Scope of Presentation
1. Demand Scenarios for Liberia’s interconnected grid.
2. Production of St Paul hydro plants with and without the Via Reservoir
3. Economic analysis: Is the Via Reservoir an attractive supply option for Liberia?
4. Financial analysis: Tariffs of the Via Reservoir and St Paul hydro plants
Demand Scenarios
Options 2 : WB, Monrovia Electrical Grid + Non-Monrovia Industrial Potential On-Grid
Monthly Demand Pattern in 2012
Source: LEC, Energy sold
Average Production Potential of Mt Coffee
Installed capacity: 80 MW
Average Production Potential of Mt Coffee
Installed capacity: 120 MW
Average Production Potential of SP-1B
At maximum installed capacity of 120 MW
Average Production Potential of SP-2
At maximum installed capacity of 214 MW
Estimation of production injected into grid
1. Monthly model 2. Minimum of 10% of demand satisfied by thermal
plants 3. Remaining demand: Served to extent possible by Mt
Coffee. Start of production in 2016. 4. When Mt Coffee cannot satisfy the remaining
demand: SP-1B injects into the grid. Start of injection and installed capacity depend on Demand Scenario.
5. When Mt Coffee and SP-1B cannot satisfy the remaining demand: SP-2 injects into the grid. Start of injection and installed capacity depend on Demand Scenario.
Estimation of production injected into grid
Example: Low Demand Scenario, Mt Coffee 120 MW, without Via Reservoir (80 MW until 2023, 120 MW from 2024)
Estimation of production injected into grid
Example: Low Demand Scenario 2023 without Via Reservoir
Estimation of production injected into grid
Example: Low Demand Scenario, Mt Coffee 120 MW, with Via Reservoir (80 MW until 2023, 120 MW from 2024)
Estimation of production injected into grid
Example: Low Demand Scenario, with Via. Mt Coffee: 80 MW until 2023, 120 MW from 2024. SP-1B: 60 MW from 2032, 120 MW from 2040.
Estimation of production injected into grid
Example: Low Demand Scenario, with Via. Mt Coffee: 80 MW until 2023, 120 MW from 2024. SP-1B: 60 MW from 2032, 120 MW from 2040. SP-2: 60 MW from 2045 onward.
Estimation of production injected into grid
Example: High Demand Scenario, with Via. Mt Coffee: 80 MW until 2023, 120 MW from 2024. SP-1B: 60 MW from 2028, 120 MW from 2034. SP-2: 107 MW from 2039, 214 MW from 2045.
Hydropower Production – Some Results
• Optimal sequencing of installed hydro capacity on St Paul River remains to be determined. (Results of economic and financial analyses depend significantly on when and how much hydro capacity will be available on St Paul River.)
• The Via Reservoir will significantly increase hydropower production during the dry season, thereby reducing the (costly) generation of thermal plants.
Hydropower Production – Some Results
•Hydro expansion plan which focuses on meeting the demand in Liberia will not provide a marketable export potential unless a WAPP Spot Market exists.
• Hydro plant dedicated to exports will be needed for exports.
Economic Analysis - Method
• The levelized economic costs (US$/kWh) of the system consisting of the Via Reservoir and hydro plants on the St Paul River have been calculated.
• 2013 prices, discount rate 10%, horizon 2050.
• Costs: Investment and O&M costs of Via Reservoir, SP-1B and SP-2. Mt Coffee: only costs of expansion of Mt Coffee plant
• Benefits: kWh injected by the hydro plants. In the case of the 80-MW Mt Coffee plant, the injected kWh are the difference between the injected kWh with and without Via
Economic Analysis - Assumptions
Investment cost
a) Via Reservoir: 365 million US$; period 2014 – 2022. Cost include preparatory costs and environmental cost (resettlement, mitigation) b) Mt Coffee expansion: 40 MW at 2,625 US$/kW; installation in 2022 – 2023 in some scenarios c) SP-1B, SP-2: unit cost 3,150 US$/kW. Costs of first installation spread over four years; second installation over two years.
Economic Analysis - Results
In the High Demand Scenario, the levelized economic costs are estimated to be in the order of 9.0 – 14.0 US cents/kWh with the range of
10 -12 US cents/kWh considered as the most likely. Costs would be above 20.0 US cents/kWh if Mt Coffee’s 80-MW plant were Via’s only ”customer”. (Above 17.0 if 120-MW from 2024 onward).
Economic Analysis - Conclusions
How do 10 -12 US cents/kWh compare with levelized costs of alternatives?
Diesel generators Much higher levelized costs (≥ 15 cents/kWh)
Large thermal plants Fichtner calculates in the least-cost plan with 10.1 US cents/kWh for coal-fired plants (50-MW units). The costs do not account for infrastructure facilities needed for the use of coal (landing terminal) and neither for the costs of greenhouse gas emissions.
WAPP The World Bank’s Options Study mentions 11 US cents/kWh as lowest value for imports.
Economic Analysis - Results
In the Low Demand Scenario, the levelized costs are estimated to be in the order of 12.0 – 18.0 US cents/kWh with the range of
13 -15 US cents/kWh as the most likely. Costs would be above 22.0 US cents/kWh if Mt Coffee’s 80-MW plant were Via’s only ”customer”. (Above 20.0 if 120-MW from 2024 onward).
Economic Analysis - Results
The Low Demand Scenario offers one possibility to reduce the levelized costs: the construction of a hydro plant dedicated to exports.
Example: If 107-MW of SP-2 capacity is built and starts exporting from 2030 onward, levelized costs would decline to
11.5 – 12.0 US cents/kWh (full potential exported). If 214 MW is installed for exports, the range would be 10.0 – 11.0 US cents/kWh.
