BIO-CHEM Laboratories, Inc. Work Order Sample Summary. CLIENT: Cascade Thornapple River Assoc. Project: Water Analysis Lab Order:

Similar documents
BIO-CHEM Laboratories, Inc. Work Order Sample Summary. CLIENT: CTRA Project: 6454 T Lab Order: A 6454 Aqueous 3/1/2013.

Solid Phase Micro Extraction of Flavor Compounds in Beer

Validation of USEPA Method Using a Stratum PTC, AQUATek 100 Autosampler, and Perkin-Elmer Clarus 600 GC/MS

Validation of Environmental Water Methods on One System: Considerations for Sample Volume, Purge Parameters and Quality Control Parameters

Analysis of Volatile Organic Compounds Using USEPA Method 8260 and the 4760 Purge and Trap and the 4100 Autosampler

EPA TO-17 Volatile Organic Compounds

ANALYTICAL REPORT. Job Number: Job Description: Transform Complete

Roger Bardsley, Applications Chemist; Teledyne Tekmar Page 1

Optimal VOC Method Parameters for the StratUm PTC Purge & Trap Concentrator

Validation of USEPA Method 8260C Using Teledyne Tekmar Atomx, and Perkin-Elmer Clarus 600 GC/MS

US EPA Method with the Tekmar Lumin P&T Concentrator, AQUATek LVA and Agilent 7890B GC/5977A MS

CALA Directory of Laboratories

US EPA Method 8260 with the Tekmar Atomx XYZ P&T System and Agilent 7890B GC/5977A MS

A Comparison of Volatile Organic Compound Response When Using Nitrogen as a Purge Gas

Solid Phase Micro Extraction of Flavor Compounds in Beer

Maximizing Production While Minimizing Costs

National Pollutant Discharge Elimination System (NPDES); BADCT Limits for Volatile Organic Compounds

Using Hydrogen as An Alternative Carrier Gas for US EPA 8260

Optimizing. Abstract: is standardd. procedures. altered to

Roger Bardsley, Applications Chemist; Teledyne Tekmar P a g e 1

Analysis of Volatile Organic Compounds in Water and Soil by EPA Method 8260 with the Atomx Concentrator/Multimatrix Autosampler

Analysis of Volatile Organic Compounds in Soil Samples by EPA Method 8260 with The Stratum PTC and SOLATek 72 Multi-Matrix Autosampler

Exploring US EPA Method 524 Purge and Trap Variables: Water Vapor Reduction and Minimizing Cycle Time

Maximizing Sample Throughput In Purge And Trap Analysis

Copies: Dave Favero, RACER File

Associates. Project No.: October 25, 2017

AUTONOMOUS, REAL TIME DETECTION OF 58 VOCS IN THE PANAMA CANAL

A Single Calibration Method for Water AND Soil Samples Performing EPA Method 8260

Methanol Extraction of high level soil samples by USEPA Method 8260C

Validation of Volatile Organic Compound by USEPA. Method 8260C. Application Note. Abstract. Introduction. Experimental-Instrument Conditions

Optimizing Standard Preparation

Performance of a Next Generation Vial Autosampler for the Analysis of VOCs in Water Matrices

ANALYTICAL RESULTS. Project: Mayflower, AR Pipeline Incident

Analysis. Introduction: necessary. presented. Discussion: As part of be carried. consistent and reliable data. (MoRT) to.

Table 1 Soil and Groundwater Sampling Summary Table

2017 EPA Method Update Rule and EPA Method 624.1

Ed George and Anaïs Viven Varian, Inc.

Improved Volatiles Analysis Using Static Headspace, the Agilent 5977B GC/MSD, and a High-efficiency Source

The following report includes the data for the above referenced project for sample(s) received on 5/15/2017 at Air Toxics Ltd.

CALA Directory of Laboratories

Target Compound Results Summary

U.S. EPA VOLATILE ORGANICS METHOD USING PURGE AND TRAP GC/MS

ANALYTICAL REPORT. Results relate only to the items tested and the sample(s) as received by the laboratory. Page 1 of 5

ANALYTICAL REPORT. Job Number: SDG Number: Job Description: Joint Base Cape Cod

Validation of USEPA Method Using a Stratum PTC and the New AQUATek 100 Autosampler

System and JUREK ANNE. Introduction: in an in purge and. trap sampling. Discussion: As part of. consistent and reliable data. (MoRT) to.

