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1. 1 Access to Energy, Gas Flaring Reduction,
and Domestic Market Development
Presentation by Jacob Broekhuijsen, World Bank
Africa Oil & Gas Forum, Houston, November 29-31, 2004
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4. 4 Key Assumptions, Uncertainties, Reference Scenario vs. Alternative Policy Issues
Primary & Final Energy Demand, CO2 Emissions by Fuel/Region
Oil, Coal, Gas, Power Gen, etc.
Key Assumptions, Uncertainties, Reference Scenario vs. Alternative Policy Issues
Primary & Final Energy Demand, CO2 Emissions by Fuel/Region
Oil, Coal, Gas, Power Gen, etc.
7. 7 Energy and Poverty - Traditional Biomass Use Today, 2.4 billion people in developing countries rely heavily on traditional biomass for cooking and heating
The use of biomass in traditional and inefficient ways have significant implications:
Productivity
Health
Gender
Environment
By 2030, in the absence of radical new policies, over 2.6 billion people in developing countries will continue to rely on biomass (less and less available)
8. 8 Energy Poverty In the absence of radical new policies, energy poverty will still be a major issue in the next decades
Creating conditions to attract investment is the main challenge. Domestic Market reforms are vital
Investment requirements for power generation in developing countries amount to US$ 2.1 trillion for the next 30 years
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11. 11 Background of Global Flaring Global venting and flaring level over 100 bcm/year, similar to:
Total world gas consumption for half a month
>10 percent of committed emission reductions by developed countries under the Kyoto Protocol for the period 2008-2012
Flaring in Africa alone could produce 200 TWh of electricity
~ 50% of current power consumption of the African continent
more than twice the level of power consumption in Sub-Saharan Africa (excluding South Africa)
Global level has stayed constant for the last 20 years
80% of global venting and flaring occurs in fewer than 15 countries (reliability of available data varies widely) · Flaring in Africa (37 bcm in 2000) could, if used for power generation in efficient power plants, produce 200 TWh, which is approximately 50 percent of the current power consumption of the African continent,
and more than twice the level of power consumption in sub-Saharan Africa (excluding the Republic of South Africa).
· Flaring in Africa (37 bcm in 2000) could, if used for power generation in efficient power plants, produce 200 TWh, which is approximately 50 percent of the current power consumption of the African continent,
and more than twice the level of power consumption in sub-Saharan Africa (excluding the Republic of South Africa).
12. 12 Why still over 100 BCM / Year ? Individual governments and companies have had successes in reducing flared gas, and significant investments in reduction projects are continuing.
However, two key factors limit the global impact of these efforts:
Global oil production increase leads to associated gas production increase, offsetting efforts to reduce gas flaring
Development of gas markets, gas infrastructure, and flaring reduction projects often requires collaborative rather than individual action
13. 13 Typical barriers to gas sector development Underdeveloped domestic market for gas and gas products (LPG, CNG, fuel methanol, power etc)
Absence of / limited gas policies
Limited institutional, legal and regulatory framework for gas, including associated gas
Gas terms (or absence thereof) in existing oil development agreements
Fiscal system
Domestic gas and gas product pricing
Infrastructure constraints and access
Funding constraints And the main barriers for gas development:
Until now there has been no formal gas policy,
And an industry structure and institutional framework in which the Gov as both gas sector regulator and commercial participant represents a major conflict of interest.
No downstream gas legal framework
Absence of clear commercial terms for the development of gas discovered within Nigerian PSC concession areas has hindered gas development
Unsustainable fiscal framework
consolidation of capital expenditure which constitutes a barrier to investment by most non – oil investors
Government’s share of available rent is disproportionately low for economically sound projects
gas development in Nigeria is currently being funded out of Government’s share of economic rent from oil projects
Low domestic gas prices
Domestic pipeline systems not integrated and regulation of access unsophisticated
Need for private investments
And the main barriers for gas development:
Until now there has been no formal gas policy,
And an industry structure and institutional framework in which the Gov as both gas sector regulator and commercial participant represents a major conflict of interest.
