Mercury Vapor Testing Lab Houston, TX — NIOSH 6009 & CVAA Analysis

Houston's AIHA IHLAP-accredited mercury vapor testing lab at 10200 East Freeway, Suite 101, Houston TX 77029 — continuously accredited since February 2000. NIOSH 6009 (CVAA) mercury vapor analysis for workplace air monitoring, OSHA ID-140 mercury vapor method, and OSHA ID-145 inorganic mercury compound analysis — all performed in-house by Cold Vapor Atomic Absorption Spectroscopy. AIHA LAP-101470 · NVLAP 101793-0 · PJLA DoD-ELAP 71390-1. Petroleum mercury removal units, chlor-alkali plants, dental offices, fluorescent lamp recycling, and Houston Ship Channel mercury exposure monitoring. Samples received before 2:00 PM CST logged same day. Rush 24-hour turnaround available.

Last Updated: April 2026 Reviewed by: AGT Labs Analytical Chemistry Team — IHLAP-accredited analysts
AIHA IHLAP · LAP-101470 Accredited Since 2000 NIOSH 6009 · CVAA PJLA DoD-ELAP · 71390-1 ISO/IEC 17025:2017 Rush Same-Day Available In-House Analysis
Get a Quote Request Mercury Testing Kit
What's onthis page Quick links to page sections
Why It MattersHealth & compliance
What Is It?Methods explained
Mercury SpeciesHg⁰ / inorg / organic
Mercury SourcesWhere mercury hides
Lab MethodsChoose the right test
Detection LimitsLOD/LOQ & volumes
CVAA vs ICP-MSWhy CVAA wins
ReportMethods & results
Spill & ClearanceSpill response protocol
TAT & KitsRush options
Field GuideSampling protocols
RegulationsOSHA · EPA · TCEQ
IndustriesWho we serve
FAQCommon questions
RelatedOther IH testing
Why Mercury Vapor Testing Matters

Why accredited mercury analysis protects your workers

OSHA Ceiling Limit Compliance

The OSHA PEL for mercury vapor is 0.1 mg/m³ as a ceiling limit — meaning exposure must never exceed this value at any point during the work shift. CVAA analysis from an IHLAP-accredited IH testing lab documents compliance.

Central Nervous System Protection

Chronic mercury vapor inhalation causes tremors, memory loss, personality changes, and kidney damage. Even low-level exposures below the OSHA ceiling can produce subclinical neurological effects — making accurate NIOSH 6009 monitoring critical.

Environmental Liability (D009)

Mercury is EPA-listed hazardous waste (D009) under RCRA. Spills, contaminated building materials, and improperly decommissioned equipment create cleanup liability. Accredited IH lab testing documents baseline and clearance concentrations.

Legal & Insurance Protection

Documented mercury exposure monitoring from an AIHA IHLAP-accredited laboratory (LAP-101470, accredited since 2000) provides legally defensible records for workers' compensation, regulatory inspections, and litigation support.

IH Testing Laboratory

What Is Mercury Vapor Testing?

Mercury vapor testing — formally known as elemental mercury exposure testing — is an industrial hygiene (IH) air monitoring service that measures the concentration of elemental mercury (Hg⁰) and inorganic mercury compounds in workplace air using Cold Vapor Atomic Absorption Spectroscopy (CVAA). Mercury is unique among metals — it is liquid at room temperature and continuously releases invisible, odorless vapor that workers inhale without awareness. Because mercury vapor is not detectable by human senses, accredited industrial hygiene testing is the only reliable way to verify exposure levels.

As Houston's AIHA IHLAP-accredited mercury vapor testing lab and trusted IH testing lab, AGT Labs performs all NIOSH 6009, OSHA ID-140, and OSHA ID-145 analyses in-house by CVAA at our Houston facility (LAP-101470, continuously accredited since February 2000). No outsourcing, no subcontracting. When your chlor-alkali plant, dental office, petroleum mercury removal unit, or mercury spill remediation project needs defensible exposure data, you get results from the accredited IH lab that actually ran the samples.

  • Personal breathing zone mercury vapor monitoring — NIOSH 6009 CVAA
  • Area mercury vapor monitoring for spill assessment and clearance verification
  • OSHA ID-140 mercury vapor analysis for OSHA compliance documentation
  • OSHA ID-145 inorganic mercury compound analysis (particulate + vapor)
  • Post-remediation clearance air testing for mercury spill cleanup projects
  • Surface wipe sampling for mercury contamination assessment
  • Pre-demolition mercury screening for industrial facilities
Mercury vapor testing lab CVAA analysis Houston TX NIOSH 6009 IHLAP accredited
Mercury Speciation

Three Forms of Mercury — Three Different Methods

Mercury exists in workplace environments in three chemically distinct forms. Each requires a different sampling and analytical approach. Choosing the wrong method means missing the actual exposure.