Appendix 2 Data Distributions for Contaminants in Water and Sediment Samples in Response to the Deepwater Horizon Oil Spill, 2010

Certificate of Accreditation

Certificate of Accreditation

Method 8260C by Purge and Trap Gas Chromatography Mass Spectrometry using the Clarus SQ 8

Optimizing of Volatile Organic Compound Determination by Static Headspace Sampling

Optimal Conditions for USEPA Method 8260B Analysis using the EST Analytical Sampling system and the Shimadzu GCMS-QP2010s


Solid Phase Microextraction of Cyanogen Chloride and Other Volatile Organic Compounds in Drinking Water with Fast Analysis by GC-TOFMS

Application News AD Quantitative Determination of Volatile Organic Compounds in Drinking Water by EPA Method with Headspace Trap GC-MS

Certificate of Accreditation

Laboratory Report Number(s) Lone Tree Road (Deep) 10/5/15, 10/19/15, 6/13/16. Address Sample Date(s) Analyses Requested

Building 280A and Building 450 Soil Sampling Results Richmond Field Station Site Berkeley Global Campus at Richmond Bay, Richmond, California

2. September 2015 Sub-Concrete Slab Soil Investigation

Helium conservation in volatile organic compound analysis using U.S. EPA Method 8260C

KSA Environmental Laboratory Inc.

INNOVATIVE PRODUCTS, SUPERIOR SUPPORT. Presenter: Anne Jurek, Senior Applications Chemist, EST Analytical

Non-Potable Water A2LA Certificate

OREGON Environmental Laboratory Accreditation Program ORELAP Fields of Accreditation ALS Environmental - Simi Valley

NELAC PT for Accreditation Fields of Proficiency Testing with PTRLs Drinking Water Effective: November 03, 2017

Detection of Volatile Organic Compounds in polluted air by an Agilent mini Thermal Desorber and an Agilent 5975T LTM GC/MS

Certificate of Accreditation

McCAMPBELL ANALYTICAL INC Willow Pass Road Pittsburg CA

Analysis of Low Level Volatile Organic Compounds in Air Anne Jurek

Reduced VOC Sample Analysis Times Using a New Dual Purge-and-Trap System

317 Elm Street Milford, NH (603) Fax (603)

January 19, Dear Mr. Nightingale:

CERTIFICATE OF ANALYSIS

ANALYTICAL REPORT. Attn: Dan Spector

/J~ GOLDER. Golder Associates Inc. golder.com. Project No April 25, 2018

A Site Location Map and Site and Surrounding Properties Map are attached as Figure 1 and Figure 2, respectively.

R.E.A.C.T. Roxbury Environmental Action CoaliTion P.O. Box 244 Ledgewood, N.J Website:

Determination of Volatile Organic Compounds in Air

Amec Foster Wheeler Environment & Infrastructure, Inc BIG SHANTY ROAD, NW, SUITE 100 KENNESAW, GEORGIA (770)

Date Issued: April 01, 2013 Expiration Date: June 30, 2013

SUMMARY REPORT OF AIR MONITORING FOR LEED CERTIFICATION PHASE 2 SWANSFIELD ELEMENTARY SCHOOL 5610 CEDAR LANE COLUMBIA, MD PREPARED FOR:

Volatile Organic Compounds in Water PBM

Methods and Analytes Requiring Laboratory Certification Attachment 3

Measuring Environmental Volatile Organic Compounds by U.S. EPA Method 8260B with Headspace Trap GC/MS

ANALYTICAL REPORT. Job Number: SDG Number: Kingston Job Description: Ulster County Resource Recovery Agency

METHOD 5021 VOLATILE ORGANIC COMPOUNDS IN SOILS AND OTHER SOLID MATRICES USING EQUILIBRIUM HEADSPACE ANALYSIS

Readiness thru Health

Electronic Supplementary Material Experimentally Validated Mathematical Model of Analyte Uptake by Permeation Passive Samplers

STONY HOLLOW LANDFILL, INC S. Gettysburg Ave. Dayton, OH (937) (937) Fax

A Single Calibration for Waters and Soil Samples Performing EPA Method Anne Jurek Applications Chemist

If you have any questions or concerns, please do not hesitate to contact our office at

Semiannual Groundwater Quality Monitoring Report: August 2018

GOLDER. Golder Associates Inc. Al-1!1f;s. golder.com. June 22, Project No

Barbara Johnson, PE Associate

September 4, Mr. Forest Arnold Maryland Department of the Environment Oil Control Program 1800 Washington Blvd. Baltimore, MD 21230

