where
|
X
|
=
|
pounds of VOC per gallon of coating (minus water)
for present coating
| |
---|---|---|---|---|
Y
|
=
|
pounds of VOC per gallon of coating (minus water)
found in Table 2105.10
| ||
Z1
|
=
|
density of VOC (in pounds of VOC per gallon
of VOC) for present coating
| ||
Z2
|
=
|
standard solvent density (7.36 pounds per gallon)
|
Table 2105.10
| |||
---|---|---|---|
Allowable Content of Volatile Organic
Compounds in Surface Coatings by Process
| |||
Surface Coating Processes
|
Allowable VOC Content
Weight of VOC Per
Volume of Coating
(Minus Water)
(pounds per gallon)
| ||
Can coating
| |||
(a)
|
Sheet basecoat
|
2.84
| |
(b)
|
Two-piece can exterior
|
2.84
| |
(c)
|
Two- and three-piece can interior body spray
|
4.25
| |
(d)
|
Two-piece can end exterior
|
4.25
| |
(e)
|
Side-seam spray
|
5.51
| |
(f)
|
End sealing compound
|
3.67
| |
Coil coating
|
2.60
| ||
Fabric coating
|
2.92
| ||
Vinyl coating
|
3.76
| ||
Paper coating
|
1.92
| ||
Automobile and light duty truck coating
| |||
(a)
|
Prime coat
|
1.92
| |
(b)
|
Top coat
|
2.84
| |
(c)
|
Repair
|
4.84
| |
Metal furniture coating
|
3.00
| ||
Magnet wire coating
|
1.67
| ||
Large appliance coating
|
2.84
| ||
Miscellaneous metal parts and products
| |||
(a)
|
Topcoats for locomotives and heavy-duty trucks
|
3.50
| |
(b)
|
Hopper car and tank car interiors
|
3.50
| |
(c)
|
Pail and drum interiors
|
4.30
| |
(d)
|
Clear coatings
|
4.30
| |
(e)
|
Air-dried coatings
|
3.50
| |
(f)
|
Extreme performance coatings
|
3.50
| |
(g)
|
All other coatings
|
3.00
| |
Wood cabinet and furniture finishing
| |||
(a)
|
Clear topcoat
|
5.9
| |
(b)
|
Wash coat
|
6.5
| |
(c)
|
Final repair coat
|
6.0
| |
(d)
|
Opaque ground coats and enamels
|
5.5
| |
(d)
|
All other coatings
|
7.0
| |
(f)
|
Clear sealers
|
6.2
|
Table 2105.16
| |||
---|---|---|---|
Emulsion Grade
|
Type
|
Maximum Percentage of Solvent
| |
E-1
|
Rapid Setting
|
0
| |
E-2
|
Rapid Setting (Anionic)
|
0
| |
E-3
|
Rapid Setting (Cationic)
|
3%
| |
E-4
|
Medium Setting
|
12%
| |
E-5
|
Medium Setting
|
12%
| |
E-6
|
Slow Setting (Soft Residue)
|
0
| |
E-8
|
Slow Setting (Hard Residue)
|
0
| |
E-10
|
Medium Setting (High Float)
|
7%
| |
E-11
|
High Float
|
7%
| |
E-12
|
Medium Setting (Cationic)
|
8%
|
Specific Coke Oven Batteries
| ||
---|---|---|
Source Name
|
Location
| |
Coke Battery #1
|
USX Corp. Clairton, PA
| |
Coke Battery #2
|
USX Corp. Clairton, PA
| |
Coke Battery #3
|
USX Corp. Clairton, PA
| |
Coke Battery #7
|
USX Corp. Clairton, PA
| |
Coke Battery #8
|
USX Corp. Clairton, PA
| |
Coke Battery #9
|
USX Corp. Clairton, PA
| |
Coke Battery #19
|
USX Corp. Clairton, PA ; or
|
Specific Coke Oven Batteries
| |||
---|---|---|---|
Source Name
|
Minimum Width
(inches)
|
Minimum Depth
(inches)
| |
Coke Battery #1
|
18 1/4
|
14 1/2
| |
Coke Battery #2
|
18 1/4
|
14 1/2
| |
Coke Battery #3
|
18 1/4
|
14 1/2
| |
Coke Battery #7
|
17
|
16 3/16
| |
Coke Battery #8
|
17
|
16 3/16
| |
Coke Battery #9
|
17
|
16 3/16
| |
Coke Battery #19
|
17
|
16 1/4
| |
Coke Battery #20
|
17
|
16 1/4
|
A = 0.76W0.42
|
where
| |||
---|---|---|---|---|
A
|
=
|
allowable mass emission rate in pounds per hour
per battery, and
| ||
W
|
=
|
actual coke pushing rate in tons of coke per
hour per battery
|
Specific Coke Oven Batteries
| ||
---|---|---|
Source Name
|
Location
| |
Coke Battery #1
|
USX Corp. Clairton, PA
| |
Coke Battery #2
|
USX Corp. Clairton, PA
| |
Coke Battery #3
|
USX Corp. Clairton, PA
| |
Coke Battery #7
|
USX Corp. Clairton, PA
| |
Coke Battery #8
|
USX Corp. Clairton, PA
| |
Coke Battery #9
|
USX Corp. Clairton, PA
| |
Coke Battery # 19
|
USX Corp. Clairton, PA
| |
Coke Battery #1
|
Shenango Inc. Neville PA
|
Specific Coke Oven Batteries
| ||