No downstream gas legal framework
Absence of clear commercial terms for the development of gas discovered within Nigerian PSC concession areas has hindered gas development
Unsustainable fiscal framework
consolidation of capital expenditure which constitutes a barrier to investment by most non – oil investors
Government’s share of available rent is disproportionately low for economically sound projects
gas development in Nigeria is currently being funded out of Government’s share of economic rent from oil projects
Low domestic gas prices
Domestic pipeline systems not integrated and regulation of access unsophisticated
Need for private investments
14. 14 Collaborative Action: GGFR Started as an Initiative with Norwegian Government and World Bank in 2001
GGFR Public-Private Partnership was formed at the World Summit on Sustainable Development in Johannesburg in August 2002
GGFR includes governments from oil-producing countries, state-owned and international oil companies, OPEC, and the World Bank Group, together accounting for over 70% of global flaring
Objective is to support national governments and the petroleum industry in their efforts to reduce the flaring and venting of gas associated with the extraction of crude oil
Still open for new members: governments, national oil companies, international oil companies, industry organizations, etc. Algeria, Angola, Cameroon, Chad, and Nigeria, which represent the core Global Gas Flaring Reduction Partnership work program. These countries cover approx 26 % of the world’s gas flaring.
· Equatorial Guinea, Indonesia, Russia (Khanty-Mansyisk) that represent recently joined countries and are working with the team to develop and implement a functioning and sustainable flare reduction work program. They cover approximately 18% of the world’s total flaring.
New countries (e.g., Middle East, Venezuela, Mexico, Trinidad and Tobago, Kazakhstan, Azerbaijan etc.) need to be engaged to either join the GGFR or at least to adopt the global standard to deliver additional impact in flare reduction). These would cover approximately an additional 30% of total world flaring. Algeria, Angola, Cameroon, Chad, and Nigeria, which represent the core Global Gas Flaring Reduction Partnership work program. These countries cover approx 26 % of the world’s gas flaring.
· Equatorial Guinea, Indonesia, Russia (Khanty-Mansyisk) that represent recently joined countries and are working with the team to develop and implement a functioning and sustainable flare reduction work program. They cover approximately 18% of the world’s total flaring.
New countries (e.g., Middle East, Venezuela, Mexico, Trinidad and Tobago, Kazakhstan, Azerbaijan etc.) need to be engaged to either join the GGFR or at least to adopt the global standard to deliver additional impact in flare reduction). These would cover approximately an additional 30% of total world flaring.
15. 15 Current GGFR Public and Private Partners Countries/NOCs IOCs
Algeria (Sonatrach) BP
Angola ChevronTexaco
Cameroon (SNH) ENI
Chad ExxonMobil
Ecuador Norsk Hydro
Equatorial Guinea Shell
Indonesia Statoil
Khanty Mansiisk (Russia) Total
Nigeria
Donors Multilateral Organizations
Canada The World Bank
Norway OPEC
UK (Foreign Commonwealth Office)
USA NGOs
Sahel
16. 16 GGFR Work Program Help each other in associated gas utilization and further reduction of local and global flaring through best practice identification, development & exchange in:
Commercialization
Consultations to identify and address associated gas utilization barriers
Remote fields solutions
Small scale gas use
Regulations for (associated) gas sector development
Identification and dissemination of regulatory best practice
Contractual issues surrounding associated gas
Global Gas Flaring Standards
Common flaring standards and guidelines, including measurement and reporting
Carbon Credits
Capacity building including methodology for flaring projects
Representative projects assistance with crediting process Global deliverables
We completed work in the 4 areas:
Brought reports: on
Regulation,
Small scale gas use: (Commercialization)
Standard (later)
Finalizing a 2nd report on carbon credits (Baseline Meth)
Global deliverables
We completed work in the 4 areas:
Brought reports: on
Regulation,
Small scale gas use: (Commercialization)
Standard (later)
Finalizing a 2nd report on carbon credits (Baseline Meth)
17. 17 Global Gas Flaring and Venting Reduction Voluntary Standard GGFR announced the Global Gas Venting and Flaring Reduction Voluntary Standard at the 2nd International Gas Flaring Reduction Conference in Algeria in May 2004, which:
Provides framework for governments, companies, and other key stakeholders to consult each other and take complementary and supportive action;
Encourages integrated approach including market and infrastructure development, commercialization, legal and fiscal regulations, carbon credits;
Aims to achieve global applicability and impact by allowing for flexibility to local conditions and balancing ambitious timescale with realistic constraints.
