HomeMy WebLinkAboutB12-0221Consulting
Asbestos Inspection and Sampling Report
225 Wall St, Unit 307, Vail, Colorado 81657
Presented To:
Mr. Don Kelly
High Altitude Builders
Performed & Prepared By:
Mr. Rich Kreuscher
DS Consulting, Inc.
PO Box 6864
Avon,CO 81620
(970) 389 -3408
Project Details:
Project Number: 5863
Conducted: May 23, 2012
Homeowner: Mrs. Drummond
� LEQMC'
MAY 3 1 2012
N y.-1"
TOWN OF VAIL
` Department of Community Development
0 75 South Frontage Road
TOWN O F VAIL n Vail, CO 81657
Tel: 970 - 479 -2128
r.100 www.vailgov.com
Development Review Coordinator
BUILDING PERMIT APPLICATION
(Separate applications are required for alarm & sprinkler)
Project Street Address:
(Number) (Street)
(Suite #)
Building /Complex Name: �'(l4�d�
Contractor Information
Business Name: ;G V�11? ��U VU lC`K
DOT
Business Address: &,( 1 4
City �611,f State: zip: R 1A 3
Contact Name: I(�L
'Contact Phone: �) � � � `I I
Contact E -Mail: �`l ll��'iU
C cyy"
I hereby acknowledge that I have read this application, filled out
in full the information required, completed an accurate plot plan,
and state that all the information as required is correct. I agree to
comply with the information and plot plan, to comply with all Town
ordinances and state laws, and to build this structure according to
the town's zoning and subdivision codes, design review ap-
proved, International Building and Residential Codes and other
ordinanc of the Tow applicable thereto.
X 1
Owner /Owner's Representative Signature (Required)
Applicant Information
DRB #: — 7V M –
Building Permit #: vJ `D rxaa I
Lot #: Block # Subdivision:
Work Class: New ( ) Addition ( ) Alteration
Type of Building:
Single- Family ( ) Duplex(
) Multi - Family
Commercial ( ) Other( )
Work Type: Interior (
V
Exterior ( ) Both ( )
Valuation of
Work Included
Plans Included Work
Electrical es ( )No
( )Yes ( )No SOa f
Mechanical ( )Yes ( �ke
( )Yes ( )No
Plumbing ( )Yes ( *o
( )Yes ( )No
Building ` kes ( )No
( )Yes( )No I
Value of all work being performed: $ JCS' O
(value based on IBC Section 109.3 & IRC Section 108.3)
Electrical Square Footage
320
Detailed Scope and Location of Work:
10�� \exf I gt `acave
Ll- \\
Applicant Name: ( !)CJ��Cl7 4 P 2L
Applicant Phone: l Mb) 336
Applicant E -Mail: V \dc` , iyC�CVJ�%• s CII CMG ,
Project Informatio
Owner Name: �Y \Xl IIY1VYlQlI[!
Parcel #:
I
(For Parcel #, contact Eagle County Assessors Office at (970- 328 -8640 or visit
www.eaglecounty. uslpatie)
E
(use additional shee if n ec��WN OF
VAIL I
For Office Use Only:
Fee Paid:
Received From:
Cash Check #
CC: Visa / MC Last 4 CC # exp date:
Auth #
Date Received: LEA O NMOl
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TABLE OF CONTENTS
PROJECT OVERVIEW
1.0 Introduction
2.0 Scope of Work
3.0 Site Description
4.0 Certifications
5.0 Inspection, Sampling & Analytical Procedures
5.1 Inspection Procedures
5.2 Sampling Procedures
5.3 Analytical Procedures
6.0 Homogeneous Areas
6.1 Material Friability
6.2 Material Classifications
6.3 Material Conditions
6.4 Sample Quantities
7.0 Overview of Findings
8.0 Conclusion & Recommendations
9.0 Asbestos Abatement & Demolition Requirements
10.0 Major Asbestos Spill Response
11.0 Disclaimer & Limitations
APPENDIX A Inspector & Firm Asbestos Certificates
APPENDIX B Analytical Data
2
PROJECT OVERVIEW
1.0 Introduction
On May 23, 2012, Mr. Rich Kreuscher with DS Consulting, Inc. (DSC) conducted a limited asbestos
inspection and collected asbestos bulk- samples of suspect asbestos - containing materials (ACM) within a
portion of the single - family residence located at 225 Wall St, Unit 307, Vail, Colorado.
