The High Temperature In Mode In Intensive Reservoir A Case ... ISC After Steam_2016.pdf · High temperature in‐situ combustion mode features high Temperature of Combustion front

The Characteristics of High Temperature In‐situ Combustion Mode In Intensive Heterogeneous Reservoir ‐ A Case Study 

in Block HQ of Xinjiang Oilfield

Organized by:

Xi, ChangfengPIRED, CNPC

WHOC16-[140]

Contents

1 Background

2 The Characteristics Of High Temperature In-situ

Combustion Mode

3 The Facilitating Key Factors Of High Temperature

In-situ Combustion Mode

4 Conclusion

1 Background

Burnt zone

Burning zone

Coke zone

Steam zone

Oil bank

Residual oil zone

The reservoir is ignited by igniter in the injector, the air is continuously injectedto reservoir and combustion front moves towards the producer. The oil is driven into the producer by a combination of gas drive, steamflooding, hot water flooding and high temperature distilling, cracking mechanisms.

Injection wellProduction well

• Process of ISC

1 Background

Projects Started Time Introduction

D-66, Liaohe

Oilfield

Jun.2005 Steam injected heavy oil reservoir ;200 nine-spot patterns and 600

producers ; oil rate 5000 bbl/d .

G-3618, Liaohe

Oilfield,

May.2008 Steam injected heavy oil reservoir with depth of 1500m;14 injectors,

92producers; oil rate 1306 bbl/d.

H-1 Pilot, Xinjiang

Oilfield

Dec.2009 Heavy oil reservoir after steam stimulation and steamflood; 7 injectors and

49 producers , oil rate 251 bbl/d.

Fengcheng Pilot,Xinjiang Oilfield Sept.2014 Initial heavy oil reservior, 4 injectors and 4 horizontal wells, 300bbl/d

Total Oil rate 6557bbl/d

Currently active ISC projects in China

• Application in China

1 Background

Depth 1805ft

Thickness of pay zone 26.9ft

Initial pressure and

temperature929psi; 68F

Average porosity 25.4 %

Average horizontal

permeability 582 mD

Dead oil viscosity at 122F 500～1200 cp

Initial oil saturation 67 %

Reservoir Characteristics

•H-1 ISC Pilot Test

1 Background

MODE Well numberSteam injection

（MMbbl）

Oil production

（MMbbl）Water cut SOR ER

CSS 141 6.76 2.40 80.5% 2.85 26.5%

SD 53 1.45 0.22 89% 6.67 2.4%

Development history

•H-1 ISC Pilot Test

1 Background

Development history

•H-1 ISC Pilot Test1 Background

Steam injection vertical profile Production vertical profile

Water cut: 99%-65%AOR: 57,000-11,400 scf/bblNO combustion front breakthroughCumulative oil of ISC is already near to that of steam injectionRF: 26%

•H-1 ISC Pilot Test

1 Background

There are same characteristics for single well.

•H-1 ISC Pilot Test

1 Background

2 The Characteristics Of High Temperature In-situ

Combustion Mode

hH008

hH011

hH012

hH013

hH009

hH010

hH007

12

High Temperature of Combustion front

0

100

200

300

400

500

600

700

2010/8/10 2010/9/29 2010/11/18 2011/1/7 2011/2/26 2011/4/17 2011/6/6 2011/7/26

T，℃

date 

538m

541m

543m

The temperature of combustion front is more than 930F.

CO2 content distribution（201403 ）

CO2 content: 15%H/C Ratio: 1.4

High CO2 content and low H/C Ratio

Limited(CnH2n+2) H/C is =2.0;The cracked heavy oil components were burned.

14

Produced oil before ISC

Produced oil of ISC

Upgrade in oil composition

well Sample  Saturate /%  Aromatic /% Resin & 

Asphaltene/% Vis，cp

h2107A 2009/3/10 45.43 24.51 30.06 11000

2010/2/10 55.47 18.42 26.11 1041

15

Higher sweep oil efficiency and vertical sweep efficiecy

Drilling core after in-situ combustion

Oil displacement efficiency：>95%Combustion vertical sweep efficiecy : >95%

Drilling core before in-situ combustion

combustion front@2010.04

combustion front@2011.08

combustion front@2012.09 combustion front@2013.09

7 well groups combustion front@2013.10

Higher sweep oil efficiency and vertical sweep efficiecy

3 The Facilitating Key Factors Of High Temperature

In-situ Combustion Mode

Coal fuel combustion conditions

qⅠ

qⅡ

A

B

T

q

TiTe Tb

M

Tm

Diffusion combustion (high temperature

combusiotn)

Dynamic combusiton

Low temperature oxidation

Te ：environment （68~248F）Ti ：ignition （590~698F）Tb：combustion front（>752F）Tm：cut off temperature（716~752F）

Evaluating of combustion conditions

Keep high temperature of igniter

When temperature is more than 470 (870F), H1 oil sample can be ignited by a high temperature mode.

Keep a reasonable air flux

Temperature profile Air flux:10m3/(m2.h)

Temperature profile Air flux:30m3/(m2.h)

Keep a reasonable air flux

H1 project air flux

Temperature field by simulation Air flux:0.15m3/(m2.h)

Temperature field by simulation Air flux:0.05m3/(m2.h)

Reasonable air flux：0.15-0.3 m3/ (m2.h)Minimum air flux：0.05 m3/ (m2.h)

2477

129182234287340392445497550

4 Conclusion

Conclusion

Good production performance is gained in post‐steam  heavy reservoir. 

High temperature in‐situ combustion mode features high Temperature  

of Combustion front , high CO2 content and low H/C Ratio, upgrade  oil 

composition, high sweep oil efficiency and high recovery factor.

Keep a higher igniter temperature and reasonable air flux can facilitate 

a high temperate in‐situ combustion. 

Acknowledgment

• Collaborators – Professor Guan Wenlong, Master Wangting and Doctor

Tang Junshi, Senior Geologist Wu Jiang

• Staff in H1 Block ISC Pilot Test in Xinjiang Oilfield Company, PetroChina

Thank you/Questions