Short Description: A kind of heat exchanger,same as Danfoss Brazed Plate Heat Exchangers.It is the ideal choice for air driers, chillers, heat pump, economizers, desuperheaters …It is a heat exchanger composed by a series of corrugated metal(mainly stainless steel) sheet,has a certain shape made of stacked. Formed between the various plates of thin rectangular channel, by half a slice of heat exchange. Compared with the conventional shell and tube heat exchanger, at the same flow resistance and pump power consumption, the heat transfer coefficient of Brazed plate heat exchanger is much higher.Our BPHE series of Heat Exchanger is same as Danfoss Brazed Plate Heat Exchangers,it can replace Danfoss BPHE.
Models:BPHE B3-014,BPHE B3-300,BPHE B3-015,BPHE B3-020,BPHE B3- 026,BPHE B3-050,BPHE B3-095,BPHE B3-190,and so on.
Place of origin: China,Sell to worldwide.
|Order or Inquiry on “Brazed Plate Heat Exchanger”|
|Models & Details for “Brazed Plate Heat Exchanger,BPHE Heat Exchanger”|
Features and Benefits：
Made from stainless steel 304 or stainless steel 316,Cost effective and lower operation cost：
Compact structure, easy installation
（B） high heat exchange coefficient
（C） Less idle liquid
Light weight:Only20—30% weight of shell-tube heat exchangers;Less water consumption
High thermal efficiency allows BPHE only takes 1/3 of cold water consumption of shell-tube exchangers)
（A）Up to 400 ° C Temperature and 30 bar pressure
The greatest turbulence in the flow results in less fouling and fewer cleaning
BPHE is recognized as the best heat exchanger producer in domestic market with years of operation experience and accurate computer aided design.
Models & Details:
More models Brazed Plate Heat Exchanger,BPHE Heat Exchanger (SS316):
|Buying Guide to “Brazed Plate Heat Exchanger,BPHE Heat Exchanger”|
|General Knowledge on “Brazed Plate Heat Exchanger,BPHE Heat Exchanger”|
The Brazed plate heat exchanger is one of the most effective methods to transmit heat between the different mediums. The whole set of Brazed heat exchanger is composed of the ripple channel boards, in the vacuum brazing process, each contact point between the slab and the filling material (braze welding solder) can form a weld point. Using such a design, it can make the heat exchanger which is composed of two different channels or the return route, they combine together to form the complex brazed plate heat exchanger channel. The cold and hot media assignment is completed through these channels. The cold and hot media is separated in both sides of the corrugated sheet, close as far as possible but not mixing. When they flow shoulder to shoulder, the heat is transmitted from one medium to another medium. The product concept based on modular as well as the parts that definitely can be customized, we always can find the most suitable solution for the application of each kind of heat exchanger.
Naming rules of Brazed Plate heat Exchanger models
The combination mode of process
In a brazing heat exchanger, the slab number usually reaches several dozens pieces. The liquid flow of brazing heat exchanger between boards can be combined neatly according to the different service condition. Generally there are all kinds of combination of single-flow and multi-flow. If both sides medium are even single-flow, it is available to make one side medium as the single-flow and the other side medium as the double-flow, and also both sides medium as the different multi-flow combination. The standard combination of Weal Yield brazing heat exchanger is that both hot and cold sides are single-flow, and can be customized to be multi-flow heat exchanger as per the customer request.
The combination mode of passage
Passage D : refers to the one structured by two adjacent big angles of sheet.
Features : High heat exchanging factor, big resistance and applicable for circumstance of small flowrate and strong exchanging intensity(high specific heat, phase transition or big temperature difference ), such as phase-transition heat exchange of coolant.
Passage H : refers to the one structured by two adjacent big and small angles of sheet.
Features : Heat exchange performance between passage D and passage X.
Passage X : refers to the one structured by two adjacent small angles of sheet.
Features : Low heat exchanging factor, small resistance and applicable for circumstance of large flowrate and weak exchanging intensity(low specific heat, phase transition or small temperature difference ), such as air heat exchange under ambient pressure.