Assessing Nigeria’s Preparedness for Large Scale Deployment of Embedded Renewable Energy...
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Transcript of Assessing Nigeria’s Preparedness for Large Scale Deployment of Embedded Renewable Energy...
Dr Akinwale Aboyade
Energy Specialist: Uni
versity of Johannesbu
rg
Technical Director: Pro
tergia Nigeria Limited
!Azuka Ogu
ndeji
Legal Director: Proter
gia Nigeria Limited
!Mollagee Mansoor
Director: University o
f Johannesburg
Assessing Nigeria’s Pre
paredness for
Large Scale Deployment of
Embedded Renewable E
nergy
GeneraJon
Outline
•Background •What is embedded generaJon (EG)? • Issues in EG •Requirements for successful EG regime •Renewable Energy as EG opJon for Nigeria •RecommendaJons going forward
Background: Conventional grid system
Source: en.wikipedia.org
What is EG• EG is generation embedded
within a distribution network
• EG also called:
Distributed generation
Decentralised generation
• EG is not a new phenomenon. It preceded centralised systems
Transmission grid
Distribution grid
Utility scale generators
EG (consumers)
EG (dedicated)
Why EG?• Reduced need for large-scale generators
• EGs not necessarily more expensive (scale economy, less permits required)
• EGs are quicker to deploy
• Reduced need for transmission infrastructure
• Reduced transmission losses
• Increased system reliability/resilience
• Supply and demand matching
• Reduced need for peaking plants
• Customisable and more efficient
• Increased local economic development (SME involvement)
Options for EGIncludes many of same technology options for utility scale
• Conventional technologies • Primary fossils (Gas/Oil/Coal) • Diesel • Hydro
• New Alternatives • Solar • Wind • Biomass • CHP • Co-generation • Tri-generation
Source: cleanenergytransmission.org
More about RE…
• RE is better suited to EG for some key reasons:
• scalability
• location flexibility
• environmentally sustainable
• RE technologies are now established and reliable
Source: www.fermeng.ie
Components of successful EG regime
EG success
InfrastructureGenerator type
Market/pricingStandards/codes
IncentivesNet metering
Smart grids
Case for EG in Nigeria• Reduced need for large-scale generators
• Reduced need for transmission infrastructure
• Reduced transmission losses
• Increased system reliability/resilience
• Supply and demand matching
• Reduced need for peaking plants
• Customisable and more efficient
• Increased local economic development (SME involvement)
EG Status: Nigeria
• 20 GW from private generators of back-up power, most not grid tied
• EG not a success by any means
• It is however now receiving attention under the new power sector reforms
EG regulations in Nigeria• Regulations for Embedded
Generation 2012
• Regulations for Captive generations 2012
• New regulations for procurement of generation capacity 2014 (exemptions for <10MW)
• Distribution Code v01
RE Development in Nigeria
• Implementation status
• Market interest
• Regulations
• Policy support
Targets (MW)
Short Term (2005-2007)
Medium Term (2008-2015)
Long Term (2016-2025)
Hydro (large) 1930 5930 48,000Hydro (small) 100 734 19,000
Solar PV 5 120 500Solar Thermal 1 5
Biomass 100 800Wind 1 20 40
All 2,036 6,905 68,345
RE Potential: Solar
Main challenges
• Targeted policy support
• To RE industry
• To market structure
• Infrastructure
Way forward• Stakeholder consultation
• Resource assessment
• Grid capacity assessment
• Market studies
• Awareness raising
• Skills transfer
Thank you!