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Home My WebLink AboutDRC-2024-004741AR HC Div of W t Managerrent and Rad, t,on Control FEB 2 9 2024 ANFIELD RESOURCES HOLDING CORP. February 23 , 2024 Mr. Doug Hansen, Director Utah Department of Environmental Quality Division of Waste Management and Radiation Control 195 North 1950 West Salt Lake City, UT 84116 Office Address: 10708 S. River Front Parkway Suite 321 South Jordan, Utah 84095 Office: 385.246.1250 Re: Radioactive Materials License UT0900480, Effluent Monitoring Report Second Half2023 Dear Director Hansen: As required by Radioactive Materials License UT0900480 License Condition 12.2, Anfield Resources Holding Corp. is submitting the Effluent Monitoring for the Shootaring Canyon Uranium Facility Second Half 2023 (July 1, 2023 through December 31, 2023). Results of all effluent monitoring are reported in accordance with the requirements of 10 CFR 40.65 incorporated by reference in UAD R313-24-3 and UAC R313-17-2. I certify under penalty of law that this document and all attachments were prepared under my direct supervision in accordance with a system designed to assure that qualified personnel properly gather and evaluate the information submitted. Based on my inquiry of the persons who manage the system, or those persons directly responsible for gathering the information , the information submitted is , to the best of my knowledge and belief, true, accurate , and complete. I am aware that there are significant penalties for submitting false information, including the possibility of fine and imprisonment for knowing violations. Should you have any questions in regard to this matter, please contact Corey Dias at (416) 827-8064 ore- mail at cdias@ anfieldresources.com. Sincerely, Joshua Bleak Director Anfield Resources Holding Corp . Shootaring Canyon Uranium Facility cc: Shootaring Canyon Uranium Facility file • • • Div of Waste ~.1 r f:J rr n! and Rad,at,on Control FEB 2 9 2024 ANFIELD RESOURCES HOLDING CORP. SHOOTARING CANYON URANIUM FACILITY EFFLUENT REPORT SECOND HALF 2023 A R HC FEBRUARY 2024 ANFIELD RESOURCES HOLDING CORP. Submitted by Anfield Resources Holding Corp . • • • AR HC ANFIELO RESOURCES HOLDING CORP. TABLE OF CONTENTS 1.0 INTRODUCTION .......................................................................................................................... I 2.0 AIR SAMPLING ............................................................................................................................ 1 3.0 SUPPLEMENT AL NOTES .......................................................................................................... 2 4.0 GROUNDWATER MONITORING WELLS ............................................................................. 2 5.0 DISCUSSION OF RESULTS ....................................................................................................... 2 EXHIBIT EXHIBIT A Supporting Documentation Second Half2023 Effluent Report • • • 1.0 INTRODUCTION This Effluent Monitoring Report is presented to comply with Utah Department of Environmental Quality, Division of Waste Management and Radiation Control requirements (UAC R313-24-3), 10 CFR 40.65, and License Conditions 11.3 and 12.2 of Radioactive Material License #UT0900480. The current Licensee is Anfield Resources Holding Corp. (Anfield). The sampling data represent the period from July 1, 2023 through December 31, 2023 for the Shootaring Canyon Uranium Facility (Facility). License requirements reflect the current standby status of the Facility. 