Elemental Mercury (Hg⁰)
Liquid metal · vapor pressure 0.0012 mm Hg at 20°C
Most Common Workplace Form OSHA Ceiling 0.1 mg/m³

The metallic mercury in thermometers, dental amalgam, chlor-alkali cells, and laboratory instruments. Continuously evaporates at room temperature into invisible, odorless vapor. Sample with NIOSH 6009 or OSHA ID-140 — hopcalite sorbent tube + CVAA analysis. Crosses the alveolar-capillary membrane and the blood-brain barrier when inhaled.

Inorganic Mercury Compounds
HgCl₂ (mercuric chloride) · HgO · Hg₂Cl₂ (calomel)
Particulate + Vapor OSHA Ceiling 0.1 mg/m³

Mercury salts and oxides found in mercury recycling, chemical manufacturing, and mining operations. Often coexist with elemental mercury vapor. Sample with OSHA ID-145 — dual-stage sampling train (MCE filter for particulate + charcoal tube for vapor). Causes acute kidney damage at high exposures.

Organic Mercury (Methylmercury)
CH₃Hg⁺ · (CH₃)₂Hg dimethylmercury
Specialty Method Rare in IH

Methylmercury and dimethylmercury form via biological methylation of inorganic mercury — primarily an environmental/food-chain concern rather than a routine industrial hygiene exposure. Workplace exposure occurs in laboratories handling organomercury reagents. Specialty analytical methods required — contact AGT Labs to discuss project requirements.

Mercury Exposure Sources

Where Mercury Hides in Buildings & Industry

Mercury is present in far more workplaces than most people realize. These are the primary source categories that generate mercury vapor exposure — and where NIOSH 6009 monitoring is essential.

Thermometers & Instruments

Laboratories, medical facilities, and HVAC systems still contain mercury thermometers, sphygmomanometers, and barometers. Breakage releases liquid mercury that vaporizes continuously at room temperature — a single broken thermometer can contaminate an entire room above the OSHA ceiling limit.

Fluorescent Lamps & HID Lighting

Every fluorescent tube and HID lamp contains 3–15 mg of mercury. Lamp recycling facilities, breakage during retrofit projects, and improper disposal release mercury vapor. Crushing operations without proper ventilation routinely exceed OSHA ceiling limits.

Chlor-Alkali Plants

Mercury cell chlor-alkali process uses tons of liquid mercury as a cathode for electrolytic chlorine and caustic soda production. Cell rooms, end boxes, hydrogen handling areas, and decomposer rooms are the highest-exposure zones in any industry. Houston Ship Channel hosts several of these facilities.

Dental Offices

Dental amalgam (silver fillings) is approximately 50% mercury by weight. Amalgam preparation, placement, removal, and polishing release mercury vapor directly into the dental operatory. Amalgam traps, storage containers, and autoclave sterilization are additional sources.

Industrial Equipment

Manometers, barometers, pressure switches, tilt switches, and float switches in industrial and marine settings contain liquid mercury. Equipment maintenance, decommissioning, and disposal release vapor. Legacy equipment in refineries and chemical plants is a common source.

Gold & Silver Refining

Mercury amalgamation is still used in artisanal and small-scale gold mining (ASGM) worldwide. Mercury is mixed with gold-bearing ore, then heated to vaporize the mercury — leaving gold behind. Retort and refining operations generate extreme mercury vapor concentrations.

Building Demolition

Older buildings contain hidden mercury sources: thermostats, silent wall switches, medical and laboratory equipment, boiler room instruments, and electrical switchgear. Pre-demolition mercury screening by an accredited IH lab prevents uncontrolled mercury releases during demolition.

Sampling & Analysis Methods

Mercury Testing Methods — NIOSH 6009, OSHA ID-140 & OSHA ID-145

Three validated methods for mercury vapor and inorganic mercury analysis. Each targets different mercury species and sampling configurations. Here's exactly what each method measures, with detection limits and recommended sample volumes.

AIR 01

NIOSH 6009 — Mercury Vapor by CVAA

The primary occupational exposure method for elemental mercury vapor. Air drawn through hopcalite sorbent tubes that oxidize and trap mercury vapor. Collected mercury is digested and analyzed by CVAA at 253.7 nm. The most widely used method for mercury vapor personal monitoring in industrial hygiene.

Standard:NIOSH 6009 · CVAA
Media:Hopcalite sorbent tube (100mg/50mg)
Flow Rate:0.15–0.25 L/min
LOD / LOQ:~0.03 µg / 0.10 µg per sample
Range:0.005 – 0.5 mg/m³ (typ. 12-L sample)
Rush:Same-day to 3-day available
AIR 02

OSHA ID-140 — Mercury Vapor by CVAA

OSHA's validated method for elemental mercury vapor assessment. Same hopcalite sorbent tube collection as NIOSH 6009 with OSHA-specific analytical procedures and reporting structure. Use when documentation must reference OSHA enforcement methods directly. Results comparable to OSHA PEL ceiling of 0.1 mg/m³.

