ESRDC 2016-2021

Abstract

1 ~ Combat Power and Energy Systems (CPES) Design Methodologies to include: Development of Set-Based Design (SBD) capabilities for ship systems design and analysis, and investigate appropriate metrics for evaluation of sets; develop advanced risk analysis approaches to SBD; develop methodologies for incorporating control theory into the entire DDC including methodologies for higher fidelity simulations and advance real-time simulations.2 ~ High power dense component development and characterization to include: Power modules for power electronic converters, energy storage, and rotating machines; power and heat transfer corriders.3 ~ System management and control technologies to include: Active power and energy management; thermal management system concepts utilizing common interfaces with generation, mission load and energy storage devices; continuous state awareness; systems with fast fault detection, fault location and fault clearing; minimizing common-mode coupling in WGB-based P&E systems; apply techniques for mitigation or risk to improve P&E system reliability.4 ~ Developing new design functionalities to support S3D (Ship Smart Systems Design) and RSDE (Rapid Ship Design Environment) to include: Explore system engineering guidelines for electric ship design; experiment with controls into S3D; Explore mechanisms to use time domain simulation via S3D; Exercise methodologies for automated SBD into S3D; Explore distributed system design and analysis functionality within S3D; Experiment with LEAPS/FOCUS (Leading Edge Architecture Prototype Systems/FOCUS) ontology-compliant equipment library and data sets; discover mechanisms for traceability and documentation of electric ship design; expediting the transition of S3D research progress to the Navy community.5 ~ System level experimentation to include: Exploration of enhancements in S3D design capability through a full DCC; Power dense component performance evaluations; Experimental verification of MVDC (Medium Voltage Direct Current) system protection; Exploration of system level control of pulsed loads.

Document Details

Document Type

DoD Grant Award

Publication Date

Sep 23, 2016

Source ID

N000141612956

Entities

Tags