The purpose of the limited inspection was to identify and sample potentially hazardous friable and non -
friable ACM that has either been affected by a recent water loss and /or may be impacted by subsequent
restoration activities.
2.0 Scope of Work
The scope of the limited inspection and bulk- sampling was limited to specific areas of the residence
defined by the restoration company. These areas included the south living room wall, as well as the south
wall on the upper level. The remaining areas within the residence, garage or any out - building on the
property were not included in the scope of the inspection. The limited asbestos inspection did not
constitute a full building inspection and does not fulfill the asbestos inspection requirements for
structures that are to be demolished.
3.0 Site Description
The residence is a concrete - framed, two- level /loft, single - family residence in a multi -unit building.
4.0 Certifications
The limited asbestos inspection and bulk- sampling was conducted by Mr. Rich Kreuscher with DSC. DSC
is a Colorado Department of Public Health and Environment (CDPHE) certified Asbestos Consulting Firm,
Registration No. 14912. Mr. Kreuscher is a CDPHE certified Building Inspector; having certification
number 15812 (see Appendix A for certificates).
5.0 Inspection, Sampling & Analytical Procedures
5.1 Inspection Procedures
The limited asbestos inspection was conducted by an Environmental Protection Agency (EPA) and
CDPHE certified Building Inspector. The inspection procedures included identifying and sampling
suspect ACM within the pre - defined areas, submitting samples to an accredited laboratory for analysis,
classifying the materials and assessing their condition, and compiling a final report detailing the
inspection and the analytical results of the bulk - samples.
5.2 Sampling Procedures
Statistically random bulk - samples representative of the suspect ACM of each homogeneous area were
collected according to the guidelines published as EPA Final Rule: Title II of the Toxic Substances
Control Act (TSCA), 15 USC, Sections 2641 through 2654 and in compliance with 40 CFR, Part 763 and
CDPHE Regulation Number 8, Part B - Asbestos (Reg. 8).
3
DSC has collected the appropriate number of bulk- samples to meet all regulatory requirements for the
classification and quantity of each homogeneous area. Some minor destructive sampling was
conducted; however, walls, columns and perimeter pipe chases were not broken into in order to locate
and quantify suspect ACM. It should be noted that additional ACM might be located in these and other
inaccessible areas.
Materials containing less than 1% asbestos are not regulated by CDPHE Regulation 8, Part B - Asbestos.
However, all demolition /abatement activities should be performed following the applicable
Occupational Safety and Health Administration (OSHA) regulations. This would include, but not limited
to, the appropriate asbestos training for the type of material being removed /disturbed as well as having
a properly trained supervisor onsite, using wet removal methods, wearing adequate personal
protective equipment (HEPA- filtered particulate respirators), medical surveillance of workers,
personal- exposure air monitoring, area air monitoring in occupied buildings, etc. There may also be
landfill disposal requirements for these materials, depending on the facility. DSC recommends that all
demolition /renovation areas involving any amount of asbestos be subjected to visual inspections and a
final clearance air testing by a CDPHE - certified Air Monitoring Specialist (AMS) after the work has been
completed, but before any containments are dismantled and the area is reoccupied.
5.3 Analytical Procedures
All asbestos bulk - samples were analyzed by a National Voluntary Laboratory Accreditation Program
(NVLAP) accredited laboratory via Polarized Light Microscopy (PLM) for asbestos content (see
Appendix B for laboratory report).
The percentage of asbestos within each individual bulk - sample can vary depending on sample location,
homogeneity of the material, and the type of application. Any sample reporting a "TRACE" amount of
asbestos must be considered positive for asbestos greater than 1% unless it is re- analyzed utilizing the
point -count method and verified to be less than 1 %.
