0086-510-86165907 Email:zy@jsyuanzhuo.com

Home > Products > Gasketed Plate Heat ... > GPHE B200H (Gasketed...

GPHE B200H (Gasketed Plate Heat Exchanger)

Yuanzhuo Equipment Sells Various Types Of Gasketed Plate Heat Exchanger, Developed YOJO Gasketed Plate Heat Exchanger,launching GPHE B200H

Online Consultation

Description


The brazed plate heat exchanger is a common heat exchange equipment and is widely used in heat energy transfer processes in the industrial field. Here is some important information about brazed plate heat exchangers:


Structure and working principle of  Brazed Plate Heat Exchangers B200H


A brazed plate heat exchanger consists of a series of metal plates arranged in parallel, staggered and connected by brazing technology. Heat transfer occurs in the slits between the plates. Fluid passes through channels between the plates, with a heat medium fluid (such as steam or hot water) on one side and a fluid being heated or cooled (such as water or air) on the other. The thermal medium transfers heat between the plates, causing a temperature change in the fluid being heated or cooled.


Advantages of Brazed Plate Heat Exchangers B200H

Brazed plate heat exchangers offer many advantages. First, they have high thermal conductivity properties, effectively improving heat exchange efficiency. Secondly, they take up little space and are suitable for installations with limited space. In addition, they feature high reliability, easy maintenance, and easy cleaning.


Application areas of Brazed Plate Heat Exchangers


Brazed plate heat exchangers are widely used in many industries, including chemical, oil and gas, power, pharmaceutical, food and beverage, etc. They are used in processes for heating, cooling and recovering energy, such as heating water, steam generation, air conditioning and cooling systems, waste heat recovery, etc.


Design and selection factors


There are several factors to consider when designing and selecting a brazed plate heat exchanger. This includes the nature and flow rate of the fluid, the required heat exchange efficiency, temperature and pressure requirements, heat exchange area and heat transfer coefficient, etc. In addition, material selection is also an important factor to ensure corrosion resistance and adaptability to different process requirements.


Maintenance and cleaning



Brazed plate heat exchangers require regular maintenance and cleaning to ensure their performance and efficiency. This includes regular inspection and removal of blockages, cleaning plate surfaces, checking for seals and leaks, etc. Regular maintenance can extend the life of your heat exchanger and keep it in good operating condition.


Gasketed Plate Heat Exchanger



Model

A(mm)

B(mm)

C(mm)

D(mm)

E(mm)

B200H

N(4+X)

780

353

2260

1478


The bottom of the center to ground level (mm)

380

MAX.LC (mm)

3000

Connection (mm)

200

Maximum flow (m3/h)

600

Design pressure (MPa)

1.0/1.6

Max. number of plates

400



Plate Material

Suitable Fluid

Stainless steel (SUS304, 316L etc.)

Pure water, River water, Edible salt water, Mineral oil

Titanium, Ti-pd

Brine, sea water, Salt water

SMO254

Dilute sulphuric acid, Salt water solution, Inorganic aqueous solution

Ni

High temperature, High concentration of caustic soda

Hastelloy (C276, C22)

Concentrated sulfuric acid, Hydrochloric acid, Phosphoric acid

 

Main Body Gasket

Operating Temperature (℃)

Suitable Fluid

NBR

-15 ~ +135

Water, Sea water, Mineral Salt, Brine

EPDM

-25 ~ +180

Hot water, Vapour, Acid, Base

F26

-25 ~ +230

Acid, Base, Fluid

FTP

0 ~ +160

Concentrated acid, Base, High temperature oil, Vapour

 

Plate Type

Application

Lower Runner (B)

Temperature drop of heat-transfer medium too large, Temperature difference of logarithm too small

High Runner (H)

Request of viscosity, Fibroid, Pressure drop too small



Online Consultation

  • Please input Name *
  • TelephoneNumber divat error
  • Please input E-mail *
  • Please input Code

Please input keywords

Confirm
Order Now!