ADVANCED FINANCIAL AND RISK FEASIBILITY ASSESSMENT OF INDONESIA'S BINARY GEOTHERMAL PLANT WITH CARBON CREDIT INTEGRATION
Global warming is a pressing issue. NASA has predicted that 15 Southeast Asian islands will be submerged by 2100, as a result of a 0.77 cm increase in global sea levels from 2022-2023. Global temperatures were 1.48°C higher than pre-industrial levels in 2023. Indonesia must increase the use of...
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id-itb.:860312024-09-12T15:42:43ZADVANCED FINANCIAL AND RISK FEASIBILITY ASSESSMENT OF INDONESIA'S BINARY GEOTHERMAL PLANT WITH CARBON CREDIT INTEGRATION Yan, Xiaojun Indonesia Theses Techno-economic feasibility, Organic Rankine Cycle (ORC), Carbon Credits, Levelized Cost of Energy (LCOE), RET Screen Software. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/86031 Global warming is a pressing issue. NASA has predicted that 15 Southeast Asian islands will be submerged by 2100, as a result of a 0.77 cm increase in global sea levels from 2022-2023. Global temperatures were 1.48°C higher than pre-industrial levels in 2023. Indonesia must increase the use of renewable energy sources and energy efficiency.By 2030, energy consumption will rise by 3% and power demand by 8.5%, with fossil fuels meeting two-thirds of demand and CO2 emissions rising 35%. This study evaluates the techno-economic feasibility of a 53.5 MW Indonesian Organic Rankine Cycle (ORC) geothermal power plant using carbon credits. Indonesia's geothermal potential is 40% of global resources, but high upfront costs, insufficient regulatory support, and technical obstacles limit development. Flexible and efficient ORC geothermal power generation provides steady baseload power for low to medium-temperature resources. This study applies RET Screen software for techno-economic analysis, sensitivity, and risk assessment to analyze project feasibility under multiple scenarios. Initial costs, operation and maintenance expenditures, energy generation, and GHG reductions are analyzed in detail. Net Present Value (NPV), Internal Rate of Return (IRR), and Levelized Cost of Energy (LCOE) were calculated for four scenarios: minimal incentives, increased carbon credit incentives, extended project lifespan with tax benefits, and optimized scenarios with high carbon credit prices. With a pre-tax equity IRR of 20.7% and an NPV of $97.52 million, the project is commercially viable at $2/ton CO2 in Indonesia. Raising the carbon credit price to $18/ton CO2 boosts IRR to 26.1% and NPV to $142.74 million. An equity payback period of 2.9 years and decreased LCOE is achieved by extending the project lifespan to 30 years and using a carbon credit price of $46/ton CO2. These data show how carbon price affects geothermal investment profitability. Optimizing geothermal exploration and adopting innovative technologies can cut expenses and speed up progress. Inspired by the Philippines and Kenya, government incentives, tax cuts, and faster approvals can make geothermal projects financially viable, helping Indonesia reach its 2060 zero carbon emissions objective. text |
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Global warming is a pressing issue. NASA has predicted that 15 Southeast Asian
islands will be submerged by 2100, as a result of a 0.77 cm increase in global sea
levels from 2022-2023. Global temperatures were 1.48°C higher than pre-industrial
levels in 2023. Indonesia must increase the use of renewable energy sources and
energy efficiency.By 2030, energy consumption will rise by 3% and power demand
by 8.5%, with fossil fuels meeting two-thirds of demand and CO2 emissions rising
35%. This study evaluates the techno-economic feasibility of a 53.5 MW
Indonesian Organic Rankine Cycle (ORC) geothermal power plant using carbon
credits. Indonesia's geothermal potential is 40% of global resources, but high
upfront costs, insufficient regulatory support, and technical obstacles limit
development. Flexible and efficient ORC geothermal power generation provides
steady baseload power for low to medium-temperature resources. This study applies
RET Screen software for techno-economic analysis, sensitivity, and risk assessment
to analyze project feasibility under multiple scenarios. Initial costs, operation and
maintenance expenditures, energy generation, and GHG reductions are analyzed in
detail. Net Present Value (NPV), Internal Rate of Return (IRR), and Levelized Cost
of Energy (LCOE) were calculated for four scenarios: minimal incentives,
increased carbon credit incentives, extended project lifespan with tax benefits, and
optimized scenarios with high carbon credit prices. With a pre-tax equity IRR of
20.7% and an NPV of $97.52 million, the project is commercially viable at $2/ton
CO2 in Indonesia. Raising the carbon credit price to $18/ton CO2 boosts IRR to
26.1% and NPV to $142.74 million. An equity payback period of 2.9 years and
decreased LCOE is achieved by extending the project lifespan to 30 years and using
a carbon credit price of $46/ton CO2. These data show how carbon price affects
geothermal investment profitability. Optimizing geothermal exploration and
adopting innovative technologies can cut expenses and speed up progress. Inspired
by the Philippines and Kenya, government incentives, tax cuts, and faster approvals
can make geothermal projects financially viable, helping Indonesia reach its 2060
zero carbon emissions objective. |
| format |
Theses |
| author |
Yan, Xiaojun |
| spellingShingle |
Yan, Xiaojun ADVANCED FINANCIAL AND RISK FEASIBILITY ASSESSMENT OF INDONESIA'S BINARY GEOTHERMAL PLANT WITH CARBON CREDIT INTEGRATION |
| author_facet |
Yan, Xiaojun |
| author_sort |
Yan, Xiaojun |
| title |
ADVANCED FINANCIAL AND RISK FEASIBILITY ASSESSMENT OF INDONESIA'S BINARY GEOTHERMAL PLANT WITH CARBON CREDIT INTEGRATION |
| title_short |
ADVANCED FINANCIAL AND RISK FEASIBILITY ASSESSMENT OF INDONESIA'S BINARY GEOTHERMAL PLANT WITH CARBON CREDIT INTEGRATION |
| title_full |
ADVANCED FINANCIAL AND RISK FEASIBILITY ASSESSMENT OF INDONESIA'S BINARY GEOTHERMAL PLANT WITH CARBON CREDIT INTEGRATION |
| title_fullStr |
ADVANCED FINANCIAL AND RISK FEASIBILITY ASSESSMENT OF INDONESIA'S BINARY GEOTHERMAL PLANT WITH CARBON CREDIT INTEGRATION |
| title_full_unstemmed |
ADVANCED FINANCIAL AND RISK FEASIBILITY ASSESSMENT OF INDONESIA'S BINARY GEOTHERMAL PLANT WITH CARBON CREDIT INTEGRATION |
| title_sort |
advanced financial and risk feasibility assessment of indonesia's binary geothermal plant with carbon credit integration |
| url |
https://digilib.itb.ac.id/gdl/view/86031 |
| _version_ |
1822999411939082240 |