Standard:OSHA ID-140 · CVAA
Media:Hopcalite sorbent tube (100mg/50mg)
Flow Rate:0.15–0.25 L/min
LOD / LOQ:~0.03 µg / 0.10 µg per sample
Range:0.005 – 0.5 mg/m³ (typ. 12-L sample)
Rush:Same-day to 3-day available
AIR 03

OSHA ID-145 — Inorganic Mercury by CVAA

Covers both particulate inorganic mercury compounds and mercury vapor using a two-stage sampling train — MCE filter (particulate) plus charcoal sorbent tube (vapor). Essential for workplaces where both forms coexist: mercury recycling, thermometer manufacturing, chlor-alkali cell decommissioning, mercury salt handling.

Standard:OSHA ID-145 · CVAA
Media:MCE filter (37mm) + charcoal tube
Flow Rate:1–3 L/min (dual-stage)
LOD / LOQ:~0.05 µg / 0.15 µg per sample
Range:Particulate + vapor combined
Rush:Call to confirm availability

Which method should I order?

Routine workplace personal monitoring (8-hr shift, dental, chlor-alkali, lamp recycling)?
→ NIOSH 6009
OSHA inspection support / citation defense documentation?
→ OSHA ID-140
Mercury salt handling / both vapor & particulate present?
→ OSHA ID-145
Detection Capability

Detection Limits, Sample Volumes & Quantification

Sample volume drives detection capability. The longer you sample, the lower the air concentration you can quantify. Use this guidance to design your sampling plan.

Sampling Scenario Flow / Time Total Volume Reportable Range Best for
Ceiling sample (15-min) 0.20 L/min × 15 min 3 L ~0.033 – 1.0+ mg/m³ OSHA ceiling determination, peak exposure events
Short-task sample (1-hr) 0.20 L/min × 60 min 12 L ~0.008 – 0.5 mg/m³ Maintenance turnarounds, amalgam removal, short tasks
Half-shift TWA 0.20 L/min × 4 hr 48 L ~0.002 – 0.1 mg/m³ Half-shift personal monitoring
Full-shift TWA (8-hr) 0.20 L/min × 8 hr 96 L ~0.001 – 0.05 mg/m³ OSHA TWA determination, ACGIH TLV comparison (0.025 mg/m³)
Low-level IAQ / clearance 0.20 L/min × 8 hr 96 L down to ~0.001 mg/m³ Post-spill clearance, IAQ investigations, ATSDR action level (0.0002 mg/m³)

Reading the math: Reportable range = LOQ (0.10 µg) ÷ sample volume (L), converted to mg/m³. A 96-L full-shift sample with a 0.10 µg LOQ resolves to ~0.001 mg/m³ — sufficient for ATSDR action level comparison and post-remediation clearance work. Talk to our IHLAP-accredited analysts at (713) 453-6090 if you need to push the detection limit lower than the table shows.

Analytical Technique Comparison

Why CVAA — Not ICP-MS — for Mercury Vapor

Mercury is one of the few metals where ICP-MS isn't the right answer. Here's the technical reasoning every industrial hygienist and EHS manager should understand.

Performance Criterion CVAA (NIOSH 6009 / OSHA ID-140 / ID-145) ICP-MS / ICP-AES (NIOSH 7300 / 7303)
Mercury sensitivity Excellent — sub-µg/L detection at 253.7 nm Adequate but limited by memory effects
Memory effects None — CVAA isolates Hg before measurement Significant — Hg sticks to ICP torch & tubing, contaminating subsequent samples
Spectral interferences None at 253.7 nm Possible from W, Os, and other elements at Hg masses
Method recognition Specifically called out in NIOSH 6009 & OSHA ID-140/145 Multi-element panel only — not Hg-specific
OSHA / NIOSH compliance documentation Method-of-record for mercury vapor Acceptable for 30-element panel screens, not Hg-specific
Cost per Hg-only result Lower — single-element optimized Higher unless ordered as part of full panel

Bottom line: When mercury is the analyte of interest, CVAA is the regulator-recognized, technically superior choice. AGT Labs runs CVAA in-house at our Houston IH testing lab — no outsourcing, no method substitution. If you also need a 30-element ICP panel for the same project (e.g., welding fume + Hg), we run mercury on the dedicated CVAA instrument and the other metals on ICP/AES — never compromising mercury sensitivity by lumping it into the ICP panel.

