Current system

See: Generation for more details of the current generation systems

Modeled wind power

Capital cost (total): $14,451,294

Capital cost (cost per kW): $4,236/kW

Lifetime energy cost savings: $16,271,367

Net lifetime savings: $1,820,073

Benefit-cost ratio: 1.1

Proposed nameplate capacity: 3,200 kW

Expected yearly generation: 8,970,240 kWh/year

Estimated wind class: 6

Estimated capacity factor: 0.32

Estimated wind penetration level: 48.46%

Notes: None

source: unknown

Dillingham intertie wind project 0

Capital cost (total): $14,451,294

Capital cost (cost per kW): $4,236/kW

Lifetime energy cost savings: $16,271,367

Net lifetime savings: $1,820,073

Benefit-cost ratio: 1.1

Proposed nameplate capacity: 3,200 kW

Expected yearly generation: 8,970,240 kWh/year

Estimated wind class: 6

Estimated capacity factor: 0.32

Estimated wind penetration level: 48.46%

Notes: nan

source: link

This component calculates the potential cost savings from changes in the amount of diesel fuel used for electricity generation from the installation of new wind power infrastructure.