Parameter-based analysis, design evaluation, and engineering decisions.
SIMULATION & TESTING
Simulation tools and real-condition testing support for compressor and industrial engineering projects.
VALIDATION CAPABILITIES
The desktop page lists six validation capabilities; mobile keeps them in a scan-friendly order.
Parameter-based analysis, design evaluation, and engineering decisions.
Electrical behavior, running current, and load response.
Thermal behavior, heat rise, and running condition review.
Noise level, acoustic behavior, and operation analysis.
Performance output, working condition validation, and system matching.
Reliability testing, leakage behavior, and long-term validation.
ENGINEERING PLATFORMS
Dedicated platforms remain visible without turning the mobile page into a long technical wall.
Scheme comparison and engineering decision support.
Current, temperature, noise, flow, and pressure monitoring.
Leakage behavior, pressure-drop review, and reliability support.
Custom simulation logic, workflow setup, and report structure.
Send drawings, files, quantities, materials, and timing. ATOS will review the project and respond with the next step.
GLOBAL CONTACT PATHS
80 Columbus Circle, New York, NY 10023, USA
pat.anderson@atosindustry.com
+1 (212) 805-8800
900 West Georgia Street, Vancouver, BC V6C 2W6, Canada
gene.zhu@atosindustry.com
+1 604-684-3131
1109 Wenchuangyuan, RenMin Rd, Beilun, Ningbo, Zhejiang, China
david.zhang@atosindustry.com
+86 18367433175
ATOS combines proprietary simulation tools and real-condition testing capability to support compressor design evaluation, performance verification, reliability assessment, and engineering decision-making.
Parameter-based analysis · design evaluation · engineering decisions
Use ATOS proprietary simulation tools to evaluate compressor design schemes, compare parameters, identify engineering risks, and support technical decision-making before physical testing.
Electrical behavior · running current · load response
Monitor electrical current performance during operation to help evaluate motor behavior, power load conditions, and system stability under different working conditions.
Thermal behavior · heat rise · running condition review
Track temperature-related performance during testing to understand thermal trends, working stability, and engineering reliability during continuous or repeated operation.
Noise level · acoustic behavior · operation analysis
Evaluate operating noise characteristics as part of real-condition testing to support product optimization, engineering review, and customer performance requirements.
Performance output · working condition validation · system matching
Test flow and pressure behavior under target conditions to verify compressor output capability and support matching analysis between design targets and real performance.
Reliability test · leakage behavior · long-term validation
Carry out durability and leakage-related validation to support reliability evaluation, product improvement, and engineering confirmation for real application scenarios.
Parameter-based compressor simulation, scheme comparison, and engineering decision support for early-stage design review.
Real-condition monitoring for current, temperature, noise, flow, and pressure data acquisition during compressor testing.
Leakage behavior, pressure-drop review, durability cycle testing, and reliability-related validation support.
For special engineering projects, ATOS can support customized simulation tools, testing workflows, data acquisition logic, validation rules, and report structures based on project requirements.
Please fill in your contact information and project details below. After submission, our team will review your request and contact you by email.
Please use a valid email address so our team can follow up with quotation details or technical questions.
We are improving the mobile and tablet version of this website. For the best browsing experience, please visit ATOS INDUSTRY on a desktop device.
You can still contact us or send your drawings using the buttons below.