---|---|---|
Source Name
|
Location
| |
Coke Battery #13
|
USX Corp. Clairton, PA
| |
Coke Battery #14
|
USX Corp. Clairton, PA
| |
Coke Battery #15
|
USX Corp. Clairton, PA
| |
Coke Battery #20
|
USX Corp. Clairton, PA
| |
Coke Battery B
|
USX Corp. Clairton, PA
|
Specific Coke Oven Batteries
| |
---|---|
Source Name
|
Location
|
Coke Battery #1
|
USX Corp. Clairton, PA
|
Coke Battery #2
|
USX Corp. Clairton, PA
|
Coke Battery #3
|
USX Corp. Clairton, PA
|
Coke Battery #7
|
USX Corp. Clairton, PA
|
Coke Battery #8
|
USX Corp. Clairton, PA
|
Coke Battery #9
|
USX Corp. Clairton, PA
|
Coke Battery #13
|
USX Corp. Clairton, PA
|
Coke Battery #14
|
USX Corp. Clairton, PA
|
Coke Battery #15
|
USX Corp. Clairton, PA
|
Coke Battery #19
|
USX Corp. Clairton, PA
|
Coke Battery #20
|
USX Corp. Clairton, PA
|
A =156E-0.27
|
where
|
A
|
=
|
allowable hydrogen sulfide content in grains
per hundred dry standard cubic feet of coke oven gas, and
|
E
|
=
|
maximum coke oven gas production rate in millions
of cubic feet per day
|
Specific Coke Oven Batteries
| ||
---|---|---|
Source Name
|
Location
| |
Coke Battery #1
|
Shenango Inc. Neville PA
|
Specific Coke Oven Batteries
| ||
---|---|---|
Source Name
|
Location
| |
Coke Battery #1
|
USX Corp. Clairton, PA
| |
Coke Battery #2
|
USX Corp. Clairton, PA
| |
Coke Battery #3
|
USX Corp. Clairton, PA
| |
Coke Battery #7
|
USX Corp. Clairton, PA
| |
Coke Battery #8
|
USX Corp. Clairton, PA
| |
Coke Battery #9
|
USX Corp. Clairton, PA
| |
Coke Battery #13
|
USX Corp. Clairton, PA
| |
Coke Battery #14
|
USX Corp. Clairton, PA
| |
Coke Battery #15
|
USX Corp. Clairton, PA
| |
Coke Battery #19
|
USX Corp. Clairton, PA
| |
Coke Battery #20
|
USX Corp. Clairton, PA
| |
Coke Battery B
|
USX Corp. Clairton, PA
|
Actual Charge Rate in Tons
Per Hour
|
Allowable Emissions in Pounds
Per Hour
| |
---|---|---|
4
|
10
| |
8
|
15
| |
12
|
20
| |
18
|
27
| |
24
|
33
| |
32
|
40
| |
40
|
48
|
Arsenic
|
5 ppm maximum
| |
Cadmium
|
2 ppm maximum
| |
Chromium
|
10 ppm maximum
| |
Lead
|
100 ppm maximum
| |
PCB's
|
5 ppm maximum
| |
Ash
|
0.3% maximum
| |
Bottom Sediment and Water
|
2.0% maximum
| |
Flash Point
|
100° F. minimum
|
except:
|
Total Halogens
|
1,000 ppm maximum
| |
Heat of Combustion
|
18,000 BTU/lb. minimum
|
Total Halogens
|
1,000 ppm maximum
| |
Heat of Combustion
|
8,000 BTU/lb. minimum
|
Total Halogens
|
4,000 ppm maximum
| |
Heat of Combustion
|
8,000 BTU/lb. minimum
|
Table 1
| ||||
---|---|---|---|---|
Emission limits
| ||||
HMIWI size
| ||||
Pollutant
|
Units (seven-percent oxygen, dry basis)
|
Small
|
Medium
|
Large
|
Particulate matter
|
Milligrams per dry standard cubic meter (grains
per dry standard cubic foot)
|
115 (0.05)
|
69 (0.03)
|
34 (0.015)
|
Carbon monoxide
|
Parts per million by volume
|
40
|
40
|
40
|
Dioxins/furans
|
Nanograms per dry standard cubic meter total
dioxins/furans (grains per billion dry standard cubic feet) or nanograms
per dry standard cubic meter TEQ (grains per billion dry standard
cubic feet)
|
125 (55) or 2.3 (1.0)
|
125 (55) or 2.3 (1.0)
|
125 (55) or 2.3 (1.0)
|
Hydrogen chloride
|
Parts per million by volume or percent reduction
|
100 or 93%
|
100 or 93%
|
100 or 93%
|
Sulfur dioxide
|
Parts per million by volume
|
55
|
55
|
55
|
Nitrogen oxides
|
Parts per million by volume
|
250
|
250
|
250
|
Specific Sources and Conditions
| |||
---|---|---|---|
Source Name
|
Location
|
Permit Number
| |
Dock #2 Barge Loading
|
Glassport Transp. Center, Inc, Glassport, PA
|
(to be assigned)
|
Conditions:
| |
---|---|
A. Installation, operation, and maintenance
of an emission control device; and
| |
B. Emissions of PM-10 of not more than 2.9 grains/ton
of material loaded at all times.
|