2.0 AIR SAMPLING The license requires one 20-hour to 24-hour sampling period each calendar quarter with the filters composited and analyzed for natural uranium and radium-226 on a semi-annual basis (License Condition 11.2, Table 5.5-8). The dates of collection during the second half of 2023 were September 5 through September 6 and November 16 through 17. The sampler (AP-3) is located downwind of the tailings facility. Supporting documentation for this report is attached as Exhibit A. The samples were obtained using a Staplex High Volume Air Sampler model TFIA. The Staplex sampler is rated for 0-70 cubic feet per minute ( cfm) [0-2 cubic meters per minute]. Calibration of the Staplex was performed by IML Air Science. The certificate in provided in Exhibit A. The actual flow rate for the sampling period was calculated using a spreadsheet provided by IML Air Science and included in Exhibit A. The flow rate was multiplied by the elapsed time to obtain the volume of air sampled for each of the two sampling periods. The volumes were added to obtain the total semi-annual sample volume. The total volume of air sampled in the third quarter 2023 was 3. 72 x 109 ml with an average flow rate of 2.10 x 106 ml/minute. The total volume of air sampled in the fourth quarter 2023 was 2.23 x 109 ml with an average flow rate of 1.30 x 106 ml/minute. The total volume sampled for the two quarterly periods was 5.95 x 109 ml. The average flow rate was 1.70 x 106 ml/minute (58.14 cfm). The total sampling time was 3488.40 minutes (58.14 hours). The results of the sample analyses are given in the following table: Air Sample Results Radionuclide Concentration Error Estimate Lower Limit of % Effluent (µCi/ml) (µCi/ml) Detection Concentration (µCi/ml) Limit Natural Uranium <3.40 X 10-17 NIA 3.36 X 10-17 0.0 Radium-226 2.69 X 10-16 3.40 X 10-17 3.40 X 10-17 0.03 Second Half 2023 Effluent Report • • • 3.0 SUPPLEMENTAL NOTES a. The percent Effluent Concentration Limit column for the air sample results refers to the 10 CPR 20, Appendix B, Table 2, Effluent Concentration Limits for unrestricted areas. Nuclide Effluent Concentration Limit Effluent Concentration Limit for Air for Water (uCi/ml) (uCi/ml) Natural Uranium, Class Y 9 X 10-l4 3 X 10-7 Radium-226 9 X 10-lJ 6 X 10-8 b. The airborne particulate sampler is operated for a minimum of 20 hours (1200 minutes) each calendar quarter. The two quarterly samples were digested together and a semi-annual value was determined. c. The filters were analyzed by Pace Laboratory in Sheridan, Wyoming. The laboratory reports concentrations, estimated uncertainties and minimum detectable concentration. The error limit (uncertainty) for radium-226 was 0.20 pCi/filter (3.4 xl 0-17 µCi/ml) for the second half 2023 air sample results. Error limits are not reported for natural uranium analyses. 4.0 GROUNDWATER MONITORING WELLS The radioactive materials license condition 11.3A requires the following wells to be sampled on a semi-annual basis: RMI, RM2R, RM7, RM12, RM14, RM18, and RM19. RMI and RM12 are the upgradient monitoring wells and represent the site background. Anfield has voluntarily sampled wells RMS and RM20 and reports these data semi-annually. Quarterly samples are collected as part of the on-going accelerated background monitoring program as per Ground Water Quality Discharge Permit UGWI 70003. Groundwater samples are collected from monitoring wells following the Groundwater Quality Assurance Plan for the Facility. Third quarter 2023 sampling was performed on July 14 and 15, 2023. Fourth quarter 2023 sampling was performed on November 5, 2023. License Condition 11.3B references the standards in the Utah Administrative Code (UAC) R313- 24-4. This section of the UAC references the Code of Federal Regulations (CPR), specifically 10 CPR Part 40, Appendix A but explicitly replaces Criterion 5B(1) through SH, which includes the ground water protection standards, with the ground water standards in UAC R317-6. No constituents in the approved monitoring program exceeded any of the Ground Water Quality Standards in Table 1 of the Ground Water Discharge Permit (R317-6-2) in the second half of 2023. Results of ground water sample analyses will be submitted with the Annual Groundwater Monitoring Report 2023. 