6.0 Homogeneous Areas
A Homogeneous Area (HA) includes materials that are uniform in appearance, color, texture and date of
application. The asbestos content of the bulk - samples collected within a homogeneous area can be
applied to the entire homogenous area if they conform to the above characteristics and the regulated
minimum sample quantities of each type of material are collected and analyzed.
6.1 Material Friability
A material can either be friable or non friable. A friable material is one that, when dry, can be
pulverized, or reduced to powder by hand pressure, a non - friable material cannot. A non - friable
material may become friable if its condition had deteriorated or has been impacted by forces that have
rendered it friable.
6.2 Material Classifications
Sampled materials are divided into one of the following three categories:
• Surfacing Material: sprayed or troweled onto structural building members
• Thermal System Insulation (TS1): any type of pipe, boiler, tank, or duct insulation
• Miscellaneous Material: all other materials not classified in the above two categories
4
6.3 Material Conditions
Sampled materials are placed into one of the three following categories of conditions:
Good: none to very little visible damage or deterioration
Damaged: the surface is crumbling, blistered, water - stained, gouged, marred or otherwise abraded
over less than one -tenth of the surface if the damage is evenly distributed, or one - quarter if the
damage is localized
Significantly Damaged: the surface is crumbling, blistered, water - stained, gouged, marred or
otherwise abraded over greater than one -tenth of the surface if the damage is evenly distributed,
or one - quarter if the damage is localized
6.4 Sample Quantities
DSC collected at least the minimum number of samples from each homogeneous area necessary to meet
all regulatory requirements for the quantity of material to be disturbed. The quantities listed in this
report are approximate and on -site verification of the exact quantity of each material is required. The
following outlines the minimum sample quantities required per homogeneous area:
Surfacing Materials: up to 1,000 ftz of material requires a minimum of three (3) samples; between
1,000 ftz and 5,000 ftz of material requires a minimum of five (5) samples; over 5,000 ftz of
material requires a minimum of seven (7) samples; one (1) sample of each patch
Thermal System Insulation (TSI): each homogeneous area requires a minimum of three (3)
samples; at least one (1) sample must be collected from each patch; and collect enough samples
sufficient to adequately assess the material and determine the asbestos content for TSI fittings
such as pipe elbows or T's.
Miscellaneous Materials: collect enough samples sufficient to determine the asbestos content
7.0 Overview of Findings
Asbestos was not reported within any of the bulk - samples collected and analyzed. DSC collected a
total of three (3) asbestos bulk - samples of one (1) homogeneous area.
Table 1 below describes the materials composing each homogeneous area as well as the locations of each
bulk - sample collected. Also listed is the classification, condition, friability and estimated quantity of
material to be removed and /or disturbed, as well as the asbestos content within each bulk - sample.
Please see Appendix B: Analytical Data for the layer break -down of each bulk - sample.
TABLE 1
HA Sample Material
Sample
Material
Material Estimated Material Asbestos
# ID Description
Location
Classification
Condition Quantity Friability Content
SM1 -1 White, Hand Troweled
Main Level Living Room, East SM
G —150 ftz Friable ND
Drywall Texture
Wall
1 SM1 -2 White, Hand Troweled
Drywall Texture
Upper Level Loft, East Wall
SM
G —150 ftz Friable ND
SM1 -3 White, Hand Troweled
Drywall Texture
Upper Level Loft, East Wall
SM
G 150 ftz Friable ND
HA - Homogeneous Area
G - Good
CHRY - Chrysotile
SM - Surfacing Material
ND - None - detect
D - Damaged
ACT - Actinolite
MM - Miscellaneous Material
TR - Trace, <1% Visual Estimate
SD - Significantly Damaged
TSI - Thermal System Insulation
8.0 Conclusion & Recommendations
ACM was not identified within the areas of the residence that were within the scope of the limited
inspection and bulk - sampling performed on May 23, 2012; therefore, no professional abatement activities
are required to remove or disturb the above - referenced sampled materials.
