• 1 – 20 t/h
  • 0.7 – 2 Mpa
  • Industrial
  • In Stock
  • Nature gas, coke oven gas, biogas, methanol, liquid propane gas, diesel, heavy oil, light oil, crude oil, etc.
  • Heat supplying, chemical, food, textile, printing and dyeing, cigarettes and tobacco, fodder, pharmacy, building materials, brewery, rubber, hospital etc.

WSN series gas / oil fired industrial horizontal steam boiler is a kind of safety and high efficiency heating equipment with fully automatic intelligent control system. It’s a boiler shell type 3 passes wetback oil/gas fired boiler. Usually, the WNS series steam boilers widely used for industry production and processing, such as textile mill, medicine industry, food & beverage industry, chemical industry, garment industry, food processing industry, and wood processing industry, moreover, it could be used for central heating in enterprise, hotel, hospital, civil architecture, etc.

Shell and Tube Heat Exchangers Basic Calculations - .x

2015-1-3 · The optimum thermal design of a shell and tube heat exchanger involves the consideration of many interact-ing design parameters which can be summarized as follows: Process: 1. Process fluid assignments to shell side or tube side. 2. Selection of stream temperature specifications. 3. Setting shell side and tube side pressure drop design limits. 4.

1 of 53 KLM Technology Group Rev: 01 - Kolmetz.c

2015-9-17 · c. Gas Fired Boiler – Natural Gas is utilized with higher flue gas velocities and smaller furnace volumes. d. Waste Heat Boiler - Utilizing waste heat from any industrial process as the heating source. 5. Tube Layout a. Fired Tube Boiler – Flue of hot gas is flowing inside the tubes. Water is contained inside the shell.

Shell boilers – Part 3: Design and calculation fo

The value of the weld factor v used in the calculation for the shell thickness shall be either 0,85 or 1 depending on the extent of NDE to be carried out (see 7.2 and

Determination of Internal Pressure in a Shell and Tub

2014-4-4 · Determination of Internal Pressure in a Shell and Tube Type of Heat Exchanger by Using IBR and ASME Codes Tubes span across the length of boiler shell from the furnace side tube sheet to the channel side tube Minimum required drum shell thickness: t min = 78.27 mm 3.3 IBR 580 for Internal Pressure in Tube sheet [5]

Job No: Example Vessels Vessel Number: Fixed Tu

2018-5-4 · Nominal Shell Thickness Selected = 0.3125 in. Advanced Pressure Vessel version: 9.1.1 ©Computer Engineering, Inc. Page 1 of 76 Section VIII, Division 1, 2004 Edition, 2005 Addenda PAGET EQUIPMENT CO.

formula of boiler heating surface - smvhighschool.

heating surface area and capacity formula in boiler heating surface area and capacity formula in boiler Clients Worldwide. heating surface area and capacity formula in boiler is easy to install, it could be finished within 2-4 weeks, we have the professional abroad installation team to help for installation.Moreover, our technicians offer after-sale service every quarter in many countries

Boiler wall thickness - SmokSt

1999-9-10 · Re: Boiler wall thickness You want to purchase a copy of Mark's Mechanical Engineer's Handbook. There is an extensive section on Mechanics of Materials which contains much information on cylinders and tubes containing internal pressure as on boiler drums.

boiler tube minimum wall thickness calculatio

2017-7-22 · Boiler Tubes Thickness Pressure Equation and Calculator | Engineers How To: Calculate The Minimum Required Wall Thickness For Tubing May 3, 2016 – To determine the minimum required thickness of tubing you will use a formula contained within ASME Boiler & Pressure Vessel Code PG-27

How To: Determine The Thickness Of A Blank

All referenced page numbers are from the 2007 ASME Boiler & Pressure Vessel Code. Formula. Information regarding how to determine the minimum required thickness of a dished head is contained in PG-29 page 12 and the formula used for the calculation is within PG-29.1, page 12 which is as follows; Minimum Thickness Formula:

Boilers

2004-3-19 · Fire-Tube Boiler (~1800) The fire tube boiler, the oldest design, is made so the products of combustion pass through tubes surrounded by water in a shell. The furnace/flame volume can either be inside or external to the shell that contains the water. The upper steam capacity of fire tube boilers is about 20,000 Ibm/hr, and the peak pressure

ASME B31.3 Pipe Thickness Calculator - pipin

2019-9-14 · ASME B31.3 Pipe Thickness Calculator. Written by Matt Milbury on 23 April 2016. Posted in Calculators. The B31.3 Code contains requirements for piping typically found in petroleum refineries; chemical, pharmaceutical, textile, paper, semiconductor, and cryogenic plants; and related processing plants and terminals. This code prescribes

ModelRated steam capacity(t/h)Rated working pressure(Mpa)Rated steam temperature(℃)Maximum transport size(m)
(L×W×H)
WNS1-0.7-Y(Q)10.71703.3×1.8×2.1
WNS1-1.0-Y(Q)111843.3×1.8×2.1
WNS1.5-1.0-Y(Q) 1.511843.0×1.8×2.0
WNS1.5-1.25-Y(Q)1.51.251943.0×1.8×2.0
WNS2-1.0-Y(Q) 211844.4×2.1×2.5
WNS2-1.25-Y(Q)21.251944.4×2.1×2.5
WNS3-1.0-Y(Q)311844.6×2.3×2.6
WNS3-1.25-Y(Q)31.251944.6×2.3×2.6
WNS4-1.25-Y(Q)41.251944.7×2.5×2.9
WNS4-1.6-Y(Q)41.62044.7×2.5×2.9
WNS5-1.25-Y(Q)51.251945.3×2.7×3.3
WNS5-1.6-Y(Q)51.62045.3×2.7×3.3
WNS6-1.25-Y(Q)61.251945.9×2.6×3.0
WNS6-1.6-Y(Q)61.62045.9×2.6×3.0
WNS8-1.25-Y(Q)81.251945.9×2.8×3.1
WNS8-1.6-Y(Q)81.62045.9×2.8×3.1
WNS10-1.25-Y(Q)101.251947.7×2.8×3.1
WNS10-1.6-Y(Q)101.62047.7×2.8×3.1
WNS15-1.25-Y(Q)151.251947.0×3.1×3.6
WNS15-1.6-Y(Q)151.62047.0×3.1×3.6
WNS20-1.25-Y(Q)201.251948.3×3.4×4.0
WNS20-1.6-Y(Q)201.62048.3×3.4×4.0