5.0 DISCUSSION OF RESULTS No airborne effluent concentration limits or groundwater threshold values, in the upper most aquifer, were exceeded in the second half of 2023. A review of current and past data does not reveal any confirmed trends as results are near analytical lower limits of detection and currently Second Half 2023 Effluent Report 2 • • • less than one percent of the effluent concentration limits listed in 10 CFR 20, Appendix B Table 2 for air. Groundwater concentrations reported from wells in the upper most aquifer generally are within the magnitude of the random variations that have been historically observed in the groundwater data as reported in the Annual Groundwater Monitoring Report . Second Half2023 Effluent Report 3 • • • Second Half2023 Effluent Report EXHIBIT A SUPPORTING DOCUMENTATION • • AN FIELD RESOURCES HOLDING CORP. ENVIRONMENTAL MONITORING PROGRAM STANDARD OPERATING PROCEDURES SHOOTARING MILL SITE 2.DZ.~ Year ,3 Quarter SOP EP-7 High-Volume Air Sampling Collection Form / Location AP-3 Sampler Start Data: Date: j -5 -i 3 Time: c,:37 RI: JS CFM Calculated Average Flow Rate= .3S Begin RI Sampler, End/Stop Data: Date: er. 1., • 2.3 Time: lS:07 RI: 31? + 35 = 70 End RI Total Divide by 2 Time/Minute Recorder: End: 72733.8 Start: 70°/ IP2. f. CFM Total: L ZZ J. z. 12= 35 CFM Calculated Average RI Average temp and barometric pressure from NOAA for Hanksville (KHVE go to 3-day history) or Bullfrog, UT (if data is available): Calculated the average temp and barometric pressure from the NOAA website for the sampling period from the 3-day history or the past history website pages. Take the number of readings collected for each parameter, add, then divide by the number of readings for that parameter. Average Fahrenheit temperature rJ I B (F temp-32) x 0.5556= Average Celsius temperature L '-f, Z. I Average Barometric pressure in units of inHg :Z5 • 3 5 The altitude used for the site is 4265 feet (same as Ticaboo, UT). Calculate Actual Air Volume by entering data into the 4-light blue cells located on the Flow Calculator Tab of the most current calibration certificate provided by the third-party calibration laboratory. Data fields include: Barometric setting (inHg) d2 5'. 3 5 The results will be calculated in the two peach-colored cells: 1-----~-----1 Altitude (ft) 5 1------'--"-"'-"'-"~-- Temperature ( C ) . :Z.. 1-----=...:......zc--.,;.-=--- Standard flow (SCFM) ~---/p=---$,....._.3 __ _ Actual flow (ACFM) ...... ___ 7._'t_,_L __ __. Rotameter Indication 3 5 The actual flow, ACFM, is the flow used to calculate actual air volume sampled: Calculated Volume= 1 4' 2-x I 7 7 / • :2. = / 3/ '-/ ;,;.3 . tYt ACFM from above Total Minutes Calculated Volume Cubic feet of air conversion to millimeters of air is as follows: CF x 28316.8 mis/CF= mis of air sampled o/ / 3 / 'z l.3. 01,CF from above x_28316.8 mis/CF= ,,,? . 7 2 X. ID mis of air CF Sampler. kz!J21iu Date:__,_CJ_·.._/4~-,,2;....7.J ___ _ RI = Indication on a HVAS rotameter CF = Cubic feet CFM = Cubic feet per minute ACFM = Actual Cubic Feet per Minute using Calibration Curve from Lab and including all data Attached NOAA past history or 3-day history data, excel calculation documentation, and Pace Flow Calculator, from calibration certificate, form . SOP-7 I Revision 16 01/25/2022 Page 10 of 10 ( IML Air Science -~ .. a division of lnter--Mcnmlaln Laboratories, Inc. ~------5=ss=Absa,-ra""1ta-,""s""h•-rld'"'an--,, wv=S2=eo,.,..1 High Volume Air Pump Calibration Certificate Oient: Anfield Resources Calibration Date:.,41,..1,.,3,..12_0 __ 23 ____________ __, Calibration Time: 9:05 I Next Cal Dne Date: 4/12/2024 J Mfc. SIN: 21238N I Calibration coefTJcients m and b: ! 0.3487 j 12.9410 ! Barometric setting (inHg) Altitude (ft) Temperature ( C) Rotameter Indication Standard flow (SCFM) Actual flow(ACFM) 25.35 4265 24.2 35 63.3 74.2 Enter barometer setting from weather report Enter altitude where the measurement was done Enter the temperature where the measurement was done Enter the rotameter (flowmeter) reading This is the flow rate if the air were at 760 mmHg and 25"C This is the actual flow rate st the measurement conditions Calcnlated barometric pressure ! 