PROJECT STAGE	ACTION
1	Analysis of Customer requirements	A specific concept of the system architecture developed by the Customer
2		Concept developed in the Laboratory
3	Conceptual design stage	Selection of System and device models from databases for the “concept design” stage
4		Conducting a series of simulations to specify the parameters of the Customer’s requirements
5		Analysis of simulation results – specification of the System model for the stage Preliminary design
6	Preliminary design stage	Conducting a series of simulations to specify the requirements for meeting the classification society standards
7		Analysis of simulation results – specifying the System model for the Technical Design stage “baseline design”
8	Technical design stage “baseline design”	Conducting a series of simulations to specify the requirements for meeting the classification society standards
9		Development final system architecture (schematic + selected devices in the system)
10	Stage of system implementation and testing on the ship.	Model verification – testing on the unit of selected parameters representing the quality of electricity
11		Entering the final architecture and parameters of the system into the Database.

Service options

Modeling of the Ship’s Power System (SE) of a vessel

• full cycle,
• implementation of items 1 to 11
• final effect – development of a multi-variant system concept and a detailed SE model, enabling the assessment of power supply characteristics for normal operating states of the vessel and selected emergency scenarios, selection and verification of voltage regulator and electronic speed regulator settings, as well as testing of PMS systems. Permanent access to partial results and parameterized models stored in the SEe Model Databases.

Design of the Power System (SE) of a vessel

• The client provides a complete conceptual design,
• implementation of items 3 to 11,
• the final effect – a detailed SEe model, enabling the assessment of power supply characteristics for normal operating states of the vessel and selected emergency scenarios, selection and verification of voltage regulator and electronic speed regulator settings, as well as testing of PMS systems. Permanent access to partial results and parameterized models, stored in the SEe Model Databases.

SEe Modernization

• The customer partially changes the SEe architecture of the ship;
• implementation of items 8 to 11,
• final effect – SEe models (current and corrected), enabling the assessment of power supply characteristics for normal operating states of the vessel and selected emergency scenarios, selection and verification of voltage regulator and electronic speed regulator settings, as well as testing of PMS systems. Permanent access to partial results and parameterized models, stored in the SEe Model Databases.

Replacement (change of manufacturer or type) of individual devices

• The customer replaces the basic SEe device of the ship;
• implementation of items 8 to 11,
• the final effect – a multi-variant SEe model, enabling the assessment of power supply characteristics for normal operating states of the vessel and selected emergency scenarios, selection and verification of voltage regulator and electronic speed regulator settings, as well as testing of PMS systems. Permanent access to partial results and parameterized models, stored in the SEe Model Databases.

The Client is the supplier of basic mechanisms and devices for the SEe

(presents to the Shipowner/Integrator its product operating within the selected SEe)

• implementation of items 6 to 7, and 10 and 11.
• the final effect – the SEe model together with verification of the device model, enabling the assessment of power supply characteristics for normal operating states of the vessel and selected emergency scenarios, selection and verification of voltage regulator and electronic speed regulator settings, as well as testing of PMS systems. Permanent access to partial results and parameterized models, stored in the SEe Model Databases.

Experimental verification and calibration (optional) of the SEe model during sea trials of the vessel, including preparation of a detailed report.

Experimental verification of the supplier’s device model in the design laboratory, during tethered tests or during sea trials.