LnRiLWhlYWRpbmcuaGFzLWJhY2tncm91bmR7cGFkZGluZzowfQ==
LnRiLWZpZWxke21hcmdpbi1ib3R0b206MC43NmVtfS50Yi1maWVsZC0tbGVmdHt0ZXh0LWFsaWduOmxlZnR9LnRiLWZpZWxkLS1jZW50ZXJ7dGV4dC1hbGlnbjpjZW50ZXJ9LnRiLWZpZWxkLS1yaWdodHt0ZXh0LWFsaWduOnJpZ2h0fS50Yi1maWVsZF9fc2t5cGVfcHJldmlld3twYWRkaW5nOjEwcHggMjBweDtib3JkZXItcmFkaXVzOjNweDtjb2xvcjojZmZmO2JhY2tncm91bmQ6IzAwYWZlZTtkaXNwbGF5OmlubGluZS1ibG9ja311bC5nbGlkZV9fc2xpZGVze21hcmdpbjowfQ==
.tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row } .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row }   .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row } .wpv-pagination-nav-links[data-toolset-views-view-pagination-block="cdfd4c4737b2898eba4443dd59a1bf50"] { text-align: left;justify-content: flex-start; } .tb-field[data-toolset-blocks-field="9cbffc8f0bb443fa4d7772ff6b497331"] { margin-bottom: 20px; }  h1.tb-heading[data-toolset-blocks-heading="92c335762acd52b936b2b92f1f6a1f4e"]  { margin-top: 10px; }  @media only screen and (max-width: 781px) { .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .wpv-view-output[data-toolset-views-view-editor="e9fe28b8275bb7ae2596f589255e6c42"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row } .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .wpv-view-output[data-toolset-views-view-editor="9d84cc4f9b16cadbe0234552093901f8"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row }   .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] > .tb-grid-column:nth-of-type(3n + 1) { grid-column: 1 } .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] > .tb-grid-column:nth-of-type(3n + 2) { grid-column: 2 } .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] > .tb-grid-column:nth-of-type(3n + 3) { grid-column: 3 } .wpv-view-output[data-toolset-views-view-editor="996f6e65dca482f54bf3d67d7e970744"] .js-wpv-loop-wrapper > .tb-grid { grid-template-columns: minmax(0, 0.3333fr) minmax(0, 0.3333fr) minmax(0, 0.3333fr);grid-auto-flow: row }    } @media only screen and (max-width: 599px) { .tb-grid,.tb-grid>.block-editor-inner-blocks>.block-editor-block-list__layout{display:grid;grid-row-gap:25px;grid-column-gap:25px}.tb-grid-item{background:#d38a03;padding:30px}.tb-grid-column{flex-wrap:wrap}.tb-grid-column>*{width:100%}.tb-grid-column.tb-grid-align-top{width:100%;display:flex;align-content:flex-start}.tb-grid-column.tb-grid-align-center{width:100%;display:flex;align-content:center}.tb-grid-column.tb-grid-align-bottom{width:100%;display:flex;align-content:flex-end} 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Volatile Organic Compounds (VOCs)
Volatile Organic Chemicals (VOCs) are generally categorized as compounds that can vaporize under normal ambient conditions. VOCs can enter the environment via many different ways. Many solvents, cleaners, and degreasers used in industry and homes contain these compounds. These compounds are released to the environment and can be found as contaminants in air, soil, waste, and drinking water.