550.6 !mmHg Casper weather report: f)t!Q:/1forecast.W?a!hJ!IJJOVlfv1~p_Clii;__~prpe=Casper&state=WY&site=RfW&textFl~1.,§3;1!l&textF@ld2~l06.349&fftl • • • • ANFIELD RESOURCES HOLDING CORP. ENVIRONMENTAL MONITORING PROGRAM STANDARD OPERA TING PROCEDURES SHOOTARING MILL SITE ;,}..0;) 3 Year ~Quarter ¾ AOJ§~-zqo/ SOP EP-7 High-Volume Air Sampling Collection Form / Location AP-3 Sampler Start Data: Sampler, End/Stop Data: Time/Minute Recorder: Date: 11-)l,, -.;i,2 Date: Jl-l7 --,;z~ End: CJ1'11:I-, {) Time: .:y ! l~ Time: (3~52. Start 't_D.;?d7,tf RI: 30 CFM RI: ~a CFM Total: LZJ 7. Z ~ 3D bC> Calculated Average Flow Rate= ____ + __ 3_0 __ =---~'2 = .30 CFM Begin RI End RI Total Divide by 2 Calculated Average RI Average temp and barometric pressure from NOAA for Hanksville (KHVE go to 3-day history) or Bullfrog, UT (if data is available): Calculated the average temp and barometric pressure from the NOAA website for the sampling period from the 3-day history or the past history website pages. Take the number of readings collected for each parameter, add, then divide by the number of readings for that parameter. Average Fahrenheit temperature. ___ (F temp -32) x 0.5556= Average Celsius temperature ~ /3, 5 0 Average Barometric pressure in units of inHg_:Z.._5_,_4_3 _____ _ The altitude used for the site is 4265 feet (same as Ticaboo, UT). Calculate Actual Air Volume by entering data into the 4-light blue cells located on the Flow Calculator Tab of the most current calibration The results will be calculated in the two peach-colored cells: certificate provided by the third-party calibration laboratory. Data fields include: Baromebic setting (inHg) ~~-43 Altitude (ft) Lf ~ l,,5 Standard flow (SCFM) I Temperature ( C ) f3,,:,0 Actual flow (ACFM) Rotameter Indication 30 The actual flow, ACFM, is the flow used to calculate actual air volume sampled: Calculated Volume = __ 'f.,_· ___ 5 ____ .8 _____ X / 7 / 7. 2- ACFM from above Total Minutes Cubic feet of air conversion to millimeters of air is as follows: CF x 28316.8 mis/CF= mis of air sampled RI= Indication on a HVAS rotameter CF = Cubic feet = 7$it47.7? Calculated Jolume CFM = Cubic feet per minute ACFM = Actual Cubic Feet per Minute using Calibration Curve fro Lab and including all data l 3C,, 8 tf5 8 CF I • Attached NOAA past history or 3-day history data, excel calculatio SOP-7 I Revision 16 documentation, and Pace Flow Calculator, from calibration certificate, form. 01/25/2022 Page 10 of 10 ~eAnalytica/ 0 CHAIN-OF-CUSTODY Analytical Request Document LAB USE ONLY-Affix Workorder/Logln Label Here or List Pnce Workorder Number or MTJL Log-in Number Here 0-.ain-of Custody is n LEC-.ALDOCLIMENI' • Complete all relevent fields ompnnv:Anfield Resources Billi'l! Information: ALL SHADED AREAS are for LAB USE ONLY e,n ;lie. ,ddress: 227 Jefferson St. Ft Collins, CO Container i'reser.ative Tvoe • • Lab l'rojectManager: l eportTo: Toby Wright Em.iii To: wrightenv@gmail.com .. l>reservative Types: ( l) nitric acid, (2) w!furic acid, (3) hydrochloric acid,(• ) s. di~mhy, roM,dc (!') zinc <1catate. c, me•h~n·I, ( ) s· ca,.n, blsu fate,(&) s•,,JiLfT111:1.,sul'ai.e, (~) h0ano 'A! a:oc,:imic acid,(") anmonim su 'aie, opyTo: april@twright.com Site Collection Info/Address: (t)ar rr.oniurnfydr ,ida,rO' 1S1'1l')Uq d!c!'\e1 (O'.Olher., ............ - Shootarlr,,, Can~. n MIii Analvses Lab Profile/Line: ustomer Project Name/Number: State: County/Ot-,i: Time Zone Collected: 1 . J.al:J sampJ.e Reee.J.i,t Chcc:ltUst: 3hoota•irg Canycn Mill AP-3 UT /Ticaboo I IPTi,l'MT I ICT I IET Cust.di, Sea.ls Pre21:mt/rntc1ct Y N •> hone: 435-633-3035 Slte/Fncility 10 II: Compliance Monitorft13', Cuet,., •· SJ.gm t1.roF ", ""~' t , NII.A m.ill: larniyamorrill@yahoo.o,m 1 v'ves I INo CclJ.ca.:-•r firnnturo l:i.CfH.m .. \ N NA r:r, '-tJ.os lr r.c t ' N .,,, ollected By (print): Purchase Order II: DVI.P\11.SID/I: Cor r-c.,e• )~c.. t tlc:HJ \ N ~> .afl/iya I\ ·omH Quote 11: on fl,e OW Location Code: Su: • c.f ""rt Vcr.a.Ltmo Y NM !'lamp.lea J;.oc" '1,N, ,ir Ice \ H II.A o*M;;:lUJ1' Turnaround Date Required: 1mn,edi.1tely P;icked on Ice: \lA ~ hHdaptoco Aocq,t•l>.le \ N NA I IYes I I No l'l:'t::1' Roguit,tc•d SNJ.J.u \ N i•A Snmp.le>s J.11 Ho!i.'.l.ng 'l'.imc '>:NH .imple Dispos;,t. Rush: Field Filtered (i, ilpplicable): 1wsJ.c!u11.l ChJ.ad.ne P1 cscnt \" 14 r.A If ii.pc,s.. s ar"ro1>ria e I I Rehm• I • s·r. e Dev I I Ne~tDay I IYes ( !No C.'!&. Stt:lps: .