TB Series | Temperature Control Steam Trap

Steam Traps TB Series | Temperature Control Steam Trap TBH81

Steam Traps TB Series | Temperature Control Steam Trap

TBH81

  • SCCV System
  • Stainless Steel
  • Supports condensate recovery
  • Horizontal installation
  • Vertical installation
  • Bypass function
  • Automatic air venting
    Steam Traps TB Series | Temperature Control Steam Trap TBH81

    Features/Applications

    Features

    • Complete steam containment

      The temperature control trap operates with an adjustable subcooling of condensate. Thus maintaining a certain condensate level in the trap. This mechanism provides a 100% tight sealing and effectively prevents steam loss during operation.

    • Suitable for high pressure, high temperature ranges and superheated steam

       

    • Superb durability

      The MIYAWAKI SCCV (Self Closing and Centering Valve) System has the effect of increasing durability by achieving soft closing during operation.
      Consisting of a free rotating valve that is centered and guided by the condensate flow, hence perfectly fitted in the valve seat even under extreme conditions of high pressure applications. This significantly reduces wear and erosion of the valve components.

    • Quick startup

      Swiftly discharges the initial cold condensate and air.

    • Energy saving effect

      A significant energy saving effect is achieved by controlling the temperature of discharged condensate.

    • With low operating noise and very little flash steam

        

    tb_SCCV.png
     

    Typical applications

    Suitable for ultra-high pressure and high temperature uses such as superheated lines, turbine headers, and other such applications.

    Dimensions/Weight

    Dimensions/Weight

    Flanged

    TBH72_81_FF.png

     

    Size Dimensions (mm) Dimensions (in) Weight
    L H1 H2 W L H1 H2 W (kg) (lb)
    1/2” 400 268 50 180 15.8 10.6 2.0 7.1 34,0 75.0
    3/4” 35,0 77.2
    1” 38,0 84.1

     

    Socket Weld

    TBH72_81_SW.png

     

    Size Dimensions (mm) Dimensions (in) Weight
    L H1 H2 W L H1 H2 W (kg) (lb)
    1/2” 400 268 50 180 15.8 10.6 2.0 7.1 29,0 64.0
    3/4”
    1”

    Specifications

    Model Connection

    Max. operating

    pressure

    Max. operating

    differential pressure

    Max. operating

    temperature

    Adjustable range

    Standard set

    temperature

    Body

    material

    Type Size

    PMO

    (MPa)

    PMO

    (psig)

    (MPa) (psig)

    TMO

    (℃)

    TMO

    (℉)

    (℃) (℉) (℃) (℉)
    TBH81-150F

    Flanged

    FF,RF

    1/2” 15,0 2175 15,0 2175 470 878 100 - 300 212 - 572

    250

    (at 10,5MPa)

    482
    (at 1522psig)

    Cast steel

    WC6

    3/4”
    1”
    TBH81-150W

    Socket Weld

    SW

    1/2”
    3/4”
    1”
    TBH81-200F

    Flanged

    FF,RF

    1/2” 20,0 2900 20,0 2900 100 - 320 212 - 608

    270

    (at 15,0MPa)

    518
    (at 2175psig)
    3/4”
    1”
    TBH81-200W

    Socket Weld

    SW

    1/2”
    3/4”
    1”

    *Available flange standards: ASME/JPI 1500lb, 2500lb,  DIN PN100, 160 
    *Socket weld standards:   ASME 2500lb, JPI 2500lb, JIS sch 160

    ●Maximum allowable pressure (PMA): 25,0MPa (3625psig) (at 492℃ (918℉))
    ●Maximum allowable temperature (TMA): 593℃ (1100℉) (at 3,7MPa (536psig))
    ●Minimum operating differential pressure (⊿PMN): 2.0MPa (290psig) ⊿PMN is the minimum operating differential pressure between the trap inlet and outlet.

    ●In the absence of any particular instructions for the set temperature, the product is adjusted to the standard factory set temperature above for shipment.
    ●Please use a set temperature that is at least 30℃ (86℉) lower than the saturation temperature for the steam pressure in use.
    *The body of the TBH81 can also be manufactured using chromium molybdenum forged alloy steel product A182 F22.