AIHA IHLAP Accreditation LAP-101470 · Since 2000
NVLAP Asbestos Lab Code 101793-0
PJLA DoD-ELAP No. 71390-1 · Federal
ISO/IEC 17025:2017 Accredited Testing Lab
Lab Location 10200 E. Freeway · Houston TX
Mercury Methods NIOSH 6009 · OSHA ID-140 · ID-145
Report Deliverables

Every Mercury Method, Every Standard, Every Deliverable

No surprises in your mercury testing report. Here's exactly what each CVAA IH testing analysis returns — methods, media, and deliverables side by side.

Analysis TypeMethod / StandardSample MediaReport DeliverableRush?
NIOSH 6009 — Hg Vapor NIOSH 6009 · CVAA Hopcalite sorbent tube (100/50mg) Mercury concentration (mg/m³) + OSHA ceiling comparison Yes
OSHA ID-140 — Hg Vapor OSHA ID-140 · CVAA Hopcalite sorbent tube (100/50mg) Mercury concentration (mg/m³) + OSHA PEL comparison Yes
OSHA ID-145 — Inorganic Hg OSHA ID-145 · CVAA MCE filter + charcoal tube Particulate + vapor Hg (mg/m³) + total Limited
Mercury Surface Wipe NIOSH 6009 modified · CVAA Ghost Wipe / Whatman smear tab Mercury surface loading (µg/100 cm²) Yes
Mercury Spill & Remediation Support

Mercury Spill Response & Clearance Protocol

Mercury spills — from broken thermometers to industrial process releases — create invisible vapor hazards that persist until all liquid mercury is removed and surfaces are decontaminated. A structured spill response and clearance protocol ensures worker safety and regulatory compliance at every stage.

Pre-remediation air monitoring establishes baseline vapor concentrations. During cleanup, personal NIOSH 6009 monitoring protects remediation workers. Post-remediation clearance testing verifies that mercury vapor concentrations have returned to safe levels before reoccupancy. Surface wipe sampling for mercury complements air monitoring by quantifying residual mercury contamination on floors, walls, equipment surfaces, and HVAC components.

  • Phase 1 — Assessment: Pre-remediation baseline air monitoring (NIOSH 6009 CVAA) plus surface wipe sampling to map contamination extent
  • Phase 2 — Worker Protection: Personal exposure monitoring during mercury cleanup operations — real-time and integrated sampling
  • Phase 3 — Clearance: Post-remediation clearance air testing at breathing zone height for reoccupancy determination
  • Phase 4 — Verification: Mercury surface wipe sampling — Ghost Wipe or smear tab method — on floors, walls, and HVAC components
  • HVAC and ductwork mercury contamination assessment — mercury vapor migrates through ventilation systems
  • Results compared to OSHA ceiling (0.1 mg/m³), ATSDR MRL (0.0002 mg/m³), or project-specific clearance criteria
Mercury vapor air monitoring spill clearance testing Houston TX IH lab CVAA
Lab Logistics

Turnaround Times & Free Testing Kits

Every rush option and kit detail — clearly laid out before you submit your first sample to our IH testing lab.

Turnaround Options — Mercury CVAA
Same-Day RushBefore 2:00 PM CSTCall for pricing
1-Day Rush1 business day+100%
2-Day Rush2 business days+75%
3-Day Rush3 business days+50%
4-Day Rush4 business days+25%
Standard5-7 business daysNo Surcharge
Samples received before 2:00 PM CST logged same day. Call (713) 453-6090 to confirm rush availability.

Free Mercury Testing Kit Includes

  • Hopcalite sorbent tubes (NIOSH 6009 / OSHA ID-140) — lot-certified
  • MCE filter cassettes + charcoal backup tubes (OSHA ID-145)
  • Mercury surface wipe media (Ghost Wipes)
  • Field blank sorbent tubes (10% QA compliance)
  • Pre-paid UPS return shipping label (domestic)
  • Mercury Chain of Custody (COC) form — pre-numbered
  • Calibrated personal sampling pump (rental available)
Request Mercury Testing Kit

Kits ship via UPS Ground — order with 5 business days notice. Houston metro courier pickup available: (713) 453-6090.

Field Protocol Reference

Sampling Field Requirements

Incorrect sampling invalidates results and wastes project time. Follow these parameters to ensure every sample produces valid, defensible data.