Collaborative action of stakeholders will help reduce barriers to associated gas utilization in a country
Implementation of the Standard aims to reduce venting and flaring significantly within 5 to 10 years
18. 18 Key Concepts of the Standard Voluntary and performance based rather than prescriptive
Initial Goal with focus on large sources that can make a significant difference early
Collaborative action and implementation planning through
Identification and consultation of key stakeholders;
Potential expansion of “flare reduction project boundaries” to include other fields / operations / infrastructure / customers in region for consultation;
Consideration of range of options to enhance the feasibility of associated gas utilization (“tool box”);
Producer driven Associated Gas Recovery Plans and Government driven Country Implementation Plan.
Ultimate Goal for longer term continuous improvement
Measurement of remaining flaring and venting, and public reporting
Recommended Timeline for consultation, planning and implementation The standard is framed as:
Voluntary
Performance based rather than prescriptive
Relies on Partner integration into existing policies, processes and systems
Aims to achieve global applicability and impact
Key Elements
Initial Goal with focus on large sources that can make significant difference early
Ultimate Goal for longer term continuous improvement, beyond the Initial Goal
Planning process introduced through development of:
Associated Gas Recovery Plan for producers
Country Implementation Plan for governments
Recommended Timeline for adoption and implementation
Monitoring and Transparency – measurement, reporting, and verification guidelines
Implementation and Administration – roles and responsibilities of each key party for the implementation and ongoing administration of the standard
The standard is framed as:
Voluntary
Performance based rather than prescriptive
Relies on Partner integration into existing policies, processes and systems
Aims to achieve global applicability and impact
Key Elements
Initial Goal with focus on large sources that can make significant difference early
Ultimate Goal for longer term continuous improvement, beyond the Initial Goal
Planning process introduced through development of:
Associated Gas Recovery Plan for producers
Country Implementation Plan for governments
Recommended Timeline for adoption and implementation
Monitoring and Transparency – measurement, reporting, and verification guidelines
Implementation and Administration – roles and responsibilities of each key party for the implementation and ongoing administration of the standard
19. 19 International Best Practice: A collaborative approach to gas flaring reduction - Alberta
20. 20 Alberta - Results Evaluation of each flaring site
Decision tree works well
Economic flare gas utilization identified
Industry reduction targets
38% reduction - year-end 2000 (Target 15%)
53% reduction - year-end 2001 (Target 25%)
62% reduction - year-end 2002 (Target 50%)
70% reduction - year-end 2003 (No target est.)
Clear objective for flare reduction actions
Improved public confidence in process Requiring operators to evaluate the economic feasibility of conserving gas (not flaring) can identify situations where it is possible to conserve
The economic evaluation should be based on a standard calculation to avoid inappropriate inputs
In Alberta, this has been a major factor in improving conservation of associated gas that was being flared
See Guide 60, Section 2
Requiring operators to evaluate the economic feasibility of conserving gas (not flaring) can identify situations where it is possible to conserve
The economic evaluation should be based on a standard calculation to avoid inappropriate inputs
In Alberta, this has been a major factor in improving conservation of associated gas that was being flared
See Guide 60, Section 2
