Question (1) A steel factory is expected to have 200 MW annual peak load and a load factor of 0.80. Therefore, a PP is to be built to supply this load and having the following characteristics: Installed Capacity (MW) Capital cost unit (SR/kW) FCR (%) 1/0 curve (MBTU/h) Fuel cost (SR/MBTU) O&M/year (MSR) 230 1500 14 80+5L+0.006L? 3 30 It is required to find out: a) The cost of producing a unit of energy (H/kWh) b) The load at which maximum efficiency () occurs.

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Question (1)
A steel factory is expected to have 200 MW annual peak load
and a load factor of 0.80. Therefore, a PP is to be built to supply
this load and having the following characteristics:
Installed Capacity (MW)
Capital cost unit (SR/kW)
FCR (%)
1/0 curve (MBTU/h)
Fuel cost (SR/MBTU)
O&M/year (MSR)
230
1500
14
80+5L+0.006L?
3
30
It is required to find out:
a) The cost of producing a unit of energy (H/kWh)
b) The load at which maximum efficiency () occurs.
e) The increase in input required to increase the output from
80 MW to 100 MW.
di The CF, UF, LF for this system.
Question (2)
A new residential project is expected to have 200 MW
annual peak load and a load factor of 80%. To meet this
load, an electric power plant (PP) is to be constructed as
follows:
Installed
Cost FCR
HR Curve
Fuel Cost
Capacity (MW) (SRKW) (%) (MBTUIMWH)
O&Myear
(MSR)
(SRIMBTU)
250
1200 10 HR=90/L+10+0.01 L
It is required to find out:
a) The cost of energy unit produced by this electric plant
(H/kWh).
b) What is the load at which maximum efficiency will
occur?
) The increase in the input for an increase in the output
from 50 MW to 80 MW
d) The CF, UF, LF for this system.
Transcribed Image Text:Question (1) A steel factory is expected to have 200 MW annual peak load and a load factor of 0.80. Therefore, a PP is to be built to supply this load and having the following characteristics: Installed Capacity (MW) Capital cost unit (SR/kW) FCR (%) 1/0 curve (MBTU/h) Fuel cost (SR/MBTU) O&M/year (MSR) 230 1500 14 80+5L+0.006L? 3 30 It is required to find out: a) The cost of producing a unit of energy (H/kWh) b) The load at which maximum efficiency () occurs. e) The increase in input required to increase the output from 80 MW to 100 MW. di The CF, UF, LF for this system. Question (2) A new residential project is expected to have 200 MW annual peak load and a load factor of 80%. To meet this load, an electric power plant (PP) is to be constructed as follows: Installed Cost FCR HR Curve Fuel Cost Capacity (MW) (SRKW) (%) (MBTUIMWH) O&Myear (MSR) (SRIMBTU) 250 1200 10 HR=90/L+10+0.01 L It is required to find out: a) The cost of energy unit produced by this electric plant (H/kWh). b) What is the load at which maximum efficiency will occur? ) The increase in the input for an increase in the output from 50 MW to 80 MW d) The CF, UF, LF for this system.
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