imcenter Amesim offers a broad range of components to virtually design and test subsea controls, emergency safety and drilling systems.
Evaluate startup behavior of high-pressure unit pumps, accumulator filling time, umbilical pressurization time and gate valve dynamics
Simulate emergency shutdown (ESD) procedures on the platform to show transient response times of the gate valve closure on the ocean floor
Design fluid power actuation systems for clamping devices, balancing of pylons and hoisting applications while reducing power consumption
imcenter Amesim comes with a unique set of components that allow you to model any power generation gas turbine cycle.
Optimize co-generation, fuel and lubrication systems
Assess the impact of combustion and the thermodynamic cycle on pollutant emissions
Evaluate the effect of control strategies on the overall gas turbine performance and efficiency during transient operations while considering startup and shutdown
imcenter Amesim supports renewable energy production by helping manufacturers optimize wind turbines.
The solution enables you to analyze the coupling between mechanical subsystems like the turbine blades and gearbox on one hand, and the electrical generator and the power grid on the other.
You can simulate the rotating velocity of the wind turbine and assess the electrical power that is generated by the input wind velocity.
Compare the use of a synchronous machine or induction machine
Compare the use of a mechanical reducer or machine with a high number of pole pairs
Optimize energy management
Detect potential failures
ogether with environmental concerns, the introduction of Li-ion chemistries in automotive batteries has driven the beginning of a vehicle electrification wave over the past 10 years.
During the coming decade, battery electric vehicles (BEVs) will have to become commonplace and start yielding profit for original equipment manufacturers (OEMs).
To achieve this, battery and vehicle manufacturers will have to further mitigate the current gaps compared to internal combustion engine (ICE) driven cars. These include cost, range, charging speed, reliability and safety.
Download the whitepaper below and learn more about the implications of powertrain electrification on the vehicle development process, which aspects drive lithium-ion (Li-ion) battery pack design, which physics are involved and which types of analysis are required in this context.
Furthermore, the whitepaper below shows Simcenter Amesim’s role in sense of battery development!