    Discharge Capacity

    TBH81.png
     

    ●⊿t is the difference between the temperature of a temperature control trap when the valve is initially opened and condensate temperature. The temperature difference (⊿t) upon the initial passage of air is great, and indicates that the flow rate will also increase.

    Download

    * Membership registration is required to download the documents.

    Features

    • Complete steam containment

      The temperature control trap operates with an adjustable subcooling of condensate. Thus maintaining a certain condensate level in the trap. This mechanism provides a 100% tight sealing and effectively prevents steam loss during operation.

    • Suitable for high pressure, high temperature ranges and superheated steam

       

    • Superb durability

      The MIYAWAKI SCCV (Self Closing and Centering Valve) System has the effect of increasing durability by achieving soft closing during operation.
      Consisting of a free rotating valve that is centered and guided by the condensate flow, hence perfectly fitted in the valve seat even under extreme conditions of high pressure applications. This significantly reduces wear and erosion of the valve components.

    • Quick startup

      Swiftly discharges the initial cold condensate and air.

    • Energy saving effect

      A significant energy saving effect is achieved by controlling the temperature of discharged condensate.

    • With low operating noise and very little flash steam

        

    tb_SCCV.png
     

    Typical applications

    Suitable for ultra-high pressure and high temperature uses such as superheated lines, turbine headers, and other such applications.

    Dimensions/Weight

    Flanged

    TBH72_81_FF.png

     

    Size Dimensions (mm) Dimensions (in) Weight
    L H1 H2 W L H1 H2 W (kg) (lb)
    1/2” 400 268 50 180 15.8 10.6 2.0 7.1 34,0 75.0
    3/4” 35,0 77.2
    1” 38,0 84.1

     

    Socket Weld

    TBH72_81_SW.png

     

    Size Dimensions (mm) Dimensions (in) Weight
    L H1 H2 W L H1 H2 W (kg) (lb)
    1/2” 400 268 50 180 15.8 10.6 2.0 7.1 29,0 64.0
    3/4”
    1”
    Model Connection

    Max. operating

    pressure

    Max. operating

    differential pressure

    Max. operating

    temperature

    Adjustable range

    Standard set

    temperature

    Body

    material

    Type Size

    PMO

    (MPa)

    PMO

    (psig)

    (MPa) (psig)

    TMO

    (℃)

    TMO

    (℉)

    (℃) (℉) (℃) (℉)
    TBH81-150F

    Flanged

    FF,RF

    1/2” 15,0 2175 15,0 2175 470 878 100 - 300 212 - 572

    250

    (at 10,5MPa)

    482
    (at 1522psig)

    Cast steel

    WC6

    3/4”
    1”
    TBH81-150W

    Socket Weld

    SW

    1/2”
    3/4”
    1”
    TBH81-200F

    Flanged

    FF,RF

    1/2” 20,0 2900 20,0 2900 100 - 320 212 - 608

    270

    (at 15,0MPa)

    518
    (at 2175psig)
    3/4”
    1”
    TBH81-200W

    Socket Weld

    SW

    1/2”
    3/4”
    1”

    *Available flange standards: ASME/JPI 1500lb, 2500lb,  DIN PN100, 160 
    *Socket weld standards:   ASME 2500lb, JPI 2500lb, JIS sch 160

    ●Maximum allowable pressure (PMA): 25,0MPa (3625psig) (at 492℃ (918℉))
    ●Maximum allowable temperature (TMA): 593℃ (1100℉) (at 3,7MPa (536psig))
    ●Minimum operating differential pressure (⊿PMN): 2.0MPa (290psig) ⊿PMN is the minimum operating differential pressure between the trap inlet and outlet.

    ●In the absence of any particular instructions for the set temperature, the product is adjusted to the standard factory set temperature above for shipment.
    ●Please use a set temperature that is at least 30℃ (86℉) lower than the saturation temperature for the steam pressure in use.
    *The body of the TBH81 can also be manufactured using chromium molybdenum forged alloy steel product A182 F22.

    TBH81.png
     

    ●⊿t is the difference between the temperature of a temperature control trap when the valve is initially opened and condensate temperature. The temperature difference (⊿t) upon the initial passage of air is great, and indicates that the flow rate will also increase.

    * Membership registration is required to download the documents.

    Contact