2. Rail car unloading
|
Glassport Transp. Center, Inc, Glassport, PA
|
(to be assigned)
|
Conditions:
| |
---|---|
A. Installation, operation, and maintenance
of an emission control device; and
| |
B. Emissions of PM-10 of not more than 4.4 grains/ton
of material unloaded at all times.
|
Specific Sources and Conditions
| |||
---|---|---|---|
Source Name
|
Location
|
Permit Number
| |
3. Roads Yards & Mat'ls Hndlg.
|
Glassport Transp. Center, Inc, Glassport, PA
|
(to be assigned)
|
[other than those sources subject to Subsection
J(2)(a) and (b) of this section]
|
Conditions:
| |
A. Implementation of operating practices and
procedures and installation, operation, and maintenance of air pollution
control equipment and methods, approved in advance by the Department
and the EPA, sufficient to collect and control from all fugitive PM-10
sources subject to this Subsection J(2)(c) of this section at least
75% of all PM-10 emissions from such sources at all times; or
| |
B. Compliance with the following, constituting
presumptive collection and control from all fugitive PM-10 sources
subject to this Subsection J(2)(c) of this section of at least 75%
of all PM-10 emissions from such sources at all times:
| |
i. Installation, operation, and maintenance
of a dust suppressant system of sprays of water, or other chemicals
approved in advance by the Department, from sprinkler systems and/or
water trucks, capable of delivering a minimum of 2.5 gal. H2O (or equiv.)/sq. yd. per day to all yard areas used
for materials storage on the premises, and of delivering a minimum
of 0.15 gal. H2O (or equiv.)/sq. yd. per four-hour
period to all other areas of the premises except those areas that
are developed or landscaped with vegetation;
| |
ii. On each day during the months of May through
October all yard areas used for materials storage on the premises,
and in which any materials have been handled during the immediately
preceding 10 days, shall be watered with at least 2.5 gal. H2O (or equiv.)/sq. yd., and all other areas of the premises
except those areas that are developed or landscaped with vegetation
shall be watered with at least 0.15 gal. H2O (or equiv.)/sq. yd. every four (4) hours during hours of operation,
using a dust suppressant system approved by the Department under this
subsection, except when there has been at least 0.01 inches of new
or accumulated precipitation or the outside temperature has been below
40° F during the immediately preceding 24 hours according to the
National Weather Service at Pittsburgh International Airport;
| |
iii. On each day during the months of November
through April all yard areas used for materials storage on the premises,
and in which any materials have been handled during the immediately
preceding 10 days, shall be watered with at least 1.5 gal. H2O (or equiv.)/sq. yd., and all other areas of the premises
except those areas that are developed or landscaped with vegetation
shall be watered with at least 0.10 gal. H2O (or equiv.)/sq. yd. every four hours during hours of operation,
using a dust suppressant system approved by the Department under this
Subsection, except when there has been at least 0.01 inches of new
or accumulated precipitation or the outside temperature has been below
40° F during the immediately preceding 48 hours according to the
National Weather Service at Pittsburgh International Airport; and
| |
iv. A written report for each day shall be generated
daily by the owner or operator which shall:
| |
(a.) Include:
| |
(1) The name(s) of the owner(s) and operator(s)
of the source, and the date; and
| |
(2) For each and every area of the premises
subject to this section:
| |
(A.) A description and the size (in sq. yds.)