-~~ Barbara Johnson, PE Associate

CERTIFICATE OF ANALYSIS

Detection of Environmental Contaminants Caused by the Oil Spill in the Gulf of Mexico by GC and Hplc

1. Introduction. 2. Sampling Activities

Certificate of Accreditation

Transcription:

Date: 31-Jul-18 Work Order Sample Summary Lab Sample ID Client Sample ID Matrix Collection Date Date Received 1807123-01A Dam & Burger Water 7/25/2018 7/25/2018 1807123-02A 48th & RR Water 7/25/2018 7/25/2018 Page 1 of 1

Date: 31-Jul-18 CASE NARRATIVE Samples are routinely analyzed using methods outlined in the following references: (SW) Test Methods for Evaluating Solid Waste, Physical/Chemical Methods, SW846, 3rd Ed. (E) Methods for Chemical Analysis of Water and Wastes, EPA-600/4-79-020. (A) Standard Methods for the Examination of Water and Wastewater, APHA, 18th Ed. (D) Annual Book of ASTM Standards. Specific methods utilized for this project are provided in the analytical report and are identified by the reference document abbreviation ( ) followed by the method number. All QA/QC and sample analyses met method, laboratory and/or regulatory data quality objectives unless otherwise specified below. No data qualifications required. Page 1 of 1

Lab Sample ID: 1807123-01A Client Sample ID: Dam & Burger Anions by Ion Chromatography 1. Nitrogen, Nitrate (As N) E300.0 250 0.10 mg/l 1 RHS 7/26/2018 2. Nitrogen, Nitrite (As N) E300.0 1.3 0.10 mg/l 1 RHS 7/26/2018 Total Mercury by CVAA 1. Mercury SW7470A < 0.20 0.20 µg/l 1 RHS 7/26/2018 Total Metal(s) by ICP 1. Arsenic SW6010B < 5.0 5.0 µg/l 1 RHS 7/27/2018 2. Barium SW6010B < 100 100 µg/l 1 RHS 7/27/2018 3. Cadmium SW6010B < 0.50 0.50 µg/l 1 RHS 7/27/2018 4. Chromium SW6010B < 10 10 µg/l 1 RHS 7/27/2018 5. Copper SW6010B < 4.0 4.0 µg/l 1 RHS 7/27/2018 6. Lead SW6010B < 3.0 3.0 µg/l 1 RHS 7/27/2018 7. Magnesium SW6010B 25,000 1,000 µg/l 1 RHS 7/27/2018 8. Manganese SW6010B < 50 50 µg/l 1 RHS 7/27/2018 9. Nickel SW6010B < 20 20 µg/l 1 RHS 7/27/2018 10. Selenium SW6010B < 5.0 5.0 µg/l 1 RHS 7/27/2018 11. Silver SW6010B < 0.50 0.50 µg/l 1 RHS 7/27/2018 12. Zinc SW6010B < 20 20 µg/l 1 RHS 7/27/2018 1 of 6

