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| Kos Tenaga Terurus× | Analisis Eksergoekonomi× | Analisis Eksergoalam Sekitar× | |
|---|---|---|---|
| Bidang | Termodinamik | Termodinamik | Termodinamik |
| Keluarga | Process / pipeline | Process / pipeline | Process / pipeline |
| Tahun asal≠ | 2009 | 1993 | 2009 |
| Pengasas≠ | Lazard | Goran Tsatsaronis | Goran Tsatsaronis and Lucía Meyer |
| Jenis≠ | Cost comparison framework | Thermoeconomic assessment | Life cycle and environmental analysis |
| Sumber perintis≠ | Lazard. (2023). Levelized Cost of Energy Analysis (v17.0). Lazard Ltd. link ↗ | Tsatsaronis, G. (1993). Thermoeconomic analysis and optimization of energy conversion processes. Progress in Energy and Combustion Science, 19(4), 323-356. DOI ↗ | Meyer, L., Tsatsaronis, G., Buchgeister, J., & Schebek, L. (2009). Exergoenvironmental analysis for evaluation of the environmental impact of energy conversion processes. Energy, 34(1), 75-89. link ↗ |
| Alias | LCOE, levelized cost analysis | exergy costing, thermoeconomic analysis | environmental exergy costing, exergy-based LCA |
| Berkaitan | 3 | 3 | 3 |
| Ringkasan≠ | Levelized Cost of Energy (LCOE) is a standardized metric that spreads the total lifecycle cost of an energy project over its lifetime energy output. It enables fair comparison of electricity generation technologies with different capital structures, operating costs, and lifetimes. LCOE is widely used for technology evaluation, investment decisions, and energy policy analysis. | Exergoeconomic analysis combines thermodynamics and economics by assigning monetary costs to exergy streams. It reveals how thermodynamic irreversibilities translate into economic losses within industrial systems. This approach enables engineers to identify the most economically significant inefficiencies and make informed decisions about component improvements and system optimization. | Exergoenvironmental analysis extends exergy-based methods to quantify and allocate environmental impacts of thermal systems. It assigns environmental costs to exergy streams based on upstream lifecycle impacts, revealing which components contribute most significantly to environmental burdens. This enables engineers to design sustainable energy systems by optimizing the trade-off between thermodynamic and environmental performance. |
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