of the area;
| |
(B.) The start and end time of any utilization
of the dust suppressant system;
| |
(C.) The type, dilution ratio (if applicable),
total amount, and gal./sq. yd. of the dust suppressant used; and
| |
(D.) The name, title, and signature of the individual
verifying the completeness and accuracy of the report; and
| |
(b.) Be retained by the owner or operator of
the source for at least two years and be immediately submitted to,
and available for inspection and copying by, the Department upon request.
|
A = 0.02 (D) (L)
| |||
---|---|---|---|
where A
|
=
|
The area of ACM to be removed, encased, or encapsulated
in square feet;
| |
D
|
The outside diameter of the cylindrical facility
component, including any ACM to be removed, encased, or encapsulated,
insulation, coating, or covering, in inches; and
| ||
L
|
The length of the cylindrical facility component
from which, or on which, the ACM is to be removed, encased, or encapsulated,
in inches,
|
"- DANGER - ASBESTOS -
- CANCER AND LUNG DISEASE HAZARD -
- AUTHORIZED PERSONNEL ONLY -
- RESPIRATORS AND PROTECTIVE CLOTHING ARE REQUIRED
IN THIS AREA -"
|
VOC = (Wo)(Dc)/Vn
| ||||
Where:
| ||||
VOC
|
=
|
VOC content in lb VOC/gal of coating solids
| ||
Wo
|
=
|
Weight percent of VOC (Wv - Ww - Wex)
| ||
Wv
|
=
|
Weight percent of total volatiles (100% - weight percent solids)
| ||
Ww
|
=
|
Weight percent of water
| ||
Wex
|
=
|
Weight percent of exempt solvent(s)
| ||
Dc
|
=
|
Density of coating, lb/gal, at 25° C.
| ||
Vn
|
=
|
Volume percent of solids of the as-applied coating
|
Σi (Woi x
Dci x Qi) + ΣJ (WoJ x DdJ x QJ)
| |||
---|---|---|---|
VOCA
|
=
|
| |
Σi (Vni x
Qi)
|
Where:
| ||||
VOCA
|
=
|
VOC content in lb VOC/gal of coating solids for a dip coating,
calculated on a 30-day rolling average basis
| ||
Woi
|
=
|
Percent VOC by weight of each as-supplied coating (i) added
to the dip coating process, expressed as a decimal fraction (that
is 55% = 0.55)
| ||
Dci
|
=
|
Density of each as-supplied coating (i) added to the dip coating
process, in pounds per gallon
| ||
Qi
|
=
|
Quantity of each as-supplied coating (i) added to the dip coating
process, in gallons
| ||
Vni
|
=
|
Percent solids by volume of each as-supplied coating (i) added
to the dip coating process, expressed as a decimal fraction
| ||
WoJ
|
=
|
Percent VOC by weight of each thinner (J) added to the dip coating
process, expressed as a decimal fraction
| ||
DdJ
|
=
|
Density of each thinner (J) added to the dip coating process,
in pounds per gallon
| ||
QJ
|
=
|
Quantity of each thinner (J) added to the dip coating process,
in gallons
|
90% = (1 - E/V) x 100
| ||||
---|---|---|---|---|
Where:
| ||||
V
|
=
|
The VOC content of the as-applied coating, in lb VOC/gal of
coating solids
| ||
E
|
=
|
The Table 2105.77 limit for large appliances and metal furniture
surface coatings in lbs VOC per gallon of coating solids
|
Table 2105.77
| |||||||
---|---|---|---|---|---|---|---|
Emission Limits of VOCs for Large Appliance and Metal
Furniture Surface Coatings
| |||||||
Weight of VOC per Volume of Coating Solids
| |||||||
Baked
|
Air Dried
| ||||||
Surface Coating Process Category
|
kg/l
|
lb/gal
|
kg/l
|
lb/gal
| |||
1.
