCEQ.
D. The Air Quality Committee will implement contingency measure(s) that will
be effective if a violation of the 8-hour ozone standard occurs.
1. The contingency measures} will be selected from those listed in the
"Contingency Measures" section of this document and will be submitted
to TCEQ within 120 days of the date of the 8-hour ozone standard
violation for adoption into the State Implementation Plan.
2. The selected contingency measure(s) will be implemented within 24
months of the date of violation.
IV. EXPECTED AGREEMENT DURATION
A. The signature date of this Agreement is the start date of the agreement's term.
This agreement remains in effect for five years. By mutual agreement, the
parties may extend the term of this Agreement at the end of its term and at the
end of each successive term.
V. CONDITIONS FOR MODIFICATION OR EARLY TERMINATION
A. This agreement may be modified or terminated by mutual consent of all
signatory parties.
B. Any signatory party may withdraw from the agreement if provisions of the
agreement are not carried out by the other signatory parties. As a voluntary
program, the area can choose to end it's participation at any time.
C. Failure to abide by the terms of the agreement, should violation of the 8-hour
standard occur, could lead to redesignation as nonattainment for the $-hour
standard.
VI. ADDITIONAL TERMS OF THIS AGREEMENT
A. This Agreement creates no cause of action against any party beyond those, if
any, that may already exist under state or federal law. In addition, all parties
agree that this Agreement cannot be used against one another or by a third
party as an enforceable order in any court proceedings. This Agreement will
be reviewed and modified as needed.
23
Executed in multiple copies by tl~e signatory parties ro this Agreement. "fhe
representatives of the signatory parties executing this Agreement represent their authority
to sign the Agreement and to bind the signatory party they represent to the terms of this
Agreement.
City of Corpus Chris#i
George K. Moe, City Manager
By:_____~?1~,,,,, ~ Approved by City Attorney: ' ~` ~~~)~ to
Date: ~" ~~~ ~~ Date:~L`_. iU_'.[ _ ~ •f ..;~c-[.~ ~ -
[Yueces Couety
Samuet L. eal, County Budge
By.
Date:
Port of Corpus Christi Authority
John LaRue, Executive Director
By:
Date: ~=3 V "'~7
San Patricio County
'T'erry A. Sim son, Cou~3ty Judge
By:
Date: j~~
Corpus Christi Metropolitan
Planning Organization
Tom IViskala, Transportation
Planning Director
By: 4~. +~.~,.
Date: ~ -tn • J'l
Corpus Christi Regional
Transportation Authority
Ricardo Sanchez, General Manager
Date: D
U.S. Environmental Protection Agency
Mayor Richard E. Greene,
Regio 1 Administrator
13y:
Date:1p_ z-3 ~d Y'
Texas Commission on
>Environmental Quality
I•l. S. Buddy Garcia, Commissioner
By:
Date:
.. ~ ~,~;,,,~.~,.. AUTMUKItt-
~Y ~tll~Ci! ,..,,~.~45.
SECR~'1'ARY
24