9.0 Asbestos Abatement & Demolition Requirements
If ACM is to be removed or disturbed in a single - family residence, and the total quantity exceeds any of
the regulatory trigger levels of 50 linear ft. on pipes, 32 ftz on other surfaces, or the volume equivalent of
a 55- gallon drum, a CDPHE- certified General Abatement Contractor (GAC) is required to perform the
work. The regulatory trigger levels within a commercial building are 260 linear ft. on pipes, 160 ftz on
other surfaces, or the volume equivalent of a 55- gallon drum. In addition, formal notification to CDPHE
prior to the abatement of ACM as well as air monitoring, visual inspections, and final air clearances by a
CDPHE - certified Asbestos AMS is required. DSC can provide the client or building owner with a proposal
for project design, abatement oversight and air monitoring upon request.
CDPHE regulations allow for the demolition of a building that contains non - friable asbestos - containing
materials, such as caulking, mastic or resilient floor tiles. However, demolition must be completed
without causing the non - friable ACM to be rendered friable. Burning a building with any ACM is
prohibited. Operations such as sanding, cutting, crushing, grinding, pneumatic jacking, etc. of ACM are
not permitted. Recycling of building materials such as concrete, metal, or wood that are bonded or
contaminated with ACM, e.g. glue, caulking, or mastic is also prohibited. If any of the non - friable asbestos
containing materials are to be recycled and rendered friable after demolition (i.e. crushing mastic - coated
concrete), these materials must be abated of all ACM prior to shipping offsite for recycling.
OSHA regulations regarding occupational exposure during demolition activities is still mandatory. OSHA
29 CFR 1926.1101 requires that workers performing construction - related activities be protected from
asbestos fibers in excess of the permissible exposure limit of 0.1 f /cc of air. Contractors are must comply
with applicable provisions of OSHA 29 CFR 1926.1101 during demolition and renovation activities.
These OSHA provisions include, but are not limited to, PPE and respirators, personnel training, personal -
exposure air monitoring, employee medical surveillance, wet removal methods, signage for regulated
areas, etc.
10.0 Major Asbestos Spill Response
If ACM is significantly damaged and the total quantity exceeds the regulatory trigger levels, the area is
deemed a "Major Asbestos Spill." The area is consequently subject to the requirements in Reg. 8, Section
III.T.1. - Major Asbestos Spills, as outlined below. Additional asbestos air or dust sampling should also be
conducted within the remaining areas not directly impacted by the Major Asbestos Spill to determine if
asbestos - containing dust /debris has spread to adjacent areas. If asbestos fibers are found within any
other areas or on building contents, they should be included in the scope of professional abatement and
decontamination. The following response actions must be followed per Colorado Reg. 8 when a Major
Asbestos Spill occurs:
Restrict access to the area and post warning signs to prevent entry to the area by persons other
than those necessary to respond to the incident.
Shut off or temporarily modify the air handling system to prevent the distribution of asbestos
fibers to other areas.
• Immediately contact the Division by telephone, submit a notification in compliance with
subsection III.E. (Notifications) and, if in an area of public access, apply for a permit in accordance
with subsection III.G. (Permits).
• Be exempted from the requirements to have a certified Supervisor on -site at all times, until such
time as the immediate danger has passed. Any cleanup or asbestos abatement that must occur
after the immediate danger has passed shall be supervised by a person certified by the Division.
• Using certified Supervisors and certified Workers in accordance with section 11. (Certification
Requirements) of this Regulation, seal all openings between the contaminated and
uncontaminated areas and establish none - detect air pressure within the contaminated area in
accordance with paragraph III.J. (Air Cleaning and None - detect Pressure Requirements). This is to
be accomplished using polyethylene sheeting to cover areas such as doorways, windows, elevator
openings, corridor entrances, grills, drains, grates, diffusers and skylights.
• HEPA vacuum or steam clean all carpets, drapes, upholstery, and other non - clothing fabrics in the
contaminated area, or discard these materials.
• Launder or discard contaminated clothing in accordance with subsection III.R. (Waste Handling).
• HEPA vacuum or wet clean all surfaces in the contaminated area.
• Discard all materials in accordance with subsection III.R. (Waste Handling).
