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ZERO DISCHARGE Opportunities and Challenges

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Title: ZERO DISCHARGE Opportunities and Challenges


1
ZERO DISCHARGE Opportunities and Challenges
  • Presented by Mr. Stig Svalheim
  • FORCE Seminar
  • Stavanger, 22nd April 2004

2
Overview
  • NPD-focus Balance the need to reduce discharges
    with possible impacts on reserves, safety and
    costs
  • Background and status implementation
  • Environmental Impact Factor (EIF)
  • Produced water trends and zero discharge measures
  • Challenges and way forward
  • Conclusions

3
The Zero Discharge Policy
  • Defined by the Parliament in accordance with the
    precautionary principle
  • Applies already for new stand-alone developments
    and by the end of 2005 for existing installations
  • Policy covers production, drilling and pipelines
  • Stricter interpretation will be applied for the
    vulnerable Lofoten and Barents sea areas.

4
International obligations (OSPAR)
  • Current requirement max 40 mg/l OiW
  • New agreed recommendation
  • Max 30 mg/l OiW
  • 15 total oil discharge reduction from 2000 to
    2006
  • Targets within reach if the operators zero
    discharge plans are implemented, but a challenge
    beyond 2006 as water production increases (ref.
    SFT)

5
The Zero Discharge Target - North Sea and
Norwegian Sea areas
  • No discharges of hazardous chemicals (SFTs black
    and red categories)
  • No discharges or minimising discharges of
    naturally-occurring environmental toxins
  • No or minimised discharges of substances which
    could lead to environmental harm
  • Oil (dispersed and dissolved)
  • Chemicals in the SFTs yellow and green
    categories
  • Other substances which could lead to
    environmental harm (e.g. drill cutting)
  • Exception Crucial safety or technical reasons

6
Status Implementation
  • 1996 Zero Discharge Goal launched
  • 1998 Zero Discharge Work Group formed
  • 2000 Mandatory operator strategy reporting
  • 2003 Mandatory status reporting on progress and
    plans to reach the 2005-target
  • SFT-feedback, Dec 2003
  • In general, pleased with the operators progress
    and plans (80 reduction of environmental
    harmful substances on most fields)
  • Total reduction of 42 of PAH and alkyl-phenol
    from 2000-2006
  • Continuing challenge beyond the 2005 milestone as
    water production is predicted to increase
  • Updated status reporting and committing plans
    during 2004

7
EIF a new tool for setting priorities
  • EIF calculates the risk of environmental harm
    from produced water (PW) discharges on a field
  • Modelling includes composition and quantity of PW
    and how the discharge disperses in the sea
  • Management tool applied by both operators and
    authorities development spearheaded by Statoil

8
Source Statoil
9
Produced Water Trend on the NCS
Source RNB2004
10
Produced Water Management
Reuse
Reduction
Deposit
Treatment
  • - Water shut-off
  • - Downhole separation
  • - Subsea separation
  • - Smart wells etc.
  • - PWRI for pressure maintenance
  • - Produced water injection in deposit reservoir
  • - C-Tour
  • - EPCON
  • - MPPE
  • - Improved deoiling separation
  • - Other methods

11
Already Implemented Measures
  • Chemical substitution
  • PWRI
  • Brage (Norsk Hydro)
  • Balder (ExxonMobil)
  • Frigg (Total)
  • Glitne (Statoil)
  • Grane (Norsk Hydro)
  • Heidrun (Statoil)
  • Heimdal (Norsk Hydro)
  • Jotun (ExxonMobil)
  • Oseberg East (Norsk Hydro)
  • Oseberg South (Norsk Hydro)
  • Ringhorne (ExxonMobil)
  • Snorre B (Norsk Hydro)
  • Statfjord C (Statoil)
  • Ula (BP)
  • Valhall (BP)
  • Visund (Statoil)

?
12
EIF-Trends on Major Fields
13
Each bar represent one specific measure on a
platform
14
Challenges
  • Analysis based on the operators status reports
    uncertainty in reporting of costs and effects
  • Key decisions not yet approved in the licenses
  • Field specific solutions requires sufficient time
    for evaluations and testing
  • Several new technologies and techniques to be
    installed how will they work in the long run?
  • Low focus on methods to reduce water production
    in the operators status reports
  • Long-term risk of reduced injectivity and/or
    reservoir souring from PWRI

15
PWRI and Risk of Bacteria Growth
  • PWRI adds nutrients and sulphate from earlier
    sea water injection ? increased population of
    sulphate reducing bacteria possible
  • Reservoir souring (H2S)
  • Reduced injectivity
  • Corrosion
  • Workforce health risk
  • ? Potential challenge for the entire upstream
    value chain (HSE - Resource Management)

16
Conclusions
  • Avoiding potential harmful discharges to sea to
    operate sustainable and gain acceptance to
    operate
  • Technologies are developed to meet the zero
    discharge goal, but cost-effective investment
    decisions need to be made
  • Focus on minimising/avoiding the water production
    should not be forgotten!
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