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Forced Draft ACHE Air Cooled Heat Exchanger ASME/API Standard In Various Refining Processes

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Forced Draft ACHE Air Cooled Heat Exchanger ASME/API Standard In Various Refining Processes

Name: Forced Draft ACHE Air Cooled Heat Exchanger ASMEAPI Standard In Various Refining Processes
Brand: YUHONG
Price: 1 USD

Quality Forced Draft ACHE Air Cooled Heat Exchanger ASME/API Standard In Various Refining Processes wholesale

Brand Name : YUHONG

Model Number : Forced Draft ACHE

Certification : ASME PTC 30 / API Standard 661

Place of Origin : China

MOQ : 1 pc

Price : Negotiable

Payment Terms : T/T, L/C AT SIGHT

Supply Ability : 100 sets per month

Delivery Time : Depends on order quantity

Packaging Details : Iron frame wooden box

Product Name : Air-Cooled Heat Exchanger (Forced Draft ACHE)

Types of ACHEs : Forced Draft ACHE / Induced Draft ACHE

Application : Refineries / Oil and gas / Power generation

Design Considerations : Tube Bundle Orientation / Materials / Maintenance Access / Noise Control

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Forced Draft ACHE Air-Cooled Heat Exchanger, ASME / API Standard, In Various Refining Processes

ACHE Overview

Air cooled heat exchanger (ACHE) is a heat exchange device that uses ambient air as a cooling medium to remove heat. Its core feature is that it does not require the consumption of process cooling water and achieves cooling through indirect heat transfer between air and high-temperature fluids (liquids or gases), belonging to the "dry cooling" technology.

Core principle of Air Cooler

1. Heat transfer method

High temperature process fluids (such as lubricating oil, hot water, steam, process gases, etc.) flow in a closed tube side; The ambient air is forced to flow over the surface of the outer fins of the tube under the drive of the fan. Heat is transferred from the fluid to the air through the tube walls and fins, and the air is discharged into the atmosphere after heating up. No phase change: only sensible heat exchange occurs (air temperature rises), without involving water evaporation (different from "wet" cooling towers).
Indirect contact: Air and process fluid are isolated by metal walls to avoid contamination.

2. Core structure "finned tube"

Aluminum/copper fins are tightly embedded outside the tube to increase the heat transfer area on the air side (due to poor air thermal conductivity, area compensation needs to be expanded).
Common types: winding finned tube, brazed plate finned tube (compact type, used for gas cooling)

How It Works

Hot process fluid flows through the tubes.
Air flows over the finned surface of the tubes (forced or pulled by fans).
Heat is transferred from the fluid to the fins, then to the air.
Cooled fluid exits the exchanger; hot air is expelled to the atmosphere.

Basic Components of an ACHE

Component	Description
Tube Bundle	Tubes with external fins to increase heat transfer area.
Fins	Usually aluminum; help dissipate heat faster by enlarging the surface area.
Fans	Axial flow fans driven by electric motors or gearboxes; push or pull air across the tubes.
Headers	Distribute the process fluid into the tubes and collect it afterward.
Plenum Chamber	Duct that directs airflow from the fan to the finned tubes (in forced draft) or from tubes to fan (in induced draft).
Structure	Steel support for tubes, fans, motors, and walkways.

Types of ACHEs

Type	Air Flow Method	Fan Position	Key Use Case
Forced Draft	Air pushed up	Fans below tubes	Easier fan maintenance
Induced Draft	Air pulled up	Fans above tubes	Better efficiency in hot climates
Natural Draft	No fans	Chimney effect	Low-maintenance, remote areas
A-Frame / V-Type	Angled surfaces	Compact layout	Skid-mounted or space-constrained systems
Adiabatic/Hybrid	Dry + misting	Enhanced cooling	High ambient temp areas

Design Standards & Codes of Air-cooled Heat Exchanger

Standard	Description
API 661	Design & construction standard for ACHEs in refineries and petrochemical plants
ASME PTC 30	Performance testing code for ACHEs
ASME Section VIII Div. 1	For pressure-containing components like header boxes

Advantages of Air-Cooled Heat Exchangers

No water required – ideal for arid regions
Lower operational cost – no water treatment or cooling tower needed
Environmentally friendly – no thermal or chemical discharge
Modular and scalable – units can be added as cooling demand increases

Typical Application Scenarios of ACHE

Power industry: gas turbine lubricating oil cooling, generator hydrogen cooling.
Petrochemical/chemical industry: reactor outlet cooling, compressor inter stage cooling, hydrocarbon condensation.
Metallurgical industry: hydraulic system cooling for rolling mills, supporting cooling for furnaces.
Manufacturing industry: hydraulic oil cooling for injection molding machines, post cooling for air compressors.
Renewable energy: solar thermal power generation, molten salt cooling, biomass power generation system.
Project in arid regions: Cooling of factories and mining equipment in water scarce areas.

Forced Draft ACHE Air Cooled Heat Exchanger ASME/API Standard In Various Refining Processes

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