• Following completion of subparagraph III.T.l.a. through III.T.1.i. above, comply with air
monitoring requirements as described in subsection III.P. (Clearing Abatement Projects); air
samples shall be collected aggressively as described in 40 C.F.R. Part 763, Appendix A to Subpart
E (EPA 1995), except that the air stream of the leaf blower shall not be directed at any friable ACM
that remains in the area and
• Comply with any other measures deemed necessary by the Division to protect public health.
11.0 Disclaimer & Limitations
The activities outlined in this report were conducted in a manner consistent with a level of care and
expertise exercised by members of the environmental consulting and industrial hygiene profession. All
activities were performed in accordance with all applicable federal, state, and local regulations as well as
generally accepted standards and professional practice. No warranty is either expressed or implied. DSC
assumes no responsibility or liability for error in public information utilized, statements from sources
other than DSC, or developments resulting from situations outside the scope of this project.
The details provided within this report outline the inspection activities on the date(s) indicated and
should not be relied upon to represent conditions at a later date, the limited number of bulk - samples
collected, and the laboratory results of those bulk - samples. The laboratory results contained in this
report apply specifically to the materials in which bulk- samples were collected. The results do not
include or apply to any other materials within the structure that were not sampled, but may contain
asbestos; including materials that may be hidden or inaccessible. Additional inspection and bulk -
sampling activities would be required to determine if any other materials contain asbestos.
This report has been prepared on behalf of and exclusively for use by the Client, with specific application
to their project as discussed in the scope of work. The results of any surfacing material indicated in this
report also includes any associated overspray of that material, e.g., under carpet, above suspended
ceilings, etc. The information contained in this report is intended as supplementary material for
abatement design and is not to be used as the scope of work for abatement activities, bidding or billing
purposes. Contractors or consultants reviewing this report must draw their own conclusions regarding
further investigation or remediation deemed necessary. DSC can provide a full scope of work for
8
abatement upon request. DSC does not warrant the work of regulatory agencies, laboratories or other
third parties supplying information which may have been used in the preparation of this report.
9
APPENDIX A
INSPECTOR AND FIRM CERTIFICATIONS
10
STATE OF COLORADO
ASBESTOS
CERTIFICATION*
Colorado Ihpartment of Public I lcalth
and Environment
Air Pollution Control Div ision
I his certifies that
Rich Kreuscher
Certification \o: 15812
has met the requirements of 25.7 -507• C.R.S. and Air Quality Control
Commission Regulation Flo. 8, Part B, and is hereby certified by the
state of Colorado in the following discipline-
Building Inspector*
I sued: 11/10/2011
1. v Aires un: 11110/2012
APCD t4aiaroara+.
• nYn.emarWr i, �vhd wh +irl l4 pnv.ww r/ r .+nrW O.'•�v.w.pp..,rJ oyi.u+R r,wru
myka., a wr i..'y+ix gw*pd Wre
STATE OF COLORADO
ASBESTOS CONSULTING FIRM
+ ' ;s�'Columdo Department of Public H f
eahh
R '## and Environment
.Air Pollution Control Division �
This certifies that - � §
DS Consulting, Inc.
k
Registration No. ACF- 14912
has met the regikiration rcquiremeuls of 2.9- 7.507. C.R.S. and the Air Quality Control
Commission Regulation No R. Pan B. and is hereby authorized to perform asbestos consulting
activities as required under Regulation No R. Part B. in the state of Colorado.
Issued: January 30.2014 _
Expires : January 10. 2013 1 8 7
Affim
11
APPENDIX B
ANALYTICAL DATA
12
ACROb10LOCly LAbOrtATdl2y
ASSUC lA1tS, INL 31- l!Pk3MA1kD
Certificate of Analysis
13949 W. Colfax Ave
Suite 205
Lakewood, CO 80401
303.232.3746
www.aerobioloay.net
Client Name
Street address
DS Consulting
5366 Flatrock Ct
� M
` LP
Date Collected:
Date Received:
05/23/12
05/23/12
City, State ZIP
Morrison, CO 80465
Non - Fibrous
Material
Percentage
Date Analyzed:
05/23/12
Aum
Rich Kreuscher
NVLAP Lab Code 200860 -0
Date Reported:
05/23/12
Client Project Name:
225 Wall St. Unit 307 Vail, CO
Trace =Less Than I%
Project ID:
12005891
ND =None Detected
12005891 -1B
White Joint Compound
Job 1D:
25%
Test Requested: 3002, Asbestos in Bulk Samples
Method: Polarized Light Microscopy / Dispersion Staining (PLM), Method for the Determination of Asbestos in Bulk Building Materials. EPA-600/R-93/116, July 1993.
