Engineering Tools

Engineering Tools

Ultimate Edition v2.0 MDSJ Engineering Lab

Advanced Baghouse Design Simulator

Design your system to global environmental engineering standards with thermodynamic gas expansion, can velocity analysis, and dust characteristics.

1. Gas Characteristics & Volume

Nm³/h

Standard volume at 0°C and 1 Atm pressure.

°C
m
Actual Gas Volume: 0 Am³/h

2. Filtration & Media Targets

m/min
mm

Laboratory Analysis Results

Live Data

Net Surface Area

0

@ At Actual Volume conditions

Required Bags

0 Pcs

Ø160mm Standard Diameter

Critical Design Criteria

Can Velocity

0.00 m/s

Optimal Level

Recommended Media

Polyester Needlefelt

Standard temperature resistance.

Our experts should validate the system prior to setup.

Request Custom Quote

Why This is Not a Basic Calculator

Most industry tools assume a static airflow, leading to incorrectly sized capital investments. This laboratory tool incorporates Thermodynamic Gas Expansion (Boyles/Charles Law) to upscale Normal flow (Nm³/h) to Actual flow (Am³/h) based on process temperature.

What is Can Velocity? Even if your total cloth area is sufficient, if the upward air speed between the bags (Can Velocity) exceeds ~1.2 m/s, "Re-entrainment" occurs. Dust pulsed off the bags gets swept right back onto them instead of falling into the hopper. Our algorithm detects this flaw and warns you proactively.