~,_ .... _,,.. ___ .. ___ -~ ..... f Arcf,·, "· ( I:. Day 13D~y 1 I 4Day I J! Dnv I samp.l!l pli Arc:e1it,t.lc Y N NA --· --Analysis: I 1,11 str.lpo: ..... ___ -·· .. ________ .. /HM!., --... ·--. -(Exr,e<ite rl a, Jes Apply) SuJ. f.l.dc Pt<>tJcnt Y N N> Matrix Codes (Insert in Matrix box below): Drinki,-e Water (OW), Ground Water (GW), Was: wat r ,'J\'Vv), I co Leoti ,,cotnt.o str.ipa• .. _ .. ___ Produrt ,f /, Soil/Sofie (SL) <.ii (01 ), Wipe (WP!. /..Ir IAR), Titsue ("."S,. Bioas~a\ (Bl, Vapor IVI, Ot~ er (ff,) !Ju; USlil CNI•'i: Comp/ Collected (or Res llof ,~ .... -r,ab SmnpJ.o II I Crnnmcnte, Composite End Cll :Ustomer 5.lmple ID Matrbc • Grab Composite Start) Cl Ctns I~ C Date Time Date Time :::, -lrd quaIter filter 9/5/2';! 9/M.3 X X l IA.A ~ -I JI -th quart,:1r filter 11/16/2 11/17/2 '5( X ') w• , ... ,c ... l -i I l1 .. > -•-·-··· --~• ~-m~•-"'", I , ,,..,. - • ! tC'tl'C', P., n•n. k! ;· ~p1 c,: umcl t,cr-f / Possible Hazards: Type of Ice Used: Wet Blue Ory ~.one SHO'lT HOLDS PRESENT (<n t;iou•s): y fl. N/A Lab Sample Temperature Info: )mbine filten, Pa-."1 6 t •aterial L sed: L2b Track rF /1: Temp Blank • eceived: y N NA Therm,Dh: end l'\:jSUitt to wright,mv@gmail.com Cooler, TempUponReceipt: __ cC •mi~•amorri"@yahoo.o::im and april@I.Wright.c-m Radchem sample(s) streened {<500 q:n-,: y r ~!A Samples recei•.-ed via: Cooler, Therm Ccrr. Factor: __ oC FLOEX UPS Client Co rrer Pace Co, rrer Cooler l CorrectedTemp: oC elinquished by/Company: (Signalllre) Date/Time: Received by/Company: (Signature) Date/Time: MT.II. LAB USE ONLY Comments: J~JA,LUJ J.i1Jrnl/ ~J;ru.,JJ/ 1,1~/j1#~ lj:N) Table /t: Acctnum: eflnquishe'cf by/Company: (Signature) D~/Tirfie: Received by /Comp.iny: (Signature) Date/fime: Template: Trip Blank Received: y N NA Prelogin: HCL MeOH TSP Other Date/Time: Received by/Company: (Sigr Date/Time: PM: Non Conformance(s): e: ---...... VtC I Mf\ ,. I. IML Air Science ~~ a dMsion of Jntsr-Mountain Laboratories, Inc. ~------55=s~-.-ra~ka-,~Sh~e..,rid""a-n,~W'(""'""'8280~1 High Volume Air Pump Calibration Certificate Client: Anfield Resources Calibration Date: 4/13/2023 Calibration Time:""1-=o""':t""'s--------------1, Next Cal Due Date: 4/12/2024 I Mfg. SIN: 21238N Calibration coefficients m and bd 0.479S ! 10,9172 ! Barometric setting (inHg) Altitude (ft) Temperature ( C) Rotameter Indication Standard flow (SCFM) Actual flow (ACFM) 2S.43 4265 13.S 30 39.8 45.8 Enter barometer setting from weather report Enter altitude where the measurement was done Enter the temperature where the measurement was done Enter the rotameter (flowmeter) reading This is the flow rate if the air were at 760 mmHg and 2s•c This is the actual flow rate at the measurement conditions Calculated barometric pressure I 552.4 !mmHg Casper weather report: tl!!!?Morecast.weather.gov/MapC\ick php?Cityt:iame=Casper&slate=WY&s~e=RIW&textFleld1=42.8326&textField2~106.329&e=1 • • • ;a,,,Analytica/• CHAIN-OF-CUSTODY Analytical Request Document LAB USE ONLY• AfflK Workorder/L01ln Label Here ar Ust Pace Workorder Number or MTJL Log-In Number Here 0-.ain-of Custodv is a LEGALDOCLIMENT • Complete all relevent fields ompany: Anfield Resources B~ling Information: ALL SHADED AREAS are for LAB USE ONLY c,n ale. .ddress: 227 Jefferson St. Ft Collins, co Container i'reservative Tvoe •• ILab l'rojectManager: eportTo: Toby Wright Email To: wrightenv@gmail.com •• Preseivative Types: (ll nitric acid, (2l sulfuric acid, (3) hydrochloric add,(• ls. chm hy; rok,de (~) zinc &cetate. b rroe,h~n· I, I )s· dh.n, bisu fate, (el s•,rlil'IT' tf.i'>SUl'ai.e, (5l h1-nn1 'A: asc'll"oic acid,(") arr,moniun sufa,e, opyTo: .april@twright.com Site Collection Info/Address: (() ar rr.onium fydr , ide, fl)' ISP 'L'l Uq .fl e-1 ec (0' 01 her., __ ,. .. -.. - Shootarlr,, C any. n MIii Analyses Lab Proflle/Une: ustomer Project Name/Number: State: County/Cit,1: Time Zone Collected: Lat) Samp~e Rece~pt CheckUst1 3hoota·irg Canycn Mill AP-3 UT /Ticaboo I IPT.-fMT; ICT I IET CUst.d) Sea.Ls E'reaant/rntact 'Y N •1 hone: 435-633-3035 Site/Facility ID#: Compliance Monltorirg·. Custc.o. •· S.Lgn1 ti.r eP .l I es:.11: ,NM mail: lamiyamorrill@yahoo.com 1~es I INo Cc.L.Lec~••C f.Lrnature lhesen. , N NA Fc.