We offer VOCs standards that can be used to perform the below EPA methods:
502 Volatiles (PID/ELCD)
503 VOC – Aromatics & Alkenes (PID/ELCD)
504 EDB & DBCP (ECD)
524 Volatiles (GC/MS)
551 Chlorinated Solvents, Trihalomethanes
556 Carbonyl Compounds (GC/ECD)
601 Purgeable Halocarbons (ELCD)
602 Purgeable Aromatics (PID)
603 Acrolein & Acrylonitrile (FID)
624 Purgeable Volatiles (GC/MS)
1666 PMI Volatiles (GC/MS)
8010 Halogenated Volatiles (ELCD)
8011 EDB & DBCP (GC/MS)
8015B Non Halogenated Organics (GC/FID)
8020 Aromatic Volatiles (PID)
8021 Halogenated Volatiles PID/ELCD
8030 Acrolein & Acrylonitrile (GC/FID)
8031 Acrylonitrile (GC/NPD)
8032 Acrylamide (GC/ECD)
8033 Acetonitrile (NPD)
Name Cas No Acetonitrile 75-05-8 Acrylamide 79-06-1 Acrylonitrile 107-13-1 Allyl chloride 107-05-1 n-Amylbenzene 538-68-1 Azobenzene 103-33-3 Benzene 71-43-2 Benzene-d6 1076-43-3 Benzyl chloride 100-44-7 2-Bromo-1-chloropropane 3017-95-6 1-Bromo-2-nitrobenzene 577-19-5 Bromobenzene 108-86-1 Bromochloroacetonitrile 83463-62-1 2-Bromochlorobenzene 694-80-4 4-Bromochlorobenzene 106-39-8 Bromochloromethane 74-97-5 Bromodichloromethane 75-27-4 p-Bromofluorobenzene 460-00-4 Bromoform 75-25-2 Bromomethane 74-83-9 Bromotrichloromethane 75-62-7 1,3-Butadiene 106-99-0 n-Butylbenzene 104-51-8 Isobutylbenzene 538-93-2 sec-Butylbenzene 135-98-8 tert-Butylbenzene 98-06-6 Carbon disulfide 75-15-0 Carbon tetrabromide 558-13-4 Carbon tetrachloride 56-23-5 Chloral hydrate 302-17-0 Chlorobenzene 108-90-7 Chlorobenzene-d5 3114-55-4 Chloroethane 75-00-3 bis(2-Chloroethoxy)methane 111-91-1 1-Chloro-2-fluorobenzene 348-51-6 1-Chloro-4-fluorobenzene 352-33-0 1-Chloro-3-nitrobenzene 121-73-3 Chloroform 67-66-3 1-Chlorohexane 544-10-5 Chloromethane 74-87-3 bis(2-Chloro-1-methylethyl)ether 108-60-1 Chloroprene 126-99-8 3-Chloropropionitrile 542-76-7 2-Chlorotoluene 95-49-8 3-Chlorotoluene 108-41-8 4-Chlorotoluene 106-43-4 Cyclohexane 110-82-7 Decylbenzene 104-72-3 Diallate 2303-16-4
Name Cas No Dibromochloromethane 124-48-1 1,2-Dibromo-3-chloropropane 96-12-8 Dibromoacetonitrile 3252-43-5 1,2-Dibromoethane 106-93-4 Dibromofluoromethane 1868-53-7 Dibromomethane 74-95-3 a,a-Dibromo-m-xylene 626-15-3 1,2-Dibromopropane 78-75-1 1,2-Dibromo-1,1,2,2-tetrafluoroethane 124-73-2 2,3-Dichloro-1-propene 78-88-6 trans-1,4-Dichloro-2-butene 110-57-6 Dichloroacetonitrile 3018-12-0 1,2-Dichlorobenzene 95-50-1 1,2-Dichlorobenzene-d4 2199-69-1 1,3-Dichlorobenzene 541-73-1 1,4-Dichlorobenzene 106-46-7 1,4-Dichlorobenzene-d4 3855-82-1 1,4-Dichlorobutane 110-56-5 1,4-Dichlorobutane-d8 83547-96-0 Dichlorodifluoromethane 75-71-8 1,1-Dichloroethane 75-34-3 1,2-Dichloroethane 107-06-2 1,2-Dichloroethane-d4 17060-07-0 1,1-Dichloroethene 75-35-4 cis-1,2-Dichloroethene 156-59-2 trans-1,2-Dichloroethene 156-60-5 Dichlorofluoromethane 75-43-4 Dichloromethane 75-09-2 Dichloromethane-d2 1665-00-5 1,2-Dichloropropane 78-87-5 1,3-Dichloropropane 142-28-9 2,2-Dichloropropane 594-20-7 1,3-Dichloropropene (cis/trans) 542-75-6 1,1-Dichloropropene 563-58-6 cis-1,3-Dichloropropene 10061-01-5 trans-1,3-Dichloropropene 10061-02-6 1,1-Dichloro-1-propylene 563-58-6 2,4-Dichlorotoluene 95-73-8 1,2,3,4-Diepoxybutane 1464-53-5 m-Diethylbenzene 141-93-5 o-Diethylbenzene 135-01-3 p-Diethylbenzene 105-05-5 1,4-Difluorobenzene 540-36-3 Dimethyl sulfate 77-78-1 1,3-Dimethyl-2-nitrobenzene 81-20-9 1,3-Dinitrobenzene 99-65-0 2,5-Dinitrotoluene 619-15-8 3,4-Dinitrotoluene 610-39-9 Dodecylbenzene 123-01-3