Mercury Vapor Air Sampling (NIOSH 6009)
Media
Hopcalite sorbent tube (100mg front / 50mg backup). Do NOT break tube seals until ready to sample. Store upright.
Flow rate
0.15–0.25 L/min. Calibrate pump with hopcalite tube in-line before and after sampling. Record exact flow on COC.
Volume
2–20 L typical for mercury vapor. Short-term ceiling samples: 15-minute minimum at 0.2 L/min = 3 L minimum volume.
Field blanks
Minimum 10% of sample count. Open sorbent tube 30 seconds at sampling location, re-seal immediately. Label as "field blank" on COC.
Inorganic Mercury Sampling (OSHA ID-145)
Media
MCE filter cassette (37mm, 0.8µm) connected in-line to charcoal sorbent tube. Filter captures particulate Hg; charcoal captures vapor Hg.
Flow rate
1–3 L/min. Calibrate pump with full sampling train connected.
Volume
30–480 L depending on expected concentration. Full-shift TWA: 8-hour sample at 2 L/min = 960 L.
Handling
Cap both ends of charcoal tube and cassette after sampling. Keep samples cool. Ship within 14 days of collection.
Mercury Spill / Clearance Sampling
Air
Post-remediation air monitoring using NIOSH 6009 at breathing zone height. Minimum 4-hour sample or per project protocol.
Surface wipe
Ghost Wipe or Whatman smear tab — 100 cm² template wipe in S-pattern. Pre- and post-remediation comparison.
Clearance
Compare results to OSHA ceiling (0.1 mg/m³), ATSDR MRL (0.0002 mg/m³), or project-specific clearance criteria.
Documentation
Photo-document sample locations. Include room dimensions and ventilation status on COC. Note HVAC operating condition.
Shipping & Log-In
Ship to
10200 East Freeway Suite 101, Houston TX 77029. Mercury testing samples received before 2:00 PM CST logged same day.
Packaging
Hopcalite tubes: caps sealed, stored upright in tube rack or foam holder. MCE cassettes: end caps on. All samples in tamper-evident outer bag.
COC
Complete mercury COC fully. Note method requested (NIOSH 6009 / OSHA ID-140 / OSHA ID-145). Indicate rush TAT if needed.
Contact
(713) 453-6090 for Houston metro same-day courier pickup. Rush mercury CVAA results available.
Submission Workflow

From Sample Collection to Certified Report

1

Request Kit or COC

Call, email, or download the mercury testing COC. Hopcalite and MCE kits ship free with 5 days notice.

2

Collect Samples

Follow the NIOSH 6009 or OSHA ID-145 field parameters above. Seal all sorbent tubes and cassettes immediately. Record flow rates on COC.

3

Ship to IH Lab

Ship via UPS or schedule Houston metro courier pickup. Mercury samples logged same day if received before 2:00 PM CST.

4

CVAA Analysis at IH Lab

Cold Vapor Atomic Absorption analysis performed by IHLAP-accredited analysts at our Houston IH testing facility. No outsourcing.

5

Certified Mercury Report

Results delivered via secure portal with method references, concentration data, OSHA PEL comparison, analyst signature, QA sign-off, and AIHA LAP-101470 accreditation — accepted by OSHA, EPA, and state programs.

Regulatory Compliance

Standards That Require Accredited Mercury Testing

Every AGT Labs report from our IH lab is structured to satisfy all applicable federal, Texas state, and local regulatory requirements.

OSHA 29 CFR 1910.1000 — Table Z-2
Mercury vapor has an OSHA ceiling limit of 0.1 mg/m³ — exposure must never exceed this concentration at any time. Unlike most OSHA PELs, this is a ceiling value, not a TWA. NIOSH 6009 or OSHA ID-140 confirms compliance.
ACGIH TLV — 0.025 mg/m³ TWA
The ACGIH threshold limit value for mercury vapor is 0.025 mg/m³ as an 8-hour TWA with a skin absorption notation. This is significantly more protective than the OSHA PEL and reflects current toxicological understanding of chronic mercury effects.
NIOSH REL — 0.05 mg/m³ TWA
NIOSH recommends an exposure limit of 0.05 mg/m³ as a 10-hour TWA. NIOSH also recommends biological exposure monitoring (urine mercury) to complement air monitoring, especially for chronic exposure scenarios.
ATSDR Minimal Risk Level (MRL)
ATSDR has established a chronic inhalation MRL for elemental mercury of 0.0002 mg/m³ — used for residential reoccupancy clearance after mercury spills. AGT Labs supports clearance projects to ATSDR criteria.
EPA RCRA — D009 Hazardous Waste
Mercury is EPA-listed characteristic hazardous waste (D009) with a TCLP regulatory level of 0.2 mg/L. Mercury-contaminated materials, thermometers, and equipment must be handled as hazardous waste. Accredited IH lab testing documents contamination levels for waste classification.
EPA Clean Air Act — Hg MACT
Mercury MACT (Maximum Achievable Control Technology) standards apply to chlor-alkali, gold mining, and other major sources. Worker air monitoring documents exposure within regulated facilities.
TCEQ Air Quality Standards (Texas)
The Texas Commission on Environmental Quality (TCEQ) regulates mercury emissions and ambient air concentrations under 30 TAC Chapter 101 and Chapter 113. Texas Effects Screening Level (ESL) for mercury vapor is 0.00025 mg/m³ — significantly more protective than federal OSHA limits and used for permit reviews.
OSHA Hazard Communication (HazCom)
Mercury and inorganic mercury compounds are classified as reproductive toxins, specific target organ toxicants (CNS, kidneys), and acute toxicants via inhalation. SDS requirements mandate exposure monitoring in workplaces where mercury is used or released.
Industries & Clients

Who Relies on Our Mercury Vapor Testing Lab

Petroleum & Natural Gas

Mercury is a trace contaminant in natural gas and crude oil processed at Houston Ship Channel refineries and Gulf Coast gas plants. Mercury Removal Unit (MRU) catalyst replacement, decommissioning, and turnaround maintenance create high-exposure events. NIOSH 6009 personal monitoring documents worker exposure during MRU work.