•t.Les :.r cct ' N Pl ollected By (print): Purchase Order #: D\f.PV.SID#: Coc.-ec• fc.tt.Les 'I. N .,. .al\fiya I\ ·orrrll Quote II: on floe DWLocation Code: Su:: cJ~rt VO'.a.~me 'Y NU ol*m;;w_:;~ Imn•ediateIy PacKeo on Ice: Samp.Les J.ecr,,-ec. o, Ice , N t.A Turnaround Date Required: \\.A -h~rdspnca Acceptable , N NA I IYes I I No ~E~' RegU:i.ated Soi.Ls , N ~•A Samp.Le s .Ln HO' .. • .Lng T .Lma ~ N ~> Rush: Field Filtered (1, applicable): ample Dispos"I. l\ea.LC:ua.L Ch.Loc.Lne £'r·esant ,. N liA "1 i~pc,s.. sarnropria e I I Retur,• I • s·ra D,y I I Ne-ct Day I !Yes I INo C'l stc.Lps: ·-·--··-----• ••••• IArct-·, .,_ I I~ Day I 3D~y 1 l4Day I I! Day Samp.Le pf. Arca~t•k.Le Y N NA --·--Analysis: pH Stc.Lps: ···•·----··· ·---_ IHc,,d (.:•pedite c► ar.:esApply) ---·--· -su.Lf.Lda E'cesont 'Y N N> Matrix Codes (Insert in Matrix box below):Drinkirg Water (DWI, Ground Water (GW), Was: wat r :111•111,), Lead ,.c•tat• Stc.Lps· _ -·· ___ Produrt,I /, Soil/Solie (SL) til (01 ), Wipe (WPJ. J.ir IAR), TiLsue r:s,, Bioas~a\ (Bl, Vapor /VI, Ott er (ff.) cc LAIS USB CNIJY I Comp/ Collected (or Res #of ('\, . .., Lab Sample#/ Camm~nts, Composite End N (U :Ustomer Sample ID Matrix• Grab Composite Start) a Ctns ti C: Date Time Date Time ::::> -' lrd quaIter fill .. r 9/5/2~ 9/6/~3 X X I -IAA • j -I (~ fl-111 ]1!.~-Oc, I -th quart&r filter 11/16/2 11/17/2 X X ") i--v· ,. I ~ I ,,, ,c JJ t.,. ., I ., ~-- , ! tC"IT'I', P., n•a. k! ;· ~p, c,: to,;,c t.cl"~ / Possible Hazards: Type of Ice Used: Wet Blue Ory ~.one 9-IO'lT HOLDS PRESENT (<77 bou•s): y "-N/A LabSampleTemperaturelnfo: ,rrbine filteri, Pa:"ra r •aterlal L sed: LabTrackrf P: Temp Blank· ecelved: y N NA Therm,Dlf: end resu:tt to wright, nv@gmail.com CQolerJ TempUponRecefpt: __ cc 1mi~·amorrill@yahoo.CX>m and april@tw"ight.c-m Radchem sample(s) sqeened (<500 q: rr ,:@ I ~!A Samples recel·;ed via: Cooler J Therm Ccrr. Factor: __ oe FLDEX UPS Client Co rier Pace Cor rIer Cooler 1 Corrected Temp: oC elinquished by/Company: (SignabJre) Date/Time: Received by/Company: (SignabJre) Date/Time: MTJLLABUSE ONLY Comments: I,, JA, 1.#4 1'11m II 4J, !1" .. jj/ 11/ 'J/1/ ~2 '/:IJ() ~-/t. -fklz fl/~?I.J) Ofo, Table#: eTinquishe'cl by/Company: (Signature) riil.e/T Trfre: Received by/Company: (SignabJre) Date/Time: Acctnum: Ten,plate: Trip Blank Received: y N NA Prelogln: HCL MeOH TSP Other Date/Time: Date/Time: PM: Non Conformance( ..... Vl'C: / Nn •• • • • • • DC#_TiUe: ENV-FRM-SHRT-0033 v02_Condition Upon Receipt Form Terra Lab Effective Date: 4/24/2023 Survey Meter# Model: 12SA SN: 136491 pH strip lot #_H __ C_32_5_1 ___ 79 ____ _ Thermometer SN# 27130475 ---------- Condition Upon Receipt (Attach to COC) Sample Receipt 1 Number of ice chests/packages received: 1 ROI? Yes Note es • OTC • if samples are received over the counter, unpackaged 2 Temperature of cooler/sam les. If more than B coolers, obtain an additional CUR form.) Temps Observed (°C):t----1t----it-----1t----1t-----1t----it------11------1 Temps Corrected ("C):.,_.,....,,. _ _..___,,-,-,--....,_.,..... _ __... ___ _.._ _ _,... _ _.._ ___ .._ ___ ..._ ___ __. Acceptable Is: 0.1• to 10°C for Bacteria; and O. 1' to 6"C for most other water parameters. Samples may not have had adequate time to cool following collection. Indicate ROI (Received on Ice) for iced samples received on the same day as sampled, In addition to temperature at receipt. Client contact for tem eratures outside method criteria must be documented below. 3 Emission rate of samples for radiochemical analyses < 0.5mR/hr? e No N/A 4 COC Number (If applicable): 5 Do the number of bottles agree with the COC? ~ No N/A 6 Were the samples received intact? (no broken bottles, leaks, etc.) No N/A 7 Were the sample custody seals intact? Yes No e 8 Is the COC properly completed, legible, and signed? ~ No ~am11le ll.lcifii;mloo, Labeling A, Di§lcib11U0g 1 Were all requested analyses understood and appropriate? @) No "'fl{-:1t,e, 2 Did the bottle labels correspond with the COC information? Yes ~ 3 Samples collected in method-prescribed containers? @> 4 Sample Preservation: ~ C t,'eJ'I f r6 t "'< J/t L t ?