Alfa Laval Inc. Welded Plate-and-Frame Heat Exchangers Packinox PHE

Description
The Packinox design is the largest type of plate heat exchanger currently available anywhere in the world. The heat recovery duties for which the Packinox heat exchangers are used normally involve very long temperature programs – normally at several hundred degrees Centigrade – with only a small temperature difference between the flow fluids. Highly efficient heat exchangers with very large heat transfer areas are needed to handle such duties. The Packinox design consists of large explosion-formed metal plates, welded into a plate pack that is then inserted into an even larger pressure vessel. This unique configuration combines the exceptional thermal and hydraulic efficiency of modern plate heat exchanger technology with the traditional advantages of shell-and-tube units under high temperatures and high pressures. The result is extremely efficient heat recovery within a compact structure that can deal with very large throughputs. Such compactness also means major savings in infrastructure and installation costs, while the improved heat recovery efficiency results in greatly reduced energy and emission costs. Prime uses for Packinox heat exchangers include the recovery of heat from feed/effluent flows in processes such as catalytic reforming, diesel or naphtha hydrotreating and paraxylene or toluene production. The popularity of this design in refineries and petrochemical plants reflects companies' need to optimize key processes when operating in markets characterized by growing demand and high energy prices, as well as a focus on energy recovery and reduced emissions.
Description
The Packinox design is the largest type of plate heat exchanger currently available anywhere in the world. The heat recovery duties for which the Packinox heat exchangers are used normally involve very long temperature programs – normally at several hundred degrees Centigrade – with only a small temperature difference between the flow fluids. Highly efficient heat exchangers with very large heat transfer areas are needed to handle such duties. The Packinox design consists of large explosion-formed metal plates, welded into a plate pack that is then inserted into an even larger pressure vessel. This unique configuration combines the exceptional thermal and hydraulic efficiency of modern plate heat exchanger technology with the traditional advantages of shell-and-tube units under high temperatures and high pressures. The result is extremely efficient heat recovery within a compact structure that can deal with very large throughputs. Such compactness also means major savings in infrastructure and installation costs, while the improved heat recovery efficiency results in greatly reduced energy and emission costs. Prime uses for Packinox heat exchangers include the recovery of heat from feed/effluent flows in processes such as catalytic reforming, diesel or naphtha hydrotreating and paraxylene or toluene production. The popularity of this design in refineries and petrochemical plants reflects companies' need to optimize key processes when operating in markets characterized by growing demand and high energy prices, as well as a focus on energy recovery and reduced emissions.

Suppliers

Company
Product
Description
Supplier Links
Welded Plate-and-Frame Heat Exchangers - Packinox PHE - Alfa Laval Inc.
Scarborough, Ontario, Canada
Welded Plate-and-Frame Heat Exchangers
Packinox PHE
Welded Plate-and-Frame Heat Exchangers Packinox PHE
The Packinox design is the largest type of plate heat exchanger currently available anywhere in the world. The heat recovery duties for which the Packinox heat exchangers are used normally involve very long temperature programs – normally at several hundred degrees Centigrade – with only a small temperature difference between the flow fluids. Highly efficient heat exchangers with very large heat transfer areas are needed to handle such duties. The Packinox design consists of large explosion-formed metal plates, welded into a plate pack that is then inserted into an even larger pressure vessel. This unique configuration combines the exceptional thermal and hydraulic efficiency of modern plate heat exchanger technology with the traditional advantages of shell-and-tube units under high temperatures and high pressures. The result is extremely efficient heat recovery within a compact structure that can deal with very large throughputs. Such compactness also means major savings in infrastructure and installation costs, while the improved heat recovery efficiency results in greatly reduced energy and emission costs. Prime uses for Packinox heat exchangers include the recovery of heat from feed/effluent flows in processes such as catalytic reforming, diesel or naphtha hydrotreating and paraxylene or toluene production. The popularity of this design in refineries and petrochemical plants reflects companies' need to optimize key processes when operating in markets characterized by growing demand and high energy prices, as well as a focus on energy recovery and reduced emissions.

The Packinox design is the largest type of plate heat exchanger currently available anywhere in the world.

The heat recovery duties for which the Packinox heat exchangers are used normally involve very long temperature programs – normally at several hundred degrees Centigrade – with only a small temperature difference between the flow fluids. Highly efficient heat exchangers with very large heat transfer areas are needed to handle such duties.

The Packinox design consists of large explosion-formed metal plates, welded into a plate pack that is then inserted into an even larger pressure vessel. This unique configuration combines the exceptional thermal and hydraulic efficiency of modern plate heat exchanger technology with the traditional advantages of shell-and-tube units under high temperatures and high pressures.

The result is extremely efficient heat recovery within a compact structure that can deal with very large throughputs. Such compactness also means major savings in infrastructure and installation costs, while the improved heat recovery efficiency results in greatly reduced energy and emission costs.

Prime uses for Packinox heat exchangers include the recovery of heat from feed/effluent flows in processes such as catalytic reforming, diesel or naphtha hydrotreating and paraxylene or toluene production. The popularity of this design in refineries and petrochemical plants reflects companies' need to optimize key processes when operating in markets characterized by growing demand and high energy prices, as well as a focus on energy recovery and reduced emissions.

Supplier's Site

Technical Specifications

  Alfa Laval Inc.
Product Category Heat Exchangers
Product Number Packinox PHE
Product Name Welded Plate-and-Frame Heat Exchangers
Application / Industry Refineries, Petrochemical
Technology Plate
Type Welded
Working Pressure 1160 psi (817 m H2O)
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