2. Statoil Bjørn Kåre Viken

Projects and technology in Statoil

Bjørn Kåre Viken, Senior Vice President

Our business areas

Exploration & Production

Norway

International Exploration

& Production

Natural Gas Technology &

New Energy

Projects & Procurement Manufacturing &

Marketing

Marine technology and operations

Bjørn Kåre Viken

Platform technologyand Marine surveys

Ingrid Sølvberg

Material technology

Per-Arne Røstadsand

Pipeline and transport technology

Birgit Søvik Opheim

Subsea technology and operations

Ove Magne Kallestad

Presentation overview

• Statoil 2011

• Projects look ahead

• Technology development in Statoil

• Example of materials technology developments in Statoil

4

Statoil 2011

| Statoil 2011 | The Change

Combined TNE, PRO and Drilling & Well

1

2

3 North America - separate Business Area

Business Areas for Global Strategy and Business

Development and for Exploration

Globalisation

Simplification

Renewal

Focused EPN

Combined NG, M&M and New Energy

| Statoil 2011 | The new OrganisationCEO

Stavanger Oslo Houston Stavanger Oslo London

StavangerStavanger

Development

and

Production

Norway

Development

and

Production

International

Development

and

Production

North America

Marketing,

Processing and

Renewable

Energy

Exploration

Global

Strategy and

Business

Development

Stavanger

Technology,

Projects

and

Drilling

CFO CSO

Torgrim

Reitan

Tove Stuhr

Sjøblom

Øystein

Michelsen

Peter

Mellbye

Bill

Maloney

Eldar

Sætre

Margareth

Øvrum

Tim

Dodson

John

Knight

Action needed to maintain production levels

The Challenge

• Oil & Gas – a matured industry on

the NCS

• Change in type of coming projects

• More cost aggressive project

developments

• Adaptive and competitive supplier

industry

• High quality throughout project

development is essential

Looking Ahead

• New field development

• Subsea

• Modifications

• Offshore wind

• Pipelines

• Onshore facilities

• Rig upgrade

• Cessation projects

• Other

Priorities

• Improve quality

• Drive cost reductions

• Delivering NCS projects to maintain current

production levels

• Promote a competitive supplier industry

• International competitive bidding

Bolts – substandard quality

Heat treatment crucial for quality in steel

components

Priorities

• Improve quality

• Drive cost reductions

• Delivering NCS projects to maintain current

production levels

• Promote a competitive supplier industry

• International competitive bidding

Many small subsea tie-backs

- business challenges and opportunities

Fast Track fields: from customisation to

standardisation

Need for industrialised field

development processes for profitable

development of marginal fields

Standard catalogue for field developments

Standard Sub Sea components

• Templates

• X-mas trees

• Control systems

• Material selection

Lowering field development costs -

Carbon steel pipelines

Pipeline material alternatives:

• Carbon steel for low corrosivity fields

• Stainless steel for high corrosivity

or high temperature fields

• Statoil is aiming to extend the

application limits of carbon steel to

keep development costs down.

Vega Pipeline Costs (A-estimate)

100

184

125

0

25

50

75

100

125

150

175

200

Co

sts

re

lative

to

ca

rbo

n s

tee

l (%

)

Carbon steel Super13Cr Carbon steel with 316 lining

Longer – Deeper – ColderTechnology for the future

De

ep

er

Focus area Technology elements Projects

Lo

ng

er

Co

lde

r

En

vir

on

.

Ormen Lange field

development,

Luva, Tucker, Jack, St

Malo, Julia, (Gro,

Dalsnuten)

Ormen Lange field

development, Snøhvit,

Canada

Goliat, Alaska,

Shtokman / Arctic

Ormen Lange field

development, Snøhvit,

Tyrihans,

Luva, Shtokman / Arctic

• Gas processing and LNG

• Long range m’phase flow, pipeline infrastructure & transport regularity

• Subsea processing – boosting, separation and compression

• Remote / long distance power systems and all electric systems

• Exploration imaging and interpretation

• Deep marine reservoir characterisation, modelling and production

• Cost effective drilling & completion / balanced pressure drilling

• New development solutions, incl. DH* pumping & subsea processing

• Environmental management

• Ice loads, operations in ice and cold climate

• Long-range multiphase transport

• Petroleum system analysis

* DH = downhole

Co

lde

r

Pro

ce

ss

Grane, Norne &

Tyrihans DEH

Canadian Oil Sand,

Venezuela, Peregrino,

Mariner/Bressay

• Long range multiphase transport, cold flow

• Production, processing and transportation

• Recovery methods

• Environmental footprint and energy efficiency

2030

Tyrihans

Raw seawater

injection

Troll/Åsgard

DC / FO control

system pilot

Gullfaks

Subsea

compression

Gulf of Mexico

Boosting and

compact separation

MMX/SBB

Pilot / All electric field

development

Brazil

Deepwater heavy

oil separation

Astero

Gas/liq

separation

2010

Arctic

Subsea factory

under ice

Subsea technology – enabler for growth

Åsgard

Subsea

compression

Examples of opportunities /

alternative field development options

being investigated by Statoil

Luva

Long distance power,

compression & transport

Arctic MaterialsSafe and cost effective solutions for low temperature applications

Polymers

Anti-icing

coatingsSteels

Composites

ARCTIC MATERIALS – FOCUS AREAS

• Steel fabrication and mechanical characterisation - down to -60°C

− Efficient welding technologies, e.g hybrid laser welding

− Define criteria for low temperature application for steel and weldments including safety factors (design temperatures)

• Strength and toughness criteria for safe materials utilisation

− Geometry effects brittle fracture

− Brittle fracture inhomogeneous materials

− Large deformation fracture

• Polymer coatings – large temp. variations

− Coatings for thermal insulation

− Coatings for corrosion protection

• New concepts and materials solutions

− Composites and hybrid joints

− Ligth weigth structures

Qualification of thermal insulation for deep

waters

Objective: to enable cost effective and safe flow ensurance for deep water developments.

• Wet insulation systems are enabling technology for deep water developments

− Wax and gas hydrate control

• Insulation materials must be fully qualified before installation

− Manifolds

− Wellhead equipment

− Pipelines

• Focus areas

− Material aging

− Thermal performance

• Long term simulated service tests (full scale autoclave test up to 300 bar.)

Thermal insulation for deep waters– focus

areas

Presentation title

Presenters name

Presenters title

E-mail address, tel: +00 00 00 00

www.statoil.com

Thank you