|
Large appliance coating
| ||||||
(a)
|
General, one component
|
0.40
|
3.3
|
0.40
|
3.3
| ||
(b)
|
General, multi-component
|
0.40
|
3.3
|
0.55
|
4.5
| ||
(c)
|
Extreme high gloss
|
0.55
|
4.62
|
0.55
|
4.5
| ||
(d)
|
Extreme performance
|
0.55
|
4.62
|
0.55
|
4.62
| ||
(e)
|
Heat resistant
|
0.55
|
4.62
|
0.55
|
4.62
| ||
(f)
|
Metallic
|
0.55
|
4.62
|
0.55
|
4.62
| ||
(g)
|
Pretreatment coatings
|
0.55
|
4.62
|
0.55
|
4.62
| ||
(h)
|
Solar absorbent
|
0.55
|
4.62
|
0.55
|
4.62
| ||
2.
|
Metal furniture coating
| ||||||
(a)
|
General, one component
|
0.40
|
3.3
|
0.40
|
3.3
| ||
(b)
|
General, multi-component
|
0.40
|
3.3
|
0.55
|
4.5
| ||
(c)
|
Extreme high gloss
|
0.61
|
5.06
|
0.55
|
4.5
| ||
(d)
|
Extreme performance
|
0.61
|
5.06
|
0.61
|
5.06
| ||
(e)
|
Heat resistant
|
0.61
|
5.06
|
0.61
|
5.06
| ||
(f)
|
Metallic
|
0.61
|
5.06
|
0.61
|
5.06
| ||
(g)
|
Pretreatment coatings
|
0.61
|
5.06
|
0.61
|
5.06
| ||
(h)
|
Solar absorbent
|
0.61
|
5.06
|
0.61
|
5.06
|
VOC = (Wo)(Dc)/Vn
| ||||
Where:
| ||||
VOC
|
=
|
VOC content in lb VOC/gal of coating solids
| ||
Wo
|
=
|
Weight percent of VOC (Wv - Ww - Wex)
| ||
Wv
|
=
|
Weight percent of total volatiles (100% - weight percent solids)
| ||
Ww
|
=
|
Weight percent of water
| ||
Wex
|
=
|
Weight percent of exempt solvent(s)
| ||
Dc
|
=
|
Density of coating, lb/gal, at 25° C.
| ||
Vn
|
=
|
Volume percent of solids of the as-applied coating
|
Σi (Woi x
Dci x Qi) + ΣJ (WoJ x DdJ x QJ)
| |||
---|---|---|---|
VOCA
|
=
|
| |
Σi (Vni x
Qi)
|
Where:
| ||||
VOCA
|
=
|
VOC content in lb VOC/gal of coating solids for a dip coating,
calculated on a 30-day rolling average basis
| ||
Woi
|
=
|
Percent VOC by weight of each as-supplied coating (i) added
to the dip coating process, expressed as a decimal fraction (that
is 55% = 0.55)
| ||
Dci
|
=
|
Density of each as-supplied coating (i) added to the dip coating
process, in pounds per gallon
| ||
Qi
|
=
|
Quantity of each as-supplied coating (i) added to the dip coating
process, in gallons
| ||
Vni
|
=
|
Percent solids by volume of each as-supplied coating (i) added
to the dip coating process, expressed as a decimal fraction
| ||
WoJ
|
=
|
Percent VOC by weight of each thinner (J) added to the dip coating
process, expressed as a decimal fraction
| ||
DdJ
|
=
|
Density of each thinner (J) added to the dip coating process,
in pounds per gallon
| ||
QJ
|
=
|
Quantity of each thinner (J) added to the dip coating process,
in gallons
|
90% = (1 - E/V) x 100
| ||||
---|---|---|---|---|
Where:
| ||||
V
|
=
|
The VOC content of the as applied coating, in lb VOC/gal of
coating solids
| ||
E
|
=
|
Limit of 2.9 lbs VOC per gallon of coating solids (0.35 kg VOC
per liter of coating solids)
|
VOCB = (Wo)/(Wn)
| ||||
Where:
| ||||
VOCB
|
=
|
VOC content in lb VOC/lb of coating solids
| ||
Wo
|
=
|
Weight percent of VOC (Wv - Ww - Wex)
| ||
Wv
|
=
|
Weight percent of total volatiles (100%-weight percent solids)
| ||
Ww
|
=
|
Weight percent of water
| ||
Wex
|
=
|
Weight percent of exempt solvents
| ||
Wn
|
=
|
Weight percent of solids of the as-applied coating
|
Σi (Woi x
Dci x Qi) + ΣJ (WoJ x DdJ x QJ)
| |||
---|---|---|---|
VOCA
|
=
|
| |
Σi (Wni x
Dci x Qi)