/'>J;,. '1 ii,,,.. :Of.. l ~.J11~ i .,,1 ./;f-f T~ LIJei pH at Receipt: Final pH (if added in lab): Preservative/Lot# Datemme Added: Total Metals Total Metals HNO, ______ _ Diss Metals Diss Metals FHtered and preserved in metals Nutrient Nutrient H,so. ______ _ __ Cyanide __ Cyanide NaOH Sulfide Sulfide ZnAcet ______ _ Phenol Phenol H,so. ______ _ SOWA Rads SDWARads HN03 ______ _ 5 VOA vials have <6mm headspace? Yes 6 Were all analyses within holding time at the lime of receipt? 7 Have rush or project due dates been checked and accepted? 8 Do samples require subcontracted analyses? ~ Yes Yes No No No @> If "Yes", which type of subcontracting is required? General Customer-Spe,Fified Futered and preserved In metals Certified Sample Receipt, Verification, Login, Labeling & Distribution completed by {Initials): /J./ Set ID: _J._.:>_f. ..... 1/J __ )_.9_'.f"' __ _ msccepaocy Documentation fuse back of sheet for notes on discrepancies) Any items listed above with a response of "No" or do not meet specifications must be resolved. Person Contacted: ___________ Method of Contact: Phone: ________ _ Initiated B}'_: _______ Date/Time:. _______ _ Email: Problem: Resolution: Qualtrax ID: 70962 Pace® Analytical Services, LLC Page 1 of 1 ~eAnalyticaf•_P_a_ce_A_na_1y_ti_ca_1 ________________________ _ /-.,,A"aGi 1673 Terra Avenue Sheridan, WY 82801 ph: (307) 672-8945 • CLIENT: Project: Lab Order: Anfield Resources/Wright Environmental Services In Shootaring Canyon Mill AP-3 S2311395 A ] /J .,,,-?' ~ Entire Report Reviewed by: vt/.,e,, - Wade Nieuwsma, Laboratory Operations Manager Sample 3rd quarter & 4th quarter was received on November 27, 2023. Date: 1/24/2024 CASE NARRATIVE ReportID:S2311395001 All samples were received and analyzed within the recommended holding times, except those noted below in this case narrative. Samples were analyzed using the methods outlined in the following references: NRC radiological air particulate filters, animal, vegetation, soil and sediment samples may be composited by date and location per client's monitoring program requirements. Highly carbonaceous samples may require ashing. Samples are subjected to a modified USEPA SW-846 Method 3050B mineral acid digestion as appropriate. Analysis of the resulting solutions and digestates is performed using approved TNI, USEPA, and industry recognized analytical techniques. Where client-provided air volumes corresponding to the air filter composites exist, aqueous digestate results are converted to radiological particulate concentrations in air (e.g. µCi/ml). Quality control parameters acceptance criteria are defined by USEPA programs, and in USNRC Regulatory Guide 4.14 (Radiological Effluent and Environmental Monitoring at Uranium Mills), USNRC Regulatory Guide 4.15 (Quality Assurance for Radiological Monitoring Programs-Effluent Streams and the Environment), the TNI Standard EL-V1-2009, and Pace Analytical (Formerly Inter-Mountain Laboratories) internal quality procedures. ~II Quality Control parameters met the acceptance criteria defined by EPA, NRC guidance, and Pace Analytical (Formerly ,wnter-Mountain Laboratories) except as indicated in this case narrative . • Page 1 of 2 ~Ana/ytica/•_P_a_ce_A_na_1y_t_ica_1 ________________________ _ ( _,,,,rau 1673 Terra Avenue Sheridan, WY 82801 ph: (307) 672-8945 • Definitions RL Reporting Limit A B C D E G H J L M N ND 0 e: • s u X Qualifiers Value exceeds Maximum Contaminant Level Check MSA specifications Analyte detected in the associated Method Blank Calculated Value Report limit raised due to dilution Value above quantitation range Analyzed at Pace Gillette, WY laboratory Holding times for preparation or analysis exceeded Analyte detected below quantitation limits Analyzed by another laboratory Value exceeds Monthly Ave or MCL or is less than LCL Sample analyzed outside of compliance requirements Not Detected at the Reporting Limit Outside the Range of Dilutions Sample preserved in lab at time of receipt RPD outside accepted recovery limits Spike Recovery outside accepted recovery limits Analyte below method detection limit Matrix Effect Date: 1/24/2024 Page 2 of 2 • Pace Analytical -aceAnalytical ....