PSHE Evaporator with Combined Separator

Model Number

Product Description

Evaporators
The versatility of Vahterus PSHE’s is demonstrated particularly in evaporator applications. PHSE can be used as highly efficient flooded or direct expansion evaporators, due to low pressure drop and high heat transfer. Fully welded circular plates and a protective outer shell, guarantees safety for the end user. This construction also ensures high integrity and durability.
Flooded Evaporators
Refrigerants: NH3, CO2, R404A, R134a, propane etc
Capacity range: 5-20,000kW
Small refrigerant charge
Low evaporative side pressure drop
Flexible construction
High efficiency
Direct Expansion Evaporators
Capacity range: 5-1500kW
Can be used for all refrigerants


PSHE Evaporator with External Separator

Model Number

Product Description

Evaporators
The versatility of Vahterus PSHE’s is demonstrated particularly in evaporator applications. PHSE can be used as highly efficient flooded or direct expansion evaporators, due to low pressure drop and high heat transfer. Fully welded circular plates and a protective outer shell, guarantees safety for the end user. This construction also ensures high integrity and durability.
Flooded Evaporators
Refrigerants: NH3, CO2, R404A, R134a, propane etc
Capacity range: 5-20,000kW
Small refrigerant charge
Low evaporative side pressure drop
Flexible construction
High efficiency
Direct Expansion Evaporators
Capacity range: 5-1500kW
Can be used for all refrigerants


PSHE Evaporator

Model Number

Product Description

Vahterus Plate & Shell Heat Exchangers
These have many benefits for refrigeration applications such as evaporators, condensers, cascade heat exchangers, desuperheaters and oil coolers.

PSHE’s are effective, durable and versatile due to their unique shell construction, together with fully welded plates. This makes PSHE’s ideal, having compact sizes and requiring low refrigerant charges.

Vahterus heat exchangers are suitable for all refrigerants, especially natural media such as ammonia and carbon dioxide.