Sample Identification
Physical Description of Sample/Layer
Homo-
geneous
Y/N
Layer
Percentage
Asbestos Detected
Asbestos Percentage
Non - Asbestos
Fiber
Percentaize
Non - Fibrous
Material
Percentage
Matrix
Material
Com osition
Client
Lab Sample Number
SMI -1
12005891 -1A
White Tape
N
10%
ND
Trace =Less Than I%
99
1
ND =None Detected
12005891 -1B
White Joint Compound
N
25%
ND
2
98
C, P
12005891 -1C
White Texture w /White Paint
N
30%
ND
2
98
C, P
12005891 -1D
Tan/White Drywall
N
35%
ND
10
90
G
SM 1 -2
12005891 -2A
White Tape
N
15%
ND
99
1
12005891 -2B
White Joint Compound
N
20%
ND
2
98
C, P
12005891 -2C
White Texture w /White Paint
N
30%
ND
2
98
C, P
12005891 -2D
Tan/White Drywall
N
35%
ND
10
90
G
SM1 -3
12005891 -3A
White Tape
N
10%
ND
99
1
12005891 -3B
White Joint Compound
N
25%
ND
2
98
C, P
Q = Quartz P = Perlite
C = Carbonates B = Binder
G = Gypsum D= Diatoms
M = Mica
T = Tar
NTR = Non - Asbestiform TR
NAC = Non - Asbestiform AC
Page 1 of 3
A = Amosite
AC = Actinolite
CHRY= Chrysottle
CR = Crocidolite
TR = Tremolite
P aul nappe
Paul Knappe
Trace =Less Than I%
Laboratory Analyst
Asbestos Laboratory Supervisor
ND =None Detected
13949 W. Colfax Ave. Suite 205, Lakewood CO 80401, 303.232.3746
Q = Quartz P = Perlite
C = Carbonates B = Binder
G = Gypsum D= Diatoms
M = Mica
T = Tar
NTR = Non - Asbestiform TR
NAC = Non - Asbestiform AC
Page 1 of 3
Acrzobioloc l-a►bor2aTOrry
ASSt�C IAI�S, IN
r2' /6fYMrs+s (�1�1R�
Certificate of Analysis
13949 W. Colfax Ave
Suite 205
Lakewood, CO 80401
303.232.3746
www.aerobioloay.net
Client Name
Street address
DS Consulting
5366 Flatrock Ct
��� ^ moo
K I
Date Collected:
Date Received:
05/23/12
05/23/12
City, State ZIP
Morrison, CO 80465
l L� j f
Date Analyzed:
05/23/12
Attn:
Rich Kreuscher
NVLAP Lab Code 200860 -0
Date Reported:
05/23/12
Client Project Name:
225 Wall St. Unit 307 Vail, CO
Trace =Less Than 1%
ND =None Detected
Project ID:
12005891
C P
12005891 -31)
Tan/White Drywall
Job ID:
35%
Test Requested: 3002, Asbestos in Bulk Samples
Method: Polarized Light Microscopy / Dispersion Staining (PLM), Method for the Determination of Asbestos in Bulk Building Materials. EPA- 600/R- 93/116, July 1993.