------------------------- 1613 Terra Avenue Sheridan, WY 82801 .! ph: (307) 672-8945 Sample Analysis Report • Company: Anfield Resources 3346 W. Guadalupe Rd. Apache Junction, AZ 85210 ProjectName: Lab ID: Shootaring Canyon Mill AP-3 S2311395-001 ClientSample ID: 3rd quarter & 4th quarter COC: PWSID: Comments Analyses Result Radionuclides -Filter Radium 226 Radium 226 Precision (±) Uranium 1.6 0.2 ND Units pCi/Filter pCi/Filter pCi/Filter Qual Date Reported 1/24/2024 Report ID: S2311395001 WorkOrder: S2311395 CollectionDate: 11/17/2023 Date Received: 11/27/2023 8:06:00 AM FieldSampler: LM Matrix: Filter RL Method Date Analyzed/lnit 0.2 0.2 SM 7500RAB SM 7500RAB EPA200.8 01/23/2024 1358 01/23/2024 1358 11/30/2023 803 WN WN MS •------------- These results apply only to the samples tested. Page 1 of 1 • Pace Analytical -aceAnalytical -------------------------• 1673 Terra Avenue Sheridan, WY 82801 ph: (307) 672-8945 ANALYTICAL QC SUMMARY REPORT CLIENT: Work Order: Anfield Resources/Wright Environmental Se S2311395 Project: Shootaring Canyon Mill AP-3 • • Uranium, Air Filter Analysis MBLK (11/30/23 07:51) Analyte Uranium Uranium, Air Filter Analysis LCS (11/30/23 07:57) Analyte Uranium Uranium, Air Filter Analysis S2311395-001AS (11/30/23 08:15) Analyte Uranium Uranium, Air Filter Analysis S2311395-001AMSD (11/30/23 08:20) Analyte Uranium Uranium, Air Filter Analysis S2311395-001AD (11/30/23 08:09) Analyte Uranium Radium 226 Air Filter Analysis MB-2582 (01 /23/24 11 :33) Analyte Radium 226 Radium 226 Air Filter Analysis LCS-2582 (01 /23/24 11 :33) Analyte Radium 226 Radium 226 Air Filter Analysis MS-2582 (01/23/24 11 :33) Analyte Radium 226 Radium 226 Air Filter Analysis MSD-2582 (01/23/24 11 :33) Analyte Radium 226 Sample Type MBLK RunNo: 216451 Result ND Sample Type LCS RunNo: 216451 Result 63.1 Sample Type MS RunNo: 216451 Result 723 Sample Type MSD RunNo: 216451 Result 695 Sample Type DUP RunNo: 216451 Result ND Sample Type MBLK RunNo: 217867 Result ND Sample Type LCS RunNo: 217867 Result 7.7 Sample Type MS RunNo: 217867 Result 7.6 Sample Type MSD RunNo: 217867 Result 6.6 Date: 1/24/2024 Report ID: S2311395001 Units: pCi/Filter RL Spike RefSamp %REC % Rec Limits 0.2 Units: pCi/Filter RL Spike RefSamp %REC % Rec Limits 0.2 67.7 93.2 85 -115 Units: pCi/Filter RL Spike Ref Samp %REC % Rec Limits 0.2 745 ND 97.1 70 -130 Units: pCi/Filter RL Cone %RPO %REC % RPO Limits 0.2 723 3.98 93.3 20 Units: pCi/Filter RL Ref Samp %RPO %REC % RPO Limits 0.2 ND 20 Units: pCi/Filter PrepDate: 01/17/24 16:59 BatchlD: 21470 RL Spike RefSamp %REC % Rec Limits 0.2 Units: pCi/Filter PrepDate: 01/17/24 16:59 BatchlD: 21470 RL Spike RefSamp %REC % Rec Limits 0.2 8.08 95.7 79 -112 Units: pCi/Filter PrepDate: 01/17/24 16:59 BatchlD: 21470 RL Spike RefSamp %REC % Rec Limits 0.2 8.08 ND 93.9 68 -123 Units: pCi/Filter PrepDate: 01/17/24 16:59 BatchlD: 21470 RL Cone %RPO %REC % RPO Limits 0.2 7.6 13.6 81.9 20 Page 1 of 1 Qual Qual Qual Qual Qual Qual Qual Qual Qual Shootaring Canyon Uranium Facility AP-3 Air Particulate High Vol Monitoring Station First Half 2023 Q3 2023 (September 5 and 6, 2023) Actual Flow 74.2 cfm Q4 2023 (November 16 and 17, 2023) Quarter Q3 Q4 Parameter Unat Ra-226 • Actual Flow Date 9/5-6/2023 11/16-17/23 45.8 cfm Flow Rate (cfm) 74.2 45.8 Duration (min) 1,771.2 1,717.2 3,488.40 PACE Work Order: S2311395 Reporting Limit Effluent Limit Precision (+/-) MDC Effluent Limit ,e_Ci/filter <0.2 0.20 ,e_Ci/ml <3.4E-11 3.4E-11 % of Effluent Limit 1.6 2.69E-10 0.2 3.36E-11 0.2 3.36E-11 % of Effluent Limit 60.2 Average total flow Volume _jr1l_lL_ 3.72E+09 2.23E+09 5.95E+09 Total uCi/ml <3.40E-17 Comment 3.36E-17 Meets NRG Reg Guide 4.14 requirement of 1 E-16 uCi/ml 9.00E-14 10 CFR 20, Appendix B, Table 2, Effluent Concentration Limits for unrestricted areas. 0.0% 2.69E-16 3.40E-17 3.40E-17 Meets NRG Reg Guide 4.14 requirement of 1 E-16 uCi/ml 9.00E-13 1 0 CFR 20, Appendix B, Table 2, Effluent Concentration Limits for unrestricted areas. 0.030% • •