Lab Sample ID: 1807123-01A Client Sample ID: Dam & Burger Volatiles by GC/MS 1. 1,1,1,2-Tetrachloroethane SW8260B < 1.0 2. 1,1,1-Trichloroethane SW8260B < 1.0 3. 1,1,2,2-Tetrachloroethane SW8260B < 1.0 4. 1,1,2-Trichloroethane SW8260B < 1.0 5. 1,1-Dichloroethane SW8260B < 1.0 6. 1,1-Dichloroethene SW8260B < 1.0 7. 1,1-Dichloropropene SW8260B < 1.0 8. 1,2,3-Trichlorobenzene SW8260B < 5.0 9. 1,2,3-Trichloropropane SW8260B < 1.0 10. 1,2,4-Trichlorobenzene SW8260B < 5.0 11. 1,2,4-Trimethylbenzene SW8260B < 1.0 12. 1,2-Dibromo-3-chloropropane SW8260B < 1.0 13. 1,2-Dibromoethane SW8260B < 1.0 14. 1,2-Dichlorobenzene SW8260B < 1.0 15. 1,2-Dichloroethane SW8260B < 1.0 16. 1,2-Dichloropropane SW8260B < 1.0 17. 1,3,5-Trimethylbenzene SW8260B < 1.0 18. 1,3-Dichlorobenzene SW8260B < 1.0 19. 1,3-Dichloropropane SW8260B < 1.0 20. 1,4-Dichlorobenzene SW8260B < 1.0 21. 2,2-Dichloropropane SW8260B < 1.0 22. 2-Butanone SW8260B < 50 50 µg/l 1 ATD 7/26/2018 23. 2-Chlorotoluene SW8260B < 1.0 24. 2-Hexanone SW8260B < 50 50 µg/l 1 ATD 7/26/2018 25. 4-Chlorotoluene SW8260B < 1.0 26. 4-Isopropyltoluene SW8260B < 1.0 27. 4-Methyl-2-pentanone SW8260B < 50 50 µg/l 1 ATD 7/26/2018 28. Acetone SW8260B < 100 100 µg/l 1 ATD 7/26/2018 29. Benzene SW8260B < 1.0 30. Bromobenzene SW8260B < 1.0 31. Bromochloromethane SW8260B < 1.0 32. Bromodichloromethane SW8260B < 1.0 33. Bromoform SW8260B < 1.0 34. Bromomethane SW8260B < 1.0 35. Carbon disulfide SW8260B < 50 50 µg/l 1 ATD 7/26/2018 36. Carbon tetrachloride SW8260B < 1.0 37. Chlorobenzene SW8260B < 1.0 38. Chloroethane SW8260B < 1.0 39. Chloroform SW8260B < 1.0 40. Chloromethane SW8260B < 1.0 2 of 6

Lab Sample ID: 1807123-01A Client Sample ID: Dam & Burger 41. cis-1,2-dichloroethene SW8260B < 1.0 42. cis-1,3-dichloropropene SW8260B < 1.0 43. Dibromochloromethane SW8260B < 1.0 44. Dibromomethane SW8260B < 5.0 45. Dichlorodifluoromethane SW8260B < 1.0 46. Diethyl ether SW8260B < 50 50 µg/l 1 ATD 7/26/2018 47. Ethylbenzene SW8260B < 1.0 48. Hexachlorobutadiene SW8260B < 5.0 49. Hexachloroethane SW8260B < 5.0 50. Iodomethane SW8260B < 1.0 51. Isopropylbenzene SW8260B < 1.0 52. m,p-xylene SW8260B < 2.0 2.0 µg/l 1 ATD 7/26/2018 53. Methyl tert-butyl ether SW8260B < 4.0 4.0 µg/l 1 ATD 7/26/2018 54. Methylene chloride SW8260B < 5.0 55. n-butylbenzene SW8260B < 1.0 56. n-propylbenzene SW8260B < 1.0 57. o-xylene SW8260B < 1.0 58. sec-butylbenzene SW8260B < 1.0 59. Styrene SW8260B < 1.0 60. tert-butylbenzene SW8260B < 1.0 61. Tetrachloroethene SW8260B < 1.0 62. Toluene SW8260B < 1.0 63. trans-1,2-dichloroethene SW8260B < 1.0 64. trans-1,3-dichloropropene SW8260B < 1.0 65. trans-1,4-dichloro-2-butene SW8260B < 1.0 66. Trichloroethene SW8260B < 1.0 67. Trichlorofluoromethane SW8260B < 1.0 68. Vinyl chloride SW8260B < 1.0 Coliform by Membrane Filtration 1. Escherichia Coli H10029 < 1.0 1.0 CFU/100 ml 1 SCL 7/25/2018 Ammonia Nitrogen 1. Nitrogen, Ammonia (As N) E350.3 < 0.10 0.10 mg/l 1 RHS 7/30/2018 Phorphorus by UV/VIS Spec. 1. Phosphorus, Total (As P) E365.3 0.025 0.010 mg/l 1 RHS 7/30/2018 Total Inorganic Nitrogen 1. Total Inorganic Nitrogen NA 250 0.10 mg/l 1 RHS 7/30/2018 3 of 6