Chlor-Alkali Plants

Mercury cell chlor-alkali process releases mercury vapor in cell rooms, hydrogen handling areas, and maintenance zones. NIOSH 6009 personal monitoring is critical during cell work, brine handling, and maintenance turnarounds in Houston Ship Channel facilities. OSHA ID-145 captures both vapor and particulate Hg in cell decommissioning.

Dental Offices & Texas Medical Center

Dental amalgam preparation, placement, and removal release mercury vapor. AGT Labs serves Houston-area dental practices including Texas Medical Center clinics, dental schools, and private practitioners. NIOSH 6009 monitoring for operatories, amalgam storage, and autoclave rooms documents OSHA 1910.1000 and Texas State Board of Dental Examiners compliance.

Thermometer & Instrument Manufacturing

Facilities producing or decommissioning mercury thermometers, barometers, manometers, and laboratory instruments face continuous mercury vapor exposure. OSHA ceiling monitoring required during any process that heats or agitates liquid mercury.

Fluorescent Lamp Recycling

Lamp crushing and recycling operations release mercury vapor from broken fluorescent tubes (3–15 mg Hg per tube). OSHA 1910.1000 monitoring required. AGT Labs provides NIOSH 6009 CVAA analysis for Houston-area lamp recycling facilities and large facility lamp retrofit projects.

Gold & Silver Refining

Gold refining operations using mercury amalgamation release vapor during heating/retort. Real-time monitoring during retort operations and post-process clearance air testing required to demonstrate worker safety and regulatory compliance.

Environmental Remediation

Mercury-contaminated brownfield sites, former industrial facilities, and mercury spill cleanup projects require pre-remediation baseline air monitoring, during-work exposure monitoring, and post-remediation clearance testing by an accredited IH lab. Houston metro area courier pickup available.

Building Demolition & Renovation

Older buildings contain hidden mercury sources: thermostats, silent wall switches, medical/lab equipment, boiler instruments, and electrical switchgear. Pre-demolition mercury screening and post-removal clearance testing prevent uncontrolled releases.

Federal & DoD Facilities

BRAC remediation, military base renovation, and Department of Energy site cleanup projects require DoD-ELAP-accredited environmental laboratory analysis. AGT Labs holds PJLA DoD-ELAP accreditation No. 71390-1 — qualifying us for federal mercury monitoring contracts.

Client Questions

Frequently Asked Questions

Questions answered by our IHLAP-accredited IH lab analysts.

