Sale!

S08 — Combustion Turbine Inlet Cooling (I-P)

Original price was: $39.00.Current price is: $19.50.

Book by ASHRAE,

Category:

Description

Power output capacity of all combustion turbines (CTs) varies with ambient air temperature and site elevation. The rated capacities of all CTs are based on standard ambient air at 59°F (15°C), 60% rh, 14.7 psia (101.35 kPa) at sea level, and zero inlet and exhaust pressure drops, as selected by the International Organization for Standardization (ISO). For all CTs, increased ambient air temperature or site elevation decreases power output; increased ambient air temperature also reduces fuel efficiency (i.e., increases the heat rate, defined as fuel energy required per unit of electric energy produced). However, the extent of the effect of these changes on output and efficiency varies with CT design. This chapter provides a detailed discussion on combustion turbine inlet cooling (CTIC). Additional information on applying CTIC to combined heat and power systems (cogeneration)is provided in Chapter 7.

Advantages
Disadvantages
Definition and Theory
System Types
Calculation of Power Capacity Enhancement and Economics

ISBN: 978-1-947192-52-2 (for I-P versions of chapters)
ISSN: 1078-6066 (for I-P versions of chapters)

Citation: 2020 ASHRAE Handbook — HVAC Systems and Equipment

Product Details

ISBN(s):
9781947192522
Number of Pages:
9
Units of Measure:
I-P
File Size:
1 file , 780 KB
Product Code(s):
D-S082020IP
Sale!

S08 — Combustion Turbine Inlet Cooling (I-P)

Original price was: $36.00.Current price is: $18.00.

Handbook / Manual / Guide by ASHRAE, 2016

Category:

Description

Power output capacity of all combustion turbines (CTs) varies with ambient air temperature and site elevation. The rated capacities of all CTs are based on standard ambient air at 59°F (15°C), 60% rh, 14.7 psia (101.35 kPa) at sea level, and zero inlet and exhaust pressure drops, as selected by the International Organization for Standardization (ISO). For all CTs, increased ambient air temperature or site elevation decreases power output; increased ambient air temperature also reduces fuel efficiency (i.e., increases the heat rate, defined as fuel energy required per unit of electric energy produced). However, the extent of the effect of these changes on output and efficiency varies with CT design. This chapter provides a detailed discussion on combustion turbine inlet cooling (CTIC). Additional information on applying CTIC to combined heat and power systems (cogeneration)is provided in Chapter 7.

Advantages
Disadvantages
Definition and Theory
System Types
Calculation of Power Capacity Enhancement and Economics

ISBN: 978-1-939200-26-6 (for I-P versions of chapters)
ISSN: 1078-6066 (for I-P versions of chapters)

Citation: 2016 ASHRAE Handbook — Systems and Equipment: Chapter 8, Combustion Turbine Inlet Cooling

Product Details

Published:
2016
ISBN(s):
9781939200266
Number of Pages:
9
Units of Measure:
I-P
File Size:
1 file , 9.2 MB
Product Code(s):
D-S082016IP