Financial Analysis - Method
Calculation of tariffs
The Via Reservoir is assumed to be paid by the hydro plants on the St Paul River per kWh which the plants generate.
The hydro plants’ generation tariff calculation takes into account the payments made to Via.
The determined tariffs of the Via Reservoir and the hydro plants produce an average return on gross assets of about 5% or 3% (average from start of operation until 2050).
Financial Analysis - Assumptions
Financing conditions
Via Reservoir Preparatory costs: not considered (2% of total) Environ. cost (RAP, other): GoL from budget (≈ 24 mio US$) Invest. cost: Grants (≈ 222 mio US$), loans (≈ 112 mio US$)
Loan conditions • 3% interest rate, IDC capitalized, • grace period such that repayments start 2022 or 2023, • repayment period 15 years
Financing conditions very favorable. Probably no need for injection of funds during operation period at tariffs indicated hereafter.
Financial Analysis - Assumptions
Financing conditions
Mt Coffee (80-MW, 210 million US$) • Grants from Norway and Germany (110 mio US$) • EIB loan (50 mio US$, 1.43%, 5 years grace, 15 years repaym.) • GoL from budget (50 mio US$) Same conditions for 40-MW extension. Financing conditions very favorable. Probably no need for injection of funds during operation period at tariffs indicated hereafter.
Financial Analysis - Assumptions
Financing conditions
SP-1B, SP-2 75% concessionary loans (5% interest, start repayment at
start of production, repayment 10 years) 25% GoL (75% thereof by loans, 25% from budget. Loan conditions: 10% interest, repayment 5 years, start in year of production) Financing will require injection of funds during operation period at tariffs indicated hereafter.
Financial Analysis - Results
Via Reservoir Tariffs (tariffs in 2013 US cents/kWh)
Demand Scenario High Low
• Power plants: Mt Coffee, SP-1B, SP-2 (ROA ≈5%) 1.8 2.4 – 2.7 • Power plants: Mt Coffee, SP-1B, SP-2 (ROA ≈3%) 1.3 1.7 – 1.9 _______________________________________________
• Power plants: only Mt Coffee, 80 MW (ROA ≈5%) 4.8 4.9 • Power plants: only Mt Coffee, 80 MW (ROA ≈3%) 3.4 3.4
• Power plants: only Mt Coffee, 120 MW (ROA ≈5%) 4.0 4.2 • Power plants: only Mt Coffee, 120 MW (ROA ≈3%) 2.8 3.0
Financial Analysis - Results
Mt Coffee Tariffs (account for payments made to Via; tariffs in 2013 US cents/kWh)
Demand scenario High Low
• Power plants: Mt Coffee (80 MW), SP-1B, SP-2 (ROA ≈ 5%) 5.4 6.1 • Power plants: Mt Coffee (80 MW), SP-1B, SP-2 (ROA ≈ 3%) 4.0 4.5
• Power plants: Mt Coffee (120 MW), SP-1B, SP-2 (ROA ≈ 5%) 6.1 7.2 • Power plants: Mt Coffee (120 MW), SP-1B, SP-2 (ROA ≈ 3%) 4.4 5.2 ---------------------------------------------------------------------------------------- • Power plants: only Mt Coffee (80 or 120 MW) (ROA ≈ 5%) 8.0 8.4 • Power plants: only Mt Coffee (80 or 120 MW) (ROA ≈ 3%) 5.9 6.1
Financial Analysis - Results
SP-1B Tariffs (account for payments made to Via; tariffs in 2013 US cents/kWh)
Demand scenario High Low • Power plants: Mt Coffee, SP-1B, SP-2 (ROA ≈ 5%) 7.5 9.0 – 10.3 • Power plants: Mt Coffee, SP-1B, SP-2 (ROA ≈ 3%) 5.7 6.8 – 7.8
Financial Analysis - Results
SP-2 Tariffs
Not meaningful as considered production period too short. Longest 13 years (2038 – 2050). High tariffs – in the High Scenario between 10.0 and 11 US cents/kWh and in the Low Scenario between 15.0 and 16.5 – would be necessary to achieve an average ROA of 5% over the short periods. Tariffs would be about same as the SP-1B tariffs at same length of production period.
Financial Analysis - Results
Mt Coffee Tariffs (US cents/kWh; ROA ≈ 5%) Demand scenario High Low - Without Via 5.6 – 6.1 5.8 – 6.6 With Via – only Mt Coffee ≈ 8.0 ≈ 8.4 With Via – Mt Coffee, SP-1B, SP-2 5.4 – 6.1 6.1 – 7.2
Financial Analysis - Results
Average Generation Tariffs in the Interconnected Grid - Low Scenario
Assumption: Demand for generation not met by St Paul hydro plants is met by diesel generators at cost of 0.28 US cents/kWh.
St Paul hydro plants Mt Coffee without Via Reservoir 20.0 US cents/kWh
Only Mt Coffee with Via Reservoir 18.0 US cents/kWh
Mt Coffee, SP-1B and SP-2 with Via 11.2 US cents/kWh
MAIN CONCLUSIONS
The Via Reservoir is very likely being an attractive
supply option for Liberia.
The economic and financial benefits depend on the hydropower production on the St Paul River. The maximum benefit will be obtained if in addition to Mt Coffee, SP-1B, SP-2 and the Via Plant are installed.
The Via Reservoir can be expected to enjoy important financial support from the EU and other donors (grants, favorable loans).
MAIN CONCLUSIONS
With the Via Reservoir, the average generation costs
could be reduced by about two-thirds compared to the present situation. The costs of hydro plants on St Paul would be between 4.0 and 10.0 US cents/kWh.
That, in turn, will enable significant reductions of
end-user tariffs.