Lab Sample ID: 1807123-02A Client Sample ID: 48th & RR Anions by Ion Chromatography 1. Nitrogen, Nitrate (As N) E300.0 260 0.10 mg/l 1 RHS 7/26/2018 2. Nitrogen, Nitrite (As N) E300.0 1.2 0.10 mg/l 1 RHS 7/26/2018 Total Mercury by CVAA 1. Mercury SW7470A < 0.20 0.20 µg/l 1 RHS 7/26/2018 Total Metal(s) by ICP 1. Arsenic SW6010B < 5.0 5.0 µg/l 1 RHS 7/27/2018 2. Barium SW6010B < 100 100 µg/l 1 RHS 7/27/2018 3. Cadmium SW6010B < 0.50 0.50 µg/l 1 RHS 7/27/2018 4. Chromium SW6010B < 10 10 µg/l 1 RHS 7/27/2018 5. Copper SW6010B < 4.0 4.0 µg/l 1 RHS 7/27/2018 6. Lead SW6010B < 3.0 3.0 µg/l 1 RHS 7/27/2018 7. Magnesium SW6010B 23,000 1,000 µg/l 1 RHS 7/27/2018 8. Manganese SW6010B < 50 50 µg/l 1 RHS 7/27/2018 9. Nickel SW6010B < 20 20 µg/l 1 RHS 7/27/2018 10. Selenium SW6010B < 5.0 5.0 µg/l 1 RHS 7/27/2018 11. Silver SW6010B < 0.50 0.50 µg/l 1 RHS 7/27/2018 12. Zinc SW6010B < 20 20 µg/l 1 RHS 7/27/2018 4 of 6

Lab Sample ID: 1807123-02A Client Sample ID: 48th & RR Volatiles by GC/MS 1. 1,1,1,2-Tetrachloroethane SW8260B < 1.0 2. 1,1,1-Trichloroethane SW8260B < 1.0 3. 1,1,2,2-Tetrachloroethane SW8260B < 1.0 4. 1,1,2-Trichloroethane SW8260B < 1.0 5. 1,1-Dichloroethane SW8260B < 1.0 6. 1,1-Dichloroethene SW8260B < 1.0 7. 1,1-Dichloropropene SW8260B < 1.0 8. 1,2,3-Trichlorobenzene SW8260B < 5.0 9. 1,2,3-Trichloropropane SW8260B < 1.0 10. 1,2,4-Trichlorobenzene SW8260B < 5.0 11. 1,2,4-Trimethylbenzene SW8260B < 1.0 12. 1,2-Dibromo-3-chloropropane SW8260B < 1.0 13. 1,2-Dibromoethane SW8260B < 1.0 14. 1,2-Dichlorobenzene SW8260B < 1.0 15. 1,2-Dichloroethane SW8260B < 1.0 16. 1,2-Dichloropropane SW8260B < 1.0 17. 1,3,5-Trimethylbenzene SW8260B < 1.0 18. 1,3-Dichlorobenzene SW8260B < 1.0 19. 1,3-Dichloropropane SW8260B < 1.0 20. 1,4-Dichlorobenzene SW8260B < 1.0 21. 2,2-Dichloropropane SW8260B < 1.0 22. 2-Butanone SW8260B < 50 50 µg/l 1 ATD 7/27/2018 23. 2-Chlorotoluene SW8260B < 1.0 24. 2-Hexanone SW8260B < 50 50 µg/l 1 ATD 7/27/2018 25. 4-Chlorotoluene SW8260B < 1.0 26. 4-Isopropyltoluene SW8260B < 1.0 27. 4-Methyl-2-pentanone SW8260B < 50 50 µg/l 1 ATD 7/27/2018 28. Acetone SW8260B < 100 100 µg/l 1 ATD 7/27/2018 29. Benzene SW8260B < 1.0 30. Bromobenzene SW8260B < 1.0 31. Bromochloromethane SW8260B < 1.0 32. Bromodichloromethane SW8260B < 1.0 33. Bromoform SW8260B < 1.0 34. Bromomethane SW8260B < 1.0 35. Carbon disulfide SW8260B < 50 50 µg/l 1 ATD 7/27/2018 36. Carbon tetrachloride SW8260B < 1.0 37. Chlorobenzene SW8260B < 1.0 38. Chloroethane SW8260B < 1.0 39. Chloroform SW8260B < 1.0 40. Chloromethane SW8260B < 1.0 5 of 6