|
Where:
| ||||
VOCA
|
=
|
VOC content in lb VOC/lb of coating solids for a dip coating,
calculated on a 30-day rolling average basis
| ||
Woi
|
=
|
Percent VOC by weight of each as-supplied coating (i) added
to the dip coating process, expressed as a decimal fraction (that
is 55% = 0.55)
| ||
Dci
|
=
|
Density of each as-supplied coating (i) added to the dip coating
process, in pounds per gallon
| ||
Qi
|
=
|
Quantity of each as-supplied coating (i) added to the dip coating
process, in gallons
| ||
Wni
|
=
|
Percent solids by weight of each as-supplied coating (i) added
to the dip coating process, expressed as a decimal fraction
| ||
WoJ
|
=
|
Percent VOC by weight of each thinner (J) added to the dip coating
process, expressed as a decimal fraction
| ||
DdJ
|
=
|
Density of each thinner (J) added to the dip coating process,
in pounds per gallon
| ||
QJ
|
=
|
Quantity of each thinner (J) added to the dip coating process,
in gallons
|
90% = (1-E/V) x 100
| ||||
---|---|---|---|---|
Where:
| ||||
V
|
=
|
The VOC content of the as-applied coating, in lb VOC/lb of coating
solids
| ||
E
|
=
|
The Table 2105.79 limit for paper, film, and foil surface coating
in lbs VOC per lbs of coating solids
|
Table 2105.79
| ||||
---|---|---|---|---|
Emission Limits of VOCs for Paper, Film, and Foil Surface
Coatings
| ||||
Weight of VOC per Weight of Solids or Coating Applied
| ||||
Solids Applied kg VOC/kg solids
|
Coating Applied kg VOC/kg coatings
| |||
Surface Coating Process Category
|
(lb VOC/lb solids)
|
(lb VOC/lb coatings)
| ||
1.
|
Pressure-sensitive tape and label
|
0.20
|
0.067
| |
2.
|
Paper, film, and foil (not including pressure-sensitive tape
and label)
|
0.40
|
0.08
|
Table 2105.82
Emission Limits of VOCs for Industrial Solvent Cleaning
Operations
| |||||
---|---|---|---|---|---|
VOC Content Limitation As Employed
| |||||
Industrial Solvent Cleaning Operation
|
(pounds VOC per gallon)
|
(kilograms VOC per liter)
| |||
1.
|
Product cleaning during manufacturing process or surface preparation
for coating, adhesive, or ink application
| ||||
(a)
|
General
|
0.42
|
0.050
| ||
(b)
|
Electrical apparatus components and electronic components
|
0.83
|
0.099
| ||
(c)
|
Medical devices and pharmaceuticals
|
6.7
|
0.80
| ||
2.
|
Repair and maintenance cleaning
| ||||
(a)
|
General
|
0.42
|
0.050
| ||
(b)
|
Electrical apparatus components and electronic components
|
0.83
|
0.099
| ||
(c)
|
Medical devices and pharmaceuticals
| ||||
(i)
|
Tools, equipment and machinery
|
6.7
|
0.80
| ||
(ii)
|
General work surfaces
|
5.0
|
0.60
| ||
3.
|
Cleaning of coating or adhesive
|
0.42
|
0.050
| ||
4.
|
Cleaning of ink application equipment:
| ||||
(a)
|
General
|
0.42
|
0.050
| ||
(b)
|
Flexographic printing
|
0.42
|
0.050
| ||
(c)
|
Gravure printing
| ||||
(i)
|
Publication
|
0.83
|
0.099
| ||
(ii)
|
Packaging
|
0.42
|
0.050
| ||
(d)
|
Screen printing
|
4.2
|
0.50
| ||
(e)
|
Ultraviolet ink and electron beam ink application equipment,
except screen printing
|
4.2
|
0.50
| ||
(f)
|
Specialty flexographic printing
|
0.83
|
0.099
| ||
5.
|
Cleaning of polyester resin application Equipment not subject
to 40 CRF Part 63 Subpart WWWW
|
0.42
|
0.050
|