What is mercury vapor testing and why is it important?
Mercury vapor testing measures the concentration of elemental mercury (Hg⁰) in workplace air using Cold Vapor Atomic Absorption Spectroscopy (CVAA). Mercury is liquid at room temperature and continuously evaporates into invisible, odorless vapor that is readily inhaled. Chronic exposure causes tremors, memory loss, personality changes, and kidney damage. OSHA sets a ceiling limit of 0.1 mg/m³ — accredited IH lab testing with NIOSH 6009 is the only way to verify compliance.
What is NIOSH 6009 and how does it measure mercury exposure?
NIOSH 6009 is the primary occupational exposure method for mercury vapor. Air is drawn through hopcalite sorbent tubes at 0.15–0.25 L/min for a measured period. The hopcalite oxidizes and traps mercury vapor on contact. In the laboratory, the collected mercury is digested and analyzed by CVAA (Cold Vapor Atomic Absorption) at 253.7 nm — a highly sensitive technique that detects mercury at concentrations well below the OSHA ceiling limit. AGT Labs (LAP-101470) is AIHA IHLAP-accredited for this method.
What is the OSHA PEL for mercury vapor?
The OSHA permissible exposure limit for mercury vapor is 0.1 mg/m³ as a ceiling limit — meaning worker exposure must never exceed this concentration at any point during the work shift. Unlike most OSHA PELs (which are 8-hour TWAs), the mercury limit is a true ceiling value. The ACGIH TLV is 0.025 mg/m³ TWA with a skin absorption notation. The NIOSH REL is 0.05 mg/m³ as a 10-hour TWA.
What is the difference between NIOSH 6009 and OSHA ID-140?
Both methods quantify elemental mercury vapor by CVAA using hopcalite sorbent tubes. NIOSH 6009 is the National Institute for Occupational Safety and Health validated method preferred by industrial hygienists for routine workplace monitoring. OSHA ID-140 is the OSHA-published equivalent used for OSHA inspection compliance documentation. Results from either method are directly comparable to OSHA, NIOSH, and ACGIH limits. AGT Labs is IHLAP-accredited (LAP-101470) for both — choose NIOSH 6009 for routine monitoring and OSHA ID-140 when documentation specifically references OSHA enforcement.
What is the detection limit for NIOSH 6009 mercury analysis?
AGT Labs reports NIOSH 6009 mercury vapor results with a typical limit of detection (LOD) of approximately 0.03 µg per sample and a limit of quantitation (LOQ) of approximately 0.10 µg per sample. Translated to air concentration: a 30-minute ceiling sample at 0.2 L/min (6 L volume) detects mercury well below the OSHA ceiling of 0.1 mg/m³ and below the more protective ACGIH TLV of 0.025 mg/m³. For low-level IAQ investigations or post-remediation clearance, longer sample volumes (up to 100 L) push the detection limit down to ~0.001 mg/m³.
Why is CVAA used for mercury instead of ICP-MS?
Cold Vapor Atomic Absorption (CVAA) is the gold-standard technique for mercury at trace levels because it specifically reduces mercury to its elemental vapor state and measures absorption at 253.7 nm — providing exceptional sensitivity, low matrix interference, and selectivity for mercury. ICP-MS and ICP-AES can detect mercury but suffer from memory effects (mercury sticks to plasma torch components and contaminates subsequent samples), spectral interferences, and lower sensitivity than CVAA at trace levels. NIOSH 6009 and OSHA ID-140/ID-145 specify CVAA precisely because of these analytical advantages.
When is mercury exposure monitoring required?
Mercury air monitoring is required whenever workers are potentially exposed to mercury vapor or inorganic mercury compounds — including chlor-alkali plant operations, dental amalgam handling, thermometer and instrument manufacturing, fluorescent lamp recycling, gold refining, mercury spill cleanup, petroleum mercury removal unit maintenance, and industrial equipment decommissioning. OSHA enforces monitoring under 29 CFR 1910.1000 and the General Duty Clause.
What sampling media is used for mercury vapor testing?
NIOSH 6009 and OSHA ID-140 use hopcalite sorbent tubes (100mg front / 50mg backup section) that oxidize mercury vapor on contact. For inorganic mercury compounds, OSHA ID-145 uses a two-stage sampling train: MCE filter (particulate Hg) + charcoal sorbent tube (vapor Hg). AGT Labs provides pre-assembled mercury testing kits with all required sampling media.
What is the difference between mercury vapor and inorganic mercury testing?
Mercury vapor testing (NIOSH 6009, OSHA ID-140) measures elemental mercury (Hg⁰) — the gas-phase mercury released from liquid mercury spills, thermometers, and industrial processes. Inorganic mercury testing (OSHA ID-145) captures both particulate inorganic mercury compounds and mercury vapor using a dual-stage sampling train. Choose OSHA ID-145 when both forms may be present, such as in mercury recycling, chlor-alkali cell decommissioning, or chemical manufacturing where mercury salts and elemental mercury coexist.
How long do mercury samples remain stable after collection?
Hopcalite sorbent tubes used in NIOSH 6009 and OSHA ID-140 are highly stable post-collection — the hopcalite oxidizes mercury to a non-volatile form that does not desorb. Samples should be analyzed within 30 days of collection per NIOSH 6009 method specification, but mercury captured on hopcalite remains stable considerably longer when properly capped and stored at room temperature. For OSHA ID-145 (charcoal tube + MCE filter), analyze within 14 days. Always cap both ends of sorbent tubes immediately after sampling and ship in tamper-evident packaging.
Does AGT Labs test for mercury in dental offices?
Yes. Dental offices face mercury vapor exposure during amalgam preparation, placement, removal, and storage. AGT Labs provides NIOSH 6009 mercury vapor monitoring for dental operatories, amalgam storage areas, and autoclave rooms. Our IH lab results help dental practices document compliance with OSHA 1910.1000 and Texas State Board of Dental Examiners requirements. We routinely serve Houston Texas Medical Center practices, dental schools, and private practices.
What is the turnaround time for mercury testing?
Standard turnaround for NIOSH 6009 / OSHA ID-140 mercury CVAA analysis at AGT Labs is 5 to 7 business days from sample receipt. Rush turnaround (24 to 48 hours) is available for mercury spill responses, OSHA inspection support, and urgent clearance testing. Same-day rush available for samples received before 2:00 PM CST. Contact our IH lab at (713) 453-6090.
Is AGT Labs accredited for mercury vapor testing?
Yes. AGT Labs holds AIHA Industrial Hygiene Laboratory Accreditation Program (IHLAP) accreditation under certificate LAP-101470 — continuously accredited since February 1, 2000 (25+ years). Our scope includes NIOSH 6009, OSHA ID-140, and OSHA ID-145 for mercury analysis by CVAA. We also hold NVLAP accreditation (Lab Code 101793-0) for asbestos fiber analysis and PJLA DoD-ELAP accreditation (No. 71390-1) for Department of Defense environmental testing. IHLAP accreditation requires compliance with ISO/IEC 17025:2017, proficiency testing, and on-site assessments.
How much does mercury vapor testing cost?
Mercury CVAA analysis pricing depends on the method requested (NIOSH 6009, OSHA ID-140, or OSHA ID-145), sample count, and turnaround. AGT Labs provides itemized quotes before any work begins. Standard 5–7 day pricing is competitive with volume discounts for environmental consultants and IH firms. Call (713) 453-6090 or email info@agtlabs.com.
Can AGT Labs test for mercury spill cleanup clearance?
Yes. We provide complete mercury spill assessment and post-remediation clearance testing — pre-remediation baseline air monitoring, personal exposure monitoring during cleanup, post-remediation clearance air testing, and surface wipe sampling. Results compared to OSHA ceiling limits, ATSDR action levels (down to 0.0002 mg/m³), or project-specific clearance criteria. Rush same-day turnaround for spill responses across the Houston metro area.
What is CVAA and why is it used for mercury?
CVAA (Cold Vapor Atomic Absorption) is the gold-standard analytical technique for mercury at trace levels. It specifically reduces mercury to its elemental vapor state and measures absorption at 253.7 nm — providing exceptional sensitivity and selectivity for mercury in complex air sampling matrices. Unlike ICP-AES or ICP-MS methods used for other metals, CVAA isolates mercury chemically before measurement, eliminating spectral and matrix interferences. AGT Labs uses CVAA for all NIOSH 6009 and OSHA ID-140/ID-145 mercury analyses.
What industries require mercury exposure monitoring?
Industries with the highest mercury exposure risk include chlor-alkali manufacturing, dental offices, thermometer and instrument production, fluorescent lamp recycling, gold and silver mining/refining, petroleum refining (mercury removal unit maintenance), petrochemical processing, and environmental remediation. Houston Ship Channel refineries and Gulf Coast gas processing plants routinely encounter trace mercury from natural gas and crude oil. Any workplace where liquid mercury is used, stored, or may be released during maintenance requires NIOSH 6009 air monitoring from an accredited IH testing laboratory.
Houston TX IH Laboratory