Name Cas No Epichlorohydrin 106-89-8 1,2-Epoxybutane 106-88-7 1,2-Epoxypropane(Propylene oxide) 75-56-9 Ethyl acetate 141-78-6 Ethyl methacrylate 97-63-2 Ethyl methanesulfonate 62-50-0 Ethylbenzene 100-41-4 Ethylbenzene-d10 25837-05-2 Ethylene glycol 107-21-1 Ethylene oxide 75-21-8 m-Ethyltoluene 620-14-4 o-Ethyltoluene 611-14-3 p-Ethyltoluene 622-96-8 2-Fluoroacetamide 640-19-7 Fluorobenzene 462-06-6 Fluorotrichloromethane 75-69-4 Heptadecylbenzene 14752-75-1 Heptylbenzene 1078-71-3 Hexachlorobenzene 118-74-1 Hexachlorobutadiene 87-68-3 Hexachlorocyclopentadiene 77-47-4 Hexachloroethane 67-72-1 Hexachlorophene 70-30-4 Hexachloropropene 1888-71-7 Hexadecylbenzene 1459-09-2 Hexylbenzene 1077-16-3 Isopropylbenzene 98-82-8 p-Isopropyltoluene (p-Cymene) 99-87-6 Methacrylonitrile 126-98-7 Methyl bromide 74-83-9 Methyl 2-bromopropionate 5445-17-0 Methyl chloride 74-87-3 Methyl-2,3-dibromopropionate 1729-67-5 1-Methyl ethyl benzene 98-82-8 Methyl iodide 74-88-4 Methyl isothiocyanate 556-61-6 Methyl methacrylate 80-62-6 Methyl methanesulfonate 66-27-3 Naphthalene 91-20-3 Naphthalene-d8 1146-65-2 Nitrobenzene 98-95-3 Nitrobenzene-d5 4165-60-0 Nonadecylbenzene 29136-19-4 Nonylbenzene 1081-77-2 Octadecylbenzene 4445-07-2 Octylbenzene 2189-60-8 Pentachlorobenzene 608-93-5 Pentachloroethane 76-01-7 Pentadecylbenzene 2131-18-2
Name Cas No Pentafluorobenzene 363-72-4 1,2-Propanediol 57-55-6 Propionic acid 79-09-4 Propionitrile 107-12-0 n-Propylbenzene 103-65-1 Styrene 100-42-5 Tetrachloro-m-xylene 877-09-8 1,2,3,4-Tetrachlorobenzene 634-66-2 1,2,3,5-Tetrachlorobenzene 634-90-2 1,2,4,5-Tetrachlorobenzene 95-94-3 1,1,1,2-Tetrachloroethane 630-20-6 1,1,2,2-Tetrachloroethane 79-34-5 Tetrachloroethene 127-18-4 Tetradecylbenzene 1459-10-5 Tetrahydrofuran 109-99-9 1,2,3,4-Tetramethylbenzene 488-23-3 1,2,3,5-Tetramethylbenzene 527-53-7 1,2,4,5-Tetramethylbenzene 95-93-2 Toluene 108-88-3 Toluene-d8 2037-26-5 1,3,5-Tribromobenzene 626-39-1 Trichloroacetonitrile 545-06-2 1,2,3-Trichlorobenzene 87-61-6 1,2,4-Trichlorobenzene 120-82-1 1,3,5-Trichlorobenzene 108-70-3 1,1,1-Trichloroethane 71-55-6 1,1,2-Trichloroethane 79-00-5 Trichloroethene 79-01-6 Trichlorofluoromethane 75-69-4 1,1,2-Trichloropropane 598-77-6 1,2,3-Trichloropropane 96-18-4 a,a,a-Trichlorotoluene 98-07-7 Tridecylbenzene 123-02-4 1,2,3-Trimethylbenzene 526-73-8 1,2,4-Trimethylbenzene 95-63-6 1,3,5-Trimethylbenzene 108-67-8 1,3,5-Trinitrobenzene 99-35-4 Undecylbenzene 6742-54-7 Vinyl acetate 108-05-4 Vinyl chloride 75-01-4 Xylene 1330-20-7 m-Xylene 108-38-3 o-Xylene 95-47-6 p-Xylene 106-42-3
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