Torchlight Energy Operating

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1 , INC Torchlight Energy Operating Tight Rock Analysis Report University Rich A11 #1 Hudspeth County, Texas The analysis, interpretations or opinions expressed in our reports represent the best judgement of Special Core Analysis Laboratories Inc Special Core Analysis Laboratories Inc assumes no responsibility and makes no warranties of any kind as to the productivity, proper operation or profitability of any oil, gas or any other mineral in connection which such a report is used or relied upon P O Box 9730 Midland, TX (432) FAX (432) mv@scalinccom

2 , INC June 4, 2015 Mr Richard Masterson Torchlight Energy Operating 5700 W Plano Parkway Suite 3600 Plano, TX Reference: Tight Rock Analysis University Rich A11 #1 Hudspeth County, Texas Dear Mr Masterson: Bulk density, matrix permeability, micro fracture porosity and permeability at confining stress Bulk density and micro fracture permeability and porosity measurements were performed at reservoir confining stress on the as received shale sample The matrix permeability was also measured Residual gas The shale samples were grinded using special mills A desorption isotherm was performed at reservoir temperature on the granular sample to measure the residual gas and the diffusion parameter Geochemistry A small portion of the crushed sample was collected and used to perform TOC and Rock-Evaluation The plug end trims are also available for further geochemistry and/or petrography analysis (TS, XRD, SEM) Gas filled porosity The gas filled porosity is measured on the crushed sidewall sample by helium expansion into the as received shale Water and oil saturations, total porosity, and grain density The samples are extracted at 100 o C and 250 o C to measure the water and oil saturations The total porosity and the grain density are also measured after extraction The samples were photographed in daylight and UV light at different stages of the analysis sequence to document fluorescence and grinding sizes It was a pleasure performing these analyses for you If you have any further questions please feel free to contact our laboratory Thank you for using Sincerely, David Gordon Lance Welch Mihai Vasilache Senior Core Analyst Shale Supervisor Petroleum Engineer/President

3 Tight Rock Analysis Report Company: Torchlight Energy Operating County: Hudspeth County Desorption Temperature: 124 o F Well: University Rich A11 #1 State: Texas Confining Pressure: 1,765 psi Sample Quick-Desorption Plug (microfracture) Data Crushed Sample Data Diffusion Parameter As received Extracted and Dried Plug Crushed No Depth Measured Lost Residual TOTAL Matrix Plug Plug Bulk Gas Filled Total Saturations Grain D/r2 D/r2 Ratio Gas Gas Gas Gas Perm Perm Porosity Density Porosity Porosity Water Oil Density ft scf/ton* scf/ton* scf/ton* scf/ton* nd md % g/cc % % % % g/cc 1/sec 1/sec 8 5,14600 N/A N/A 103 N/A tbfa N/A 696E-07 N/A 9 5,17000 N/A N/A 65 N/A N/A 553E-04 N/A 10 5,19200 N/A N/A 62 N/A N/A 583E-04 N/A 11 5,23400 N/A N/A 79 N/A N/A 720E-05 N/A 12 5,26700 N/A N/A 124 N/A (f) N/A 157E-04 N/A 13 5,31700 N/A N/A 32 N/A N/A 460E-05 N/A 14 5,32600 N/A N/A 55 N/A N/A 655E-05 N/A 15 5,34600 N/A N/A 16 5,38000 N/A N/A 120 N/A N/A 108E-04 N/A 17 5,39000 N/A N/A 47 N/A N/A 463E-05 N/A 18 5,40500 N/A N/A 50 N/A N/A 338E-04 N/A 19 5,42000 N/A N/A 20 5,43800 N/A N/A 83 N/A N/A 212E-05 N/A 21 5,45000 N/A N/A 46 N/A N/A 818E-06 N/A 22 5,46400 N/A N/A 83 N/A 8910 tbfa N/A 308E-05 N/A 23 5,48500 N/A N/A 24 5,51200 N/A N/A 155 N/A tbfa N/A 441E-05 N/A 25 5,52000 N/A N/A 45 N/A N/A 204E-04 N/A 26 5,54800 N/A N/A 107 N/A N/A 830E-05 N/A Average N/A N/A 79 N/A N/A 148E-04 N/A Notations: D Diffusion coefficient [cm 2 /sec] r Sphere Radius [cm] D/r 2 Diffusion parameter [1/sec] ton* US Short ton equal to 2,000 lbs

4 Gas Content vs Depth University Rich A11 #1 5,100 5,150 5,200 Total Gas USBM Method Measured Gas Lost Gas USBM Method Residual Gas 5,250 5,300 Depth (ft) 5,350 5,400 5,450 5,500 5,550 5, Total Gas (scf/ton)

5 University Rich A11 #1 Sample Depth Sample Depth Sample Depth Sample Depth 8 5, , , , , , , , , , , , , , , , , , ,5200 The first set of ground samples are dry and under uv light to show that there was no fluorescence The second set of ground samples are cut with toluene under uv light to show the presence of hydrocarbons

6 Microfracture Analysis Report API #: Location : Sample Depth Grain Porosity Klinkenberg Matrix Sample Description Number Density Permeability Perm ft g/cc % md nd Confining Pressure 1,765psi 8* 5, tbfa 1502 Sh:blk nvp sm pyr 9 5, Sh:blk nvp sm pyr sm calc 10 5, Sh:blk nvp calc sm pyr 11 5, Sh:blk nvp sm calc sm pyr 12 5, (f) 1168 Sh:brn nvp sm calc sm pyr 13 5, Sh:brn nvp sm calc sm pyr v sl sd 14 5, Sh:brn nvp calc sl pyr 15 5,3460 Sh:brn nvp calc sm pyr 16 5, Sh:brn nvp calc sm pyr sm sd 17 5, Sh:blk nvp calc sm pyr v sl sd 18 5, Sh:blk nvp sm calc sm pyr 19 5,4200 Sh:blk nvp sm pyr sm calc 20 5, Sh:blk nvp sm pyr sl calc 21 5, Sh:blk nvp sm pyr sm calc 22* 5, tbfa 891 Sh:blk nvp sm pyr sm calc 23 5,4850 Sh:blk nvp sm calc sl pyr 24* 5, tbfa 1904 Sh:blk nvp calc sm pyr 25 5, Sh:blk nvp sdy calc sm pyr 26 5, Sh:blk nvp calc sl pyr Notes: tbfa indicates samples that are too broken for analysis porosity for samples with an asterisk was performed at ambient conditions Samples in RED were preserved for future testing

7 Permeability versus 1,765psi 1 Klinkenberg Permeability 01 Air Permeability md Porosity [%]

8 University Rich A11 #1 Sample Depth Sample Depth Sample Depth Sample Depth 1 3, , , , , , , , , , , ,2670

9 University Rich A11 #1 Sample Depth Sample Depth Sample Depth Sample Depth 13 5, , , , , , , , , , , ,5120

10 University Rich A11 #1 Sample Depth Sample Depth Sample Depth Sample Depth 25 5, ,5480

11 X-Ray Diffraction Mineral Data Well: University Rich A11 No 1 County: Hudspeth County, Texas API#: Location: Sample Depth Matrix Klinkenberg Porosity Grain Qtz Plag K Cal Dol Ank Sid Apa Gyp NaCl Pyr Total Illite EML Sme Kao Chl Total Total Number Permeability Permeability Density Feld Bulk + i/s Clay ft nd md % g/cc % Mica % % 8 5, tbfa , , , , (f) , , , , , , , , tbfa , tbfa , , "+" Denotes a trace percentage Qtz Quartz SiO2 KFeld Potassium Feldspar KAlSi3 O8 Clay Minerals = Aluminosilicates Cal Calcite Ca CO3 Dol Dolomite CaMg(CO3)2 Kao Kaolinite Sid Siderite Fe CO3 Bar Barite BaSO4 Chl Chlorite Pyr Pyrite Fe S2 Plag (Ca, Na)Al(1-2)Si(3-2)O8 Sme Smectite Gyp Gypsum CaSO42H2O Anhy Anhydrite CaSO4 EML Expandable Mixed Layer (Illite/Smectite) Ank Ankerite

12 TOTAL ORGANIC CARBON and ROCK-EVAL PYROLYSIS Company: Torchlight Energy Operating Well Name: University Rich A11 #1 Project #: 15EG0097 Client ID Lab ID Sample Depth TOC S1 S2 S3 S1/ Calculated Measured Prep Tmax HI OI PI Type From To Unit Wt % mg/g mg/g mg/g TOC % Ro % Ro Sample#8 SKEG POWDER FT NOPR Sample#9 SKEG POWDER FT NOPR Sample#10 SKEG POWDER FT NOPR Sample#11 SKEG POWDER FT NOPR Sample#12 SKEG POWDER FT NOPR Sample#13 SKEG POWDER FT NOPR Sample#14 SKEG POWDER FT NOPR Sample#16 SKEG POWDER FT NOPR Sample#17 SKEG POWDER FT NOPR Sample#18 SKEG POWDER FT NOPR Sample#20 SKEG POWDER FT NOPR Sample#21 SKEG POWDER FT NOPR Sample#22 SKEG POWDER FT NOPR Sample#24 SKEG POWDER FT NOPR Sample#25 SKEG POWDER FT NOPR Sample#26 SKEG POWDER FT NOPR

13 TOC wt% S 2 mg HC/g Rock Hydrogen Index (mg HC/g TOC) Depth (FT) Poor Avarage High Very High Poor Fair Good Very Good Gas Prone Mix Oil Prone Source rock evaluation logs

14 Type I Oil Window % Ro oc Tmax 800 Type I 800 Hydrogen Index (mg HC/g TOC) Type II Hydrogen Index (mg HC/g TOC) II II/III III 100 Type III Oxygen Index (mg CO2/g TOC) Rock-Eval OI versus HI diagram Tmax ( o C) Rock-Eval Tmax versus HI diagram

15 Type I 900 Type I Hydrogen Index (mg HC/g TOC) II II/III Hydrogen Index (mg HC/g TOC) II II/III III 200 III Calculated Vitrinite Reflectance (%Ro) Tmax ( o C) Rock-Eval HI versus Rock-Eval Tmax diagram Rock-Eval HI versus Vitrinite Reflectance (% Ro) diagram

16 100 Poor Average High Very High Strong Oil Prone HI mg HC/g TOC 600 Oil Prone Very Good S 2 mg HC/g Rock 10 1 Good Fair Poor S 2 mg HC/g Rock Oil with gas Prone Gas with Oil Prone 200 Gas Prone Weak Gas Prone TOC wt% TOC wt% 4 3 TOC = 02296*S R 2 = GROUP HI = 436 mghc/gtoc PI s > 02 indicate the presence of bitumen, migrated HC s, or contamination TOC wt% Hydrogen Index (mg HC/g TOC) S 2 mg HC/g Rock PI (S 1 /S 1 +S 2 ) Source rock evaluation cross plots A) TOC vs S2 B) TOC vs S2 C) S2 vs TOC D) PI vs HI

17 Sample No : 8* Depth : 5,1460 tbfa tbfa fair cut Sh:blk nvp sm pyr

18 Sample No : 8* Depth : 5,1460 tbfa tbfa fair cut Sh:blk nvp sm pyr

19 Sample No : 9 Depth : 5, no cut Sh:blk nvp sm pyr sm calc

20 Sample No : 9 Depth : 5, no cut Sh:blk nvp sm pyr sm calc

21 Sample No : 10 Depth : 5, tr cut Sh:blk nvp calc sm pyr

22 Sample No : 10 Depth : 5, tr cut Sh:blk nvp calc sm pyr

23 Sample No : 11 Depth : 5, poor cut Sh:blk nvp sm calc sm pyr

24 Sample No : 11 Depth : 5, poor cut Sh:blk nvp sm calc sm pyr

25 Sample No : 12 Depth : 5, (f) 542 (f) poor cut Sh:brn nvp sm calc sm pyr

26 Sample No : 12 Depth : 5, (f) 542 (f) poor cut Sh:brn nvp sm calc sm pyr

27 Sample No : 13 Depth : 5, fair cut Sh:brn nvp sm calc sm pyr v sl sd

28 Sample No : 13 Depth : 5, fair cut Sh:brn nvp sm calc sm pyr v sl sd

29 Sample No : 14 Depth : 5, fair cut Sh:brn nvp calc sl pyr

30 Sample No : 14 Depth : 5, fair cut Sh:brn nvp calc sl pyr

31 Sample No : 15 Depth : 5, good cut Sh:brn nvp calc sm pyr

32 Sample No : 15 Depth : 5, good cut Sh:brn nvp calc sm pyr

33 Sample No : 16 Depth : 5, good cut Sh:brn nvp calc sm pyr sm sd

34 Sample No : 16 Depth : 5, good cut Sh:brn nvp calc sm pyr sm sd

35 Sample No : 17 Depth : 5, good cut Sh:blk nvp calc sm pyr v sl sd

36 Sample No : 17 Depth : 5, good cut Sh:blk nvp calc sm pyr v sl sd

37 Sample No : 18 Depth : 5, good cut Sh:blk nvp sm calc sm pyr

38 Sample No : 18 Depth : 5, good cut Sh:blk nvp sm calc sm pyr

39 Sample No : 19 Depth : 5, good cut Sh:blk nvp sm pyr sm calc

40 Sample No : 19 Depth : 5, good cut Sh:blk nvp sm pyr sm calc

41 Sample No : 20 Depth : 5, good cut Sh:blk nvp sm pyr sl calc

42 Sample No : 20 Depth : 5, good cut Sh:blk nvp sm pyr sl calc

43 Sample No : 21 Depth : 5, good cut Sh:blk nvp sm pyr sm calc

44 Sample No : 21 Depth : 5, good cut Sh:blk nvp sm pyr sm calc

45 Sample No : 22* Depth : 5,4640 tbfa tbfa good cut Sh:blk nvp sm pyr sm calc

46 Sample No : 22* Depth : 5,4640 tbfa tbfa good cut Sh:blk nvp sm pyr sm calc

47 Sample No : 23 Depth : 5, fair cut Sh:blk nvp sm calc sl pyr

48 Sample No : 23 Depth : 5, fair cut Sh:blk nvp sm calc sl pyr

49 Sample No : 24* Depth : 5,5120 tbfa tbfa fair cut Sh:blk nvp calc sm pyr

50 Sample No : 24* Depth : 5,5120 tbfa tbfa fair cut Sh:blk nvp calc sm pyr

51 Sample No : 25 Depth : 5, good cut Sh:blk nvp sdy calc sm pyr

52 Sample No : 25 Depth : 5, good cut Sh:blk nvp sdy calc sm pyr

53 Sample No : 26 Depth : 5, good cut Sh:blk nvp calc sl pyr

54 Sample No : 26 Depth : 5, good cut Sh:blk nvp calc sl pyr

55 Customer : SCAL, Inc Comment : STD#1 Customer part : 15EG0097_Job# S1(mg/g)=101 S2(mg/g)=556 S3(mg/g)=043 S3CO(mg/g)=007 pyrominc(%)=023 PC(%)=06 Sample=STD SR-1 Method=Bulk Rock Cycle=Basic Qty(mg)=672 Tmax( c)=438 TpkS2( c)= C min C:\DEFAULT\15EG0097\001R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

56 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=033 S2(mg/g)=166 S3(mg/g)=047 S3CO(mg/g)=019 pyrominc(%)=04 PC(%)=019 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=673 Tmax( c)=448 TpkS2( c)= C min C:\DEFAULT\15EG0097\002R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

57 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=085 S2(mg/g)=321 S3(mg/g)=034 S3CO(mg/g)=005 pyrominc(%)=039 PC(%)=036 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=661 Tmax( c)=445 TpkS2( c)= C min C:\DEFAULT\15EG0097\003R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

58 Customer : SCAL, Inc Comment : Customer part : 15EG0097_Job# S1(mg/g)=089 S2(mg/g)=323 S3(mg/g)=038 S3CO(mg/g)=011 pyrominc(%)=03 PC(%)=036 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=683 Tmax( c)=445 TpkS2( c)= C min C:\DEFAULT\15EG0097\004R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

59 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=11 S2(mg/g)=448 S3(mg/g)=035 S3CO(mg/g)=004 pyrominc(%)=029 PC(%)=048 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=685 Tmax( c)=443 TpkS2( c)= C min C:\DEFAULT\15EG0097\005R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

60 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=125 S2(mg/g)=534 S3(mg/g)=031 S3CO(mg/g)=004 pyrominc(%)=025 PC(%)=056 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=635 Tmax( c)=443 TpkS2( c)= C min C:\DEFAULT\15EG0097\006R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

61 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=106 S2(mg/g)=39 S3(mg/g)=024 S3CO(mg/g)=011 pyrominc(%)=021 PC(%)=043 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=679 Tmax( c)=446 TpkS2( c)= C min C:\DEFAULT\15EG0097\007R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

62 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=108 S2(mg/g)=376 S3(mg/g)=037 S3CO(mg/g)=012 pyrominc(%)=025 PC(%)=042 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=673 Tmax( c)=442 TpkS2( c)= C min C:\DEFAULT\15EG0097\008R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

63 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=1 S2(mg/g)=43 S3(mg/g)=029 S3CO(mg/g)=009 pyrominc(%)=023 PC(%)=046 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=662 Tmax( c)=443 TpkS2( c)= C min C:\DEFAULT\15EG0097\009R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

64 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=104 S2(mg/g)=443 S3(mg/g)=035 S3CO(mg/g)=003 pyrominc(%)=024 PC(%)=047 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=644 Tmax( c)=443 TpkS2( c)= C min C:\DEFAULT\15EG0097\010R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

65 Customer : SCAL, Inc Comment : STD#2 Customer part : 15EG0097_Job# S1(mg/g)=102 S2(mg/g)=564 S3(mg/g)=041 S3CO(mg/g)=008 pyrominc(%)=022 PC(%)=062 Sample=STD SR-1 Method=Bulk Rock Cycle=Basic Qty(mg)=662 Tmax( c)=438 TpkS2( c)= C min C:\DEFAULT\15EG0097\011R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

66 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=105 S2(mg/g)=411 S3(mg/g)=035 S3CO(mg/g)=009 pyrominc(%)=024 PC(%)=045 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=672 Tmax( c)=444 TpkS2( c)= C min C:\DEFAULT\15EG0097\012R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

67 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=147 S2(mg/g)=7 S3(mg/g)=033 S3CO(mg/g)=011 pyrominc(%)=023 PC(%)=072 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=680 Tmax( c)=448 TpkS2( c)= C min C:\DEFAULT\15EG0097\013R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

68 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=159 S2(mg/g)=789 S3(mg/g)=04 S3CO(mg/g)=004 pyrominc(%)=02 PC(%)=081 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=541 Tmax( c)=448 TpkS2( c)= C min C:\DEFAULT\15EG0097\014R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

69 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=132 S2(mg/g)=684 S3(mg/g)=031 S3CO(mg/g)=004 pyrominc(%)=021 PC(%)=069 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=674 Tmax( c)=448 TpkS2( c)= C min C:\DEFAULT\15EG0097\015R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

70 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=143 S2(mg/g)=639 S3(mg/g)=037 S3CO(mg/g)=005 pyrominc(%)=024 PC(%)=067 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=597 Tmax( c)=446 TpkS2( c)= C min C:\DEFAULT\15EG0097\016R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

71 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=106 S2(mg/g)=452 S3(mg/g)=03 S3CO(mg/g)=003 pyrominc(%)=025 PC(%)=048 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=669 Tmax( c)=444 TpkS2( c)= C min C:\DEFAULT\15EG0097\017R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1

72 Customer : SCAL, Inc Comment : Sample# FT Customer part : 15EG0097_Job# S1(mg/g)=113 S2(mg/g)=532 S3(mg/g)=039 S3CO(mg/g)=003 pyrominc(%)=025 PC(%)=055 Sample=SKEG Method=Bulk Rock Cycle=Basic Qty(mg)=667 Tmax( c)=446 TpkS2( c)= C min C:\DEFAULT\15EG0097\018R00 : FID-CO-CO2 pyrolysis graphic State Pyro Status Ok No blank substraction Oxi Status ROCK-EVAL 6 403x01 ( ) Date : Page 1/1