Precious Metals Recovery LLC RCRA Permit Application Dry Hills ...
Precious Metals Recovery LLC RCRA Permit Application Dry Hills ... Precious Metals Recovery LLC RCRA Permit Application Dry Hills ...
Table 5. Suitable Filter Media 1 Pore Size Company Location Model (µm) Millipore Corporation Bedford, MA AP40 0.7 (800) 225-3384 Nucleopore Corporation Pleasanton, CA 211625 0.7 (415) 463-2530 Whatman Laboratory Clifton, NJ GFF 0.7 Products, Inc. (201) 773-5800 Micro Filtration Dublin, CA GF75 0.7 Systems (800) 334-7132 (415) 828-6010 Gelman Science Ann Arbor, MI 66256 (90mm) 0.7 (800) 521-1520 66257 (142mm) 1 Any filter that meets the specifications in Section 4.4 of the Method is suitable. CD-ROM 1311- 28 Revision 0 July 1992
Table 6. Multi-Laboratory TCLP Metals, Precision Waste Extraction Fluid Metal X S %RSD Ammonia #1 Cadmium 0.053 0.031 60 Lime Still #2 0.023 0.017 76 Bottoms #1 Chromium 0.015 0.0014 93 #2 0.0032 0.0037 118 #1 Lead 0.0030 0.0027 90 #2 0.0032 0.0028 87 API/EW #1 Cadmium 0.0046 0.0028 61 Mixture #2 0.0005 0.0004 77 #1 Chromium 0.0561 0.0227 40 #2 0.105 0.018 17 #1 Lead 0.0031 0.0031 100 #2 0.0124 0.0136 110 Fossil #1 Cadmium 0.080 0.069 86 Fuel Fly #2 0.093 0.067 72 Ash #1 Chromium 0.017 0.014 85 #2 0.070 0.040 57 #1 Lead 0.0087 0.0074 85 #2 0.0457 0.0083 18 NOTE: X = Mean results from 6 - 12 different laboratories Units = mg/L Extraction Fluid #1 = pH 4.9 #2 = pH 2.9 %RSD Range = 17 - 118 Mean %RSD = 74 CD-ROM 1311- 29 Revision 0 July 1992
- Page 305 and 306: 9 LDR TREATMENT STANDARDS Waste Des
- Page 307 and 308: Drummed consolidation waste will be
- Page 309 and 310: eevaluated whenever the process tha
- Page 311 and 312: ATTACHMENT 2-A-1 Profile Instructio
- Page 313 and 314: PMR LLC 460 W. 50 North Suite 500 S
- Page 315 and 316: • Is the waste pyrophoric? a See
- Page 317 and 318: EPA's Chemical Compatibility Chart
- Page 319 and 320: 1.0 SCOPE AND APPLICATION METHOD 90
- Page 321 and 322: 7.2.3 Adjust the electrodes in the
- Page 323 and 324: METHOD 9045D SOIL AND WASTE pH 9045
- Page 325 and 326: NOTE: Combination electrodes incorp
- Page 327 and 328: 10.0 REFERENCES 1. National Bureau
- Page 329 and 330: 1.0 SCOPE AND APPLICATION METHOD 13
- Page 331 and 332: 4.2.2 Bottle Extraction Vessel. Whe
- Page 333 and 334: 4.10 Watchglass, appropriate diamet
- Page 335 and 336: 7.0 PROCEDURE 7.1 Preliminary Evalu
- Page 337 and 338: determine whether the solid materia
- Page 339 and 340: solids content of the waste sample
- Page 341 and 342: material into an extractor bottle.
- Page 343 and 344: sample from which no additional liq
- Page 345 and 346: slowly out of the ZHE device into a
- Page 347 and 348: ® TEDLAR bag is used, if the extra
- Page 349 and 350: 150% of the expected concentration
- Page 351 and 352: None of the parameters had a signif
- Page 353 and 354: Table 2. Suitable Rotary Agitation
- Page 355: Table 4. Suitable Filter Holders 1
- Page 359 and 360: Table 8. Multi-Laboratory Semi-Vola
- Page 361 and 362: Figure 1. Rotary Agitation Apparatu
- Page 363 and 364: METHOD 1311 (CONTINUED) TOXICITY CH
- Page 365 and 366: Designation: D4979 − 08 Standard
- Page 367 and 368: Designation: D4978 − 95 (Reapprov
- Page 369 and 370: FIG. 1 Method B, Sulfide Test Appar
- Page 371 and 372: TABLE 1 Determination of Bias, Pycn
- Page 373 and 374: for four known specific gravity lev
- Page 375 and 376: 21.7.1 To check the precision of sa
- Page 377 and 378: Designation: D4981 − 08 Standard
- Page 379 and 380: Designation: D5058 − 12 Standard
- Page 381 and 382: 11.6.1 Compare the temperature here
- Page 383 and 384: APPENDIX 2-E Characterization Data
- Page 385 and 386: 5. Fire-fighting measures General I
- Page 387 and 388: Carcinogenicity: CAS# 10112‐91‐
- Page 393 and 394: Combined Hazen Solution Analysis pH
- Page 395 and 396: irritation and possible burns. May
- Page 397 and 398: OSHA Vacated PELs: Mercury: 0.05 mg
- Page 399 and 400: Chemical waste generators must dete
- Page 401 and 402: APPENDIX 4-A Inspection Plan
- Page 403 and 404: 1 INSPECTION PLAN This Inspection P
- Page 405 and 406: Inspections are intended to detect
Table 6. Multi-Laboratory TCLP <strong>Metals</strong>, Precision<br />
Waste<br />
Extraction<br />
Fluid Metal X S %RSD<br />
Ammonia #1 Cadmium 0.053 0.031 60<br />
Lime Still #2 0.023 0.017 76<br />
Bottoms #1 Chromium 0.015 0.0014 93<br />
#2 0.0032 0.0037 118<br />
#1 Lead 0.0030 0.0027 90<br />
#2 0.0032 0.0028 87<br />
API/EW #1 Cadmium 0.0046 0.0028 61<br />
Mixture #2 0.0005 0.0004 77<br />
#1 Chromium 0.0561 0.0227 40<br />
#2 0.105 0.018 17<br />
#1 Lead 0.0031 0.0031 100<br />
#2 0.0124 0.0136 110<br />
Fossil #1 Cadmium 0.080 0.069 86<br />
Fuel Fly #2 0.093 0.067 72<br />
Ash #1 Chromium 0.017 0.014 85<br />
#2 0.070 0.040 57<br />
#1 Lead 0.0087 0.0074 85<br />
#2 0.0457 0.0083 18<br />
NOTE: X = Mean results from 6 - 12 different laboratories<br />
Units = mg/L<br />
Extraction Fluid #1 = pH 4.9<br />
#2 = pH 2.9<br />
%RSD Range = 17 - 118<br />
Mean %RSD = 74<br />
CD-ROM 1311- 29 Revision 0<br />
July 1992
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