Lab Sample ID: 1807123-02A Client Sample ID: 48th & RR 41. cis-1,2-dichloroethene SW8260B < 1.0 42. cis-1,3-dichloropropene SW8260B < 1.0 43. Dibromochloromethane SW8260B < 1.0 44. Dibromomethane SW8260B < 5.0 45. Dichlorodifluoromethane SW8260B < 1.0 46. Diethyl ether SW8260B < 50 50 µg/l 1 ATD 7/27/2018 47. Ethylbenzene SW8260B < 1.0 48. Hexachlorobutadiene SW8260B < 5.0 49. Hexachloroethane SW8260B < 5.0 50. Iodomethane SW8260B < 1.0 51. Isopropylbenzene SW8260B < 1.0 52. m,p-xylene SW8260B < 2.0 2.0 µg/l 1 ATD 7/27/2018 53. Methyl tert-butyl ether SW8260B < 4.0 4.0 µg/l 1 ATD 7/27/2018 54. Methylene chloride SW8260B < 5.0 55. n-butylbenzene SW8260B < 1.0 56. n-propylbenzene SW8260B < 1.0 57. o-xylene SW8260B < 1.0 58. sec-butylbenzene SW8260B < 1.0 59. Styrene SW8260B < 1.0 60. tert-butylbenzene SW8260B < 1.0 61. Tetrachloroethene SW8260B < 1.0 62. Toluene SW8260B < 1.0 63. trans-1,2-dichloroethene SW8260B < 1.0 64. trans-1,3-dichloropropene SW8260B < 1.0 65. trans-1,4-dichloro-2-butene SW8260B < 1.0 66. Trichloroethene SW8260B < 1.0 67. Trichlorofluoromethane SW8260B < 1.0 68. Vinyl chloride SW8260B < 1.0 Coliform by Membrane Filtration 1. Escherichia Coli H10029 < 1.0 1.0 CFU/100 ml 1 SCL 7/25/2018 Ammonia Nitrogen 1. Nitrogen, Ammonia (As N) E350.3 < 0.10 0.10 mg/l 1 RHS 7/30/2018 Phorphorus by UV/VIS Spec. 1. Phosphorus, Total (As P) E365.3 0.034 0.010 mg/l 1 RHS 7/30/2018 Total Inorganic Nitrogen 1. Total Inorganic Nitrogen NA 260 0.10 mg/l 1 RHS 7/30/2018 6 of 6

7/31/2018 Client: Cascade Thornapple River Assoc. ANALYTICAL DETAIL REPORT Sample ID Client Sample ID Matrix Date TCLP/SPLP Test Name Sampled Prep Date Analysis Date Date QC Batch Analytical Batch 1807123-01A Dam & Burger Water Ammonia Nitrogen 7/25/2018 R90718 7/30/2018 POTENTIAL_180730D Dam & Burger Water Anions by Ion Chromatography 7/25/2018 R90680 7/26/2018 IC_A_180726A Dam & Burger Water Coliform by Membrane 7/25/2018 Filtration R90679 7/25/2018 SCW_180725A Dam & Burger Water Phorphorus by UV/VIS Spec. 7/25/2018 R90713 7/30/2018 SPEC_A_180730A Dam & Burger Water Total Inorganic Nitrogen 7/25/2018 R90680 7/30/2018 IC_A_180726A Dam & Burger Water Total Mercury by CVAA 7/25/2018 7/26/2018 42405 7/26/2018 MTL_D_HY_180726A Dam & Burger Water Total Metal(s) by ICP 7/25/2018 7/27/2018 42407 7/27/2018 MTL_G_ICP_180727A Dam & Burger Water Volatiles by GC/MS 7/25/2018 R90687 7/26/2018 GCMS_Q_180726A 1807123-02A 48th & RR Water Ammonia Nitrogen 7/25/2018 R90718 7/30/2018 POTENTIAL_180730D 48th & RR Water Anions by Ion Chromatography 7/25/2018 R90680 7/26/2018 IC_A_180726A 48th & RR Water Coliform by Membrane 7/25/2018 Filtration R90679 7/25/2018 SCW_180725A 48th & RR Water Phorphorus by UV/VIS Spec. 7/25/2018 R90713 7/30/2018 SPEC_A_180730A 48th & RR Water Total Inorganic Nitrogen 7/25/2018 R90680 7/30/2018 IC_A_180726A 48th & RR Water Total Mercury by CVAA 7/25/2018 7/26/2018 42405 7/26/2018 MTL_D_HY_180726A 48th & RR Water Total Metal(s) by ICP 7/25/2018 7/27/2018 42407 7/27/2018 MTL_G_ICP_180727A 48th & RR Water Volatiles by GC/MS 7/25/2018 R90687 7/27/2018 GCMS_Q_180726A Page: 1 of 1

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback