impact of elemental sulfur in natural gas · email [email protected] 1e-08

34
SAFER, SMARTER, GREENER DNV GL © 2015 Impact of Elemental Sulfur in Natural Gas Derek Robson, Martin J. Maple, Andrew P. Laughton 1 21 st July 2015 OIL & GAS

Upload: vumien

Post on 07-Oct-2018

219 views

Category:

Documents


0 download

TRANSCRIPT

Page 1: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL © SAFER, SMARTER, GREENER DNV GL © 2015

Impact of Elemental Sulfur in Natural Gas

Derek Robson, Martin J. Maple, Andrew P. Laughton

1

21st July 2015

OIL & GAS

Page 2: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Elemental Sulfur – What is it, Where is it Found?

2

1. Occurs naturally as elemental sulfur

2. Sulfide ores e.g. § Galena PbS

§ Pyrite FeS2

§ Pyrrhotite Fe1-xS

3. Sulfate minerals e.g. § Barytes BaSO4

§ Epsomite MgSO4·7H2O

4. Sulfur removal: By-product of natural gas and petroleum industries

Page 3: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Sulfur Crystals

SEM image 300x

3200x

3

Page 4: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Sulfur Phase Diagram

4

AP Laughton https://www.dnvgl.com/services/gasvle-8331 email [email protected]

1E-08

0.0000001

0.000001

0.00001

0.0001

0.001

0.01

0.1

1

10

100

1000

10000

100000

1000000

0 200 400 600 800 1000 1200 1400

Pres

sure

/ k

Pa

Temperature / K

Rhom-Vap

Mono-Vap

Rhom-Mono

Rhom-Liq

Mono-Liq

Vap-Liq

points

Vapour

Liquid

Rhombic Solid

Monoclinic Solid

Page 5: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Origin of Sulfur – Gas Wells, Transmission and Distribution

5

Gas reservoir

• Sulfur, S8 • Polysulfanes, H2Sy H-S-S-S-S-S-S-H

(Unstable) ® H2S + S

Chemical reactions

• Oxidation of H2S 2H2S + O2 ® 2S + 2H2O (Oxygen in natural gas <10 ppm vol)

Page 6: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Gas Safety (Management) Regulations 1996

“No person shall, subject to paragraphs (2) to (4), convey gas in a network unless the gas conforms with the requirements specified in Part I of Schedule 3”

UK Network Entry Specification

Safety Limits

– Calorific value

– Wobbe number

– Hydrogen Sulfide, H2S

– Hydrocarbon dewpoint

– Water dewpoint

UK Network Limits

– Total sulfur

– Oxygen

– Inerts (CO2 & N2)

– Delivery temperature

– Contaminants

– Odour

6

Page 7: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

GS(M)R 1996, Part I Schedule 3

7

No limits for elemental sulfur

Natural Gas Composition Hydrogen ≤ 0.1 mol%

Oxygen ≤ 0.2 mol%

Impurities Not contain solids or liquids that may interfere with integrity or operation of the network or appliances

Hydrocarbons & Water Dewpoint

Hydrogen Sulfide, H2S ≤5 mg/m3 (~ 3.3 ppmv)

Total Sulfur (including H2S) ≤50 mg/m3

Physical Properties

Wobbe Number 47.2 – 51.41 MJ/m3

Incomplete Combustion Factor ≤ 0.48

Soot Index ≤ 0.60

Gas below 7 barg will have a stenching agent added to give a characteristic, distinctive odour

Page 8: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

What’s the Problem? Deposition of Solid Sulfur

§ Gas fired power stations

§ Blockage of orifices, valves, fuel jets

§ Turbine blade impairment

§ Transmission & distribution systems – certain pressure reduction stages possibly at risk

§ Pipework, filters, valves

8

Page 9: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Gas Control Valve Cage

9

Page 10: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Turbine Blades

10

Page 11: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Burners

11

Page 12: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Deposition in Gas Regulators

§ Pressure reduction

§ 300 psi to 30 psi

§ Temperature reduction

§ 20 °C to 10 °C

12

Page 13: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Gas Regulator Orifice and Seat

13

Page 14: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Gas Offtakes

14

Page 15: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Hong Kong

15

Page 16: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Pressure Reduction to 38 bar, 40.6 °C Sulfur Deposits

16

Page 17: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Sulfur Deposition

17

Page 18: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Sulfur Deposition

18

Page 19: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Confirmation of Sulfur – Chemical Analysis Techniques

SEM/EDX (Ka X-ray 2.3 keV)

19

Gas chromatography–mass spectroscopy (GC-MS) Mass spectrum S8 (m/e 256)

Page 20: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

X-ray Diffraction

20

01-078-1888 (D) - Sulfur - alpha-S8 - Y: 74.98 % - d x by: 1. - WL: 1.5406 - Orthorhombic - a 10.46460 - b 12.86600 - c 24.48600 - alpha 90.000 - beta 90.000 - gamma 90.000 - Face-centered - Fddd (70) - 1Operations: Smooth 0.049 | Background 1.000,1.000 | ImportYELLOW - File: YELLOW.raw - Type: 2Th/Th locked - Start: 5.000 ° - End: 80.002 ° - Step: 0.014 ° - Step time: 0.2 s - Temp.: 20 °C - Time Started: 11 s - 2-Theta: 5.000 ° - Theta: 2.500 ° - Chi: 0.00 ° - Phi: 0

Lin

(Cou

nts)

0

10

20

30

40

50

60

70

80

90

100

110

120

130

140

150

160

170

180

190

200

210

220

230

240

250

260

270

280

290

300

2-Theta - Scale20 30 40 50 60 70

Page 21: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Modelling of Sulfur Solubility in Natural Gas

21

Page 22: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Sulfur (S8) Properties

22

Physical Properties MW 256.520 g/mol Boiling Point 444.6 °C (717.8 K) Monoclinic (b) <115.2 °C (388.33 K) Rhombic (a) < 95.3 °C (368.46 K) Vapour Pressure at 15 °C 2.0x10-4 Pa (1.5x10-6 mmHg)

Page 23: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Sulfur Solubility

23

Liquid-Solid Solubility (20 °C)

Solvent Solubility wt% in soln. Solvent Solubility wt% in soln.

Hexane 0.30 Benzene 1.70 (20 °C)

Heptane 0.33 Toluene 1.83 (20 °C)

Octane 0.36 Methanol 0.03 (18 °C)

Nonane 0.39 Ethanol 0.05 (18 °C)

Decane 0.40 Diethyl ether 0.28 (18 °C)

Water <0.01 Acetone 2.65 (23 °C)

Cyclohexane 1.02 (22 °C) CS2 30.0 (20 °C)

Page 24: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Sulfur Phase Diagram

24

1E-08

0.0000001

0.000001

0.00001

0.0001

0.001

0.01

0.1

1

10

100

1000

10000

100000

1000000

0 200 400 600 800 1000 1200 1400

Pres

sure

/ k

Pa

Temperature / K

Rhom-Vap

Mono-Vap

Rhom-Mono

Rhom-Liq

Mono-Liq

Vap-Liq

points

Vapour

Liquid

Rhombic Solid

Monoclinic Solid

Page 25: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Solubility of Sulfur in Natural Gas

25

Page 26: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Solubility in Natural Gas

Joule-Thomson cooling from 15 °C, 68.9 bar (1000 psia) to –28.3 °C, 1.01325 bar (1 atm)

26

10-8 moles S8 in 100 moles Natural Gas is equivalent to:

• 0.0001 ppm(v) or 0.0008 ppm (H2S equivalents)

• 0.0026 mg

• 0.0011 mg/scm

• 0.000068 lb/Mscf

500 mL/min gas flow rate is equivalent to:

• 500 x 10-6 x 60 x 24 scm/day

• 0.00079 mg-S8/day

Typical level of H2S is 3 ppm(v)

Page 27: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Chemical Analysis

§ Sulfur in natural gas – very low concentrations ~0.001 ppm (vol)

§ Conventional gas chromatography

– Sulfur not easy to chromatograph (bp 444 °C)

– Detection limits insufficient

– Gas bomb gas volumes – too small (0.5 L at 70 bar = 35 L at 1 bar). Need 1000 L

§ Other methods (total sulfur, H2S) not sensitive enough

§ Need sensitive and selective method

27

Page 28: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Triphenyl Phosphine (TPP)

§ Reaction of triphenyl phosphine with sulfur to form triphenyl phosphine sulfide (TPPS):

8 C6H5P + S8 ® 8 (C6H5)3P=S

§ 0.00079 mg S8 reacts with 0.0065 mg TPP

28

Physical Properties of TPP (C18H15P)

MW 262.29 g/mol

Melting temp. 81.3 °C (354.4 K)

Physical Properties of TPPS (C18H15PS) MW 294.35 g/mol

Page 29: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Sampling of High Pressure Natural Gas

29

Page 30: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Gas Sampling

30

§ Solution of TPP in dimethyl formamide

§ Requires sampling large gas volumes ~500–1000 litres

§ Sampling times typically 8 hours at 2 L/min

Page 31: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Mass Spectrum TPPS

§ Selective ion monitoring of 294+ ion

§ Sensitive

§ Part per billion (solution)

§ 10-7–10-8 mol% (gas)

31

Page 32: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Mitigation of Elemental Sulfur Deposition

§ GasVLe

§ Models phase equilibria in natural gas

§ Study pressure reduction in gas regulators

§ Risk assessment of assets

32

Page 33: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

Conclusion

§ Elemental sulfur deposition – problem for some gas assets

§ Analytical method for elemental sulfur – very low concentrations in natural gas

§ Solution to the problem experienced by gas assets using solubility curves and an understanding of Joule-Thomson effect. Installation of pre-heaters.

33

Page 34: Impact of Elemental Sulfur in Natural Gas ·  email gasvle.oilandgas@dnvgl.com 1E-08

DNV GL ©

SAFER, SMARTER, GREENER

www.dnvgl.com

Copyright © DNV GL 2015. All rights reserved. This Report is protected by copyright and may not be reproduced in whole or in part by any means without the approval in writing of DNV GL. No Person, other than the Customer for whom it has been prepared, may place reliance on its contents and no duty of care is assumed by DNV GL toward any Person other than the Customer. This Report must be read in its entirety and is subject to any assumptions and qualifications expressed therein. Elements of this Report contain detailed technical data which is intended for analysis only by persons possessing requisite expertise in its subject matter. DNV GL and the Horizon Graphic are trademarks of DNV GL AS.

34

Derek Robson [email protected]

+44 1509 283299