Sample Identification
Physical Description of Sample/Layer
Homo-
geneous
Y/N
Layer
Percentage
Asbestos Detected
Asbestos Percentage
Non - Asbestos
Fiber
Percentage
Non - Fibrous
Material
Percenta a
Matrix
Material
Composition
Client
Lab Sample Numb er
SM1 -3
12005891 -3C
White Texture w /White Paint
N
30%
ND
Trace =Less Than 1%
ND =None Detected
2
98
C P
12005891 -31)
Tan/White Drywall
N
35%
ND
10
90
G
Q = Quartz P = Perlite
C = Carbonates B = Binder
G = Gypsum D= Diatoms
M = Mica
T = Tar
NTR = Non - Asbestiform TR
NAC = Non- Asbestiform AC
Page 2 of 3
A = Amosite
AC = Actinolite
I/
AN = Anthophyllite
CHRY= Chrysotile
CR = Crocidolite
TR = Tremolite
P aul ppe
Laboratory Analyst
Paul Knappe
Asbestos Laboratory Supervisor
Trace =Less Than 1%
ND =None Detected
13949 W. Colfax Ave. Suite 205, Lakewood CO 80401, 303.232.3746
Q = Quartz P = Perlite
C = Carbonates B = Binder
G = Gypsum D= Diatoms
M = Mica
T = Tar
NTR = Non - Asbestiform TR
NAC = Non- Asbestiform AC
Page 2 of 3
13949 W. Colfax Ave
Suite 205
AFR(717ic - A "c L bc - i- RATC1Ry Lakewood, CO 80401
ASSnC:IATFS, INC:nRI'nRATFD 303.232.3746
C Certificate of Analysis www.aerobioloay.net
DS Consulting Date Collected: 05/23/12
5366 Flatrock Ct f Date Received: 05/23/12
Morrison, CO 80465 Date Analyzed: 05/23/12
Rich Kreuscher NVLAP Lab Code 200860 -0 Date Reported: 05/23/12
Client Project Name: 225 Wall St. Unit 307 Vail, CO Project ID: 12005891
Job ID:
General Notes
♦ ND indicates no asbestos was detected; the method detection limit is 1 %.
♦ Trace or " <1" indicates asbestos was identified in the sample, but the concentration is less than 1 %.
♦ All regulated asbestos minerals (i.e. chrysotile, amosite, crocidolite, anthophyllite, tremolite, and actinolite) were sought in every layer of each sample, but only those asbestos
minerals detected are listed. Amosite is the common name for the asbestiform variety of the minerals cummingtonite and grunerite. Crocidolite is the common name used for the
asbestiform variety of the mineral riebeckite.
♦ Tile, vinyl, foam, plastic, and fine powder samples may contain asbestos fibers of such small diameter (< 0.25 microns in diameter) that these fibers cannot be detected by PLM.
For such samples, more sensitive analytical methods (e.g. TEM, SEM, and XRD) are recommended if greater certainty about asbestos content is required. Semi - quantitative bulk TEM
floor tile analysis is accepted under NESHAP regulations.
♦ These results are submitted pursuant to Aerobiology Laboratory Associates, Inc.'s current terms and conditions of sale, including the company's standard warranty and limitation
of liability provisions. No responsibility or liability is assumed for the manner in which the results are used or interpreted.
♦ Unless notified in writing to return the samples covered by this report, Aerobiology Laboratory Associates, Inc. will store the samples for a minimum period of thirty (30) days
before discarding. A shipping and handling charge will be assessed for the return of any samples.
♦ Aerobiology does not guarantee the results of tape lifts, microvacs, wipe, and/or debris samples. Accurate analysis cannot be performed due to particle size, media used, and/or
amount of material given. Analysis of these materials should be preformed by a TEM. A result of ND does not indicate that the sample area does not contain asbestos. It means the
analyst could not identify asbestos in the specific sample for the reasons listed above.
Notes Required by NVLAP
♦ This report must not be used by the client to claim product certification, approval, or endorsement by NVLAP, NIST, or any agency of the Federal Government.
♦ This test report relates only to the items tested or calibrated.
♦ This report is not valid unless it bears the name of a NVLAP- approved signatory.
♦ Any reproduction of this document must include the entire document in order for the report to be valid.
Page 3 of 3 13949 W. Colfax Ave. Suite 205, Lakewood CO 80401, 303.232.3746