Mercury Vapor Testing Lab Serving Houston's Industries

AGT Labs is located at 10200 East Freeway, Suite 101, Houston TX 77029 — inside the Houston Ship Channel industrial corridor. As a full-service industrial hygiene testing lab, all CVAA mercury analyses are performed in-house. No outsourcing, no send-outs. Samples received before 2:00 PM CST logged same day.

Primary Sector
Petrochemical & Ship Channel
Mercury is a trace contaminant in natural gas and crude oil processed at Houston Ship Channel refineries. NIOSH 6009 personal monitoring for mercury removal unit (MRU) maintenance, catalyst handling, and equipment decommissioning. TCEQ permit-driven monitoring supported.
Healthcare
Texas Medical Center
Mercury vapor monitoring for Texas Medical Center dental practices, hospitals with legacy mercury equipment, dental schools, and medical device decommissioning. NIOSH 6009 air testing with documented IH lab reports for OSHA and Texas State Board of Dental Examiners compliance.
Environmental
Remediation & Cleanup
Pre-remediation baseline, during-cleanup personal monitoring, and post-remediation clearance air testing for mercury-contaminated sites across Houston, Galveston, and the Gulf Coast. Surface wipe sampling for comprehensive contamination assessment. ATSDR action level support.
Industrial
Manufacturing & Recycling
Mercury vapor monitoring for Houston-area fluorescent lamp recyclers, instrument manufacturers, and industrial facilities with legacy mercury equipment. NIOSH 6009 and OSHA ID-145 testing by CVAA. Federal facility support via PJLA DoD-ELAP No. 71390-1.
25+
Years AIHA
Accredited (Since 2000)
3
CVAA Mercury
Methods In-House
Same-Day
Rush CVAA
TAT Available
77029
Houston TX
10200 E. Freeway

Need an Accredited IH Lab for Mercury Vapor Testing?

AIHA IHLAP-accredited mercury vapor testing lab since 2000 · LAP-101470 · NVLAP 101793-0 · PJLA DoD-ELAP 71390-1 · NIOSH 6009 · OSHA ID-140 · OSHA ID-145 · CVAA analysis · Rush same-day available · 10200 East Freeway, Houston TX 77029

Get a Quote Call (713) 453-6090