Micro-generation using LMS Imagine.Lab AMESim · Micro-generation using LMS Imagine.Lab AMESim ......

Event title (to be altered on title master)Presenter name – presenter job title (to be altered on title master)

Micro-generation using LMS Imagine.Lab AMESim

– 2009/04/20

2 copyright LMS International - 2009

Agenda

§ Home electric network components

§ Solar panels

§ Load profiles and system examples

§ Control aspects

§ Heat and co-generation

The electric network

§Modeling the electric network with the electrical libraries:

DC/DC converters

§ Simple ideal transformer:

§ Boost chopper:

Inverters (DC/AC converters)

§ Example of an inverter model:

Batteries

§ Batteries commonly used in PV systems:

- Lead-acid batteries

In AMESim, tables providing the open circuit voltage and the internal resistance depending on the SOC (State-Of-Charge)

Agenda

§ Solar panels

§ Load profiles and whole system examples

§ Control aspects

Solar panels

§ Equivalent electric circuit of a solar cell (PV):

- current source + diode, with 2 resistances (one in parallel, one in series)

- the current source is proportional to the sun irradiance received by the photovoltaic cell:

Solar panels

§ Validation of the model with data from solar module makers

Example : BP Solar, SX170B

Solar panels : how to maximize the output

§ Optimum angle of solar panels : perpendicular to sun direction

http://sunposition.info/sunposition/spc/locations.php#1

Mechanical solar trackers (one-axis or 2-axis) can be used to optimize the solar panel orientation towards the sun

§ Maximum Power Point Tracker: electric device which set the optimal voltage to get the maximum electric power from the solar panel

Agenda

§ Solar panels

§ Control aspects

Consumers: load profiles

§ Examples of household electric loads

(mean value on 90 houses in UK)

Electric power sink in AMESim

Examples of systems

§ Example of simple grid-tied PV system in AMESim (electric network in equivalent DC):

Examples of systems

§ Example of simple grid-tied PV system with battery in AMESim (electric network in equivalent DC):

Agenda

§ Solar panels

§ Control aspects

Extensions : several sources and consumers

Inverter

Natural gas

hot waterdemand

electricpower

city electric network

Solar energy

ENERGYSOURCES ENERGY

CONSUMERS

Aircon

bathroom

kitchen

electricappliances

ControlUnit

electricitydemand

Micro-CHP system(fuel-cell, gas engine,…)

Solar panels

The Control Unit(s)

§ Using the Signal library in AMESim:

§ Using dedicated tools (Matlab/Simulink, Labview, Scilab,…) in co-simulation with AMESim:

AMESim - Simulink Interfaces Easy-to-use and efficient tool for coupling

AMESim plant model within Simulink control system model

AMESimMulti-domain systems

simulation platform

SimulinkThe de-facto standard for

control system design

Agenda

§ Solar panels

§ Load profiles and whole system examples

§ Control aspects

Fuel Cell modeling

§ Enefarm specifications:

- Electric output 1kW

- Heat 1.2 kW

§ Simple FC model in AMESim:

Parameters:

- Number of cells

- Cell area

Outputs:

- Electric power (current and voltage)

- Heat released

- Consumption of fuel

Example of grid-FC-PV-battery system

Basic FC cogeneration system

Fuel processing

system

Fuel Cell(PEMFC)

Inverter

Natural gas

electricity

hot water

electricpower

Basic FC cogeneration system

§ Basic house co-generation system, how it works :

1. The fuel processing system extracts hydrogen from gas (methane for example)

2. The Fuel Cell stack generates electricity from chemical reaction between hydrogen and oxygen

3. The inverter converts direct current into alternative current

4. The water tank is heated by the heat produced by the FC chemical reaction

The Fuel Cell and Fuel Processing System

The heat recovery and the tank

§ Several examples of thermal systems: tank model

Cooling System

Heat exchanges:Solid/solid (conduction)Solid/liquid (convection)Solid/gas (convection)

Key benefits

§ LMS Imagine.Lab AMESim key benefits for co-generation modeling:

àMulti-domain:

Co-generation involves different physical domains: electric, thermal, fluids, chemical, mechanical…

AMESim, thanks to its fully compatible libraries based on physics, is perfectly adapted to the modeling of this kind of systems.

àFlexibility:

It is very easy in AMESim to change and adapt the models, to add some components, to create and customize its own models.

All kind of architectures can be represented and different strategies can be tested depending on the consumption, the environment,…

Event title (to be altered on title master)Presenter name – presenter job title (to be altered on title master)

Thank you

Micro-generation using LMS Imagine.Lab AMESim · Micro-generation using LMS Imagine.Lab AMESim ......

Documents

LMS Imagine.Lab AMESim - oss.jishulink.comoss.jishulink.com/caenet/forums/upload/2014/11/28/392/... · LMS Imagine.Lab AMESim ... formulae and experiment data. ... manometer and the

Amesim English s01

LMS Imagine.Lab Amesim / STAR-CCM+ co-simulation: electric equipment bay of an aircraft

Siemens PLM Software Simcenter - CAE | Polarion...and design stage. LMS Imagine.Lab Amesim LMS Imagine.Lab Amesim software combines the leading multiphysical system simulation software

Celebrating 20 years of Hydraulic Component Design library in LMS Imagine.Lab Amesim

Model Based Systems Engineering overview and practicesem... · 2020. 10. 17. · LMS Imagine.Lab Amesim 3D simulation Mechatronic system simulation . ... Design goal: create symmetric

Siemens PLM Software LMS solutions for model-based systems engineering · 2018-08-20 · simulation software solution platform that builds on LMS Imagine.Lab AmesimTM software, LMS

Simcenter Amesim Mobile Hydraulic Actuation Systems · Simcenter Amesim Mobile Hydraulic Actuation Systems Simcenter Amesim Mobile Hydraulic Actuation Systems helps improve fuel consumption

Amesim Hil

Modelling, analysis and control of linear systems using ...o.sename/docs/ME_auto.pdf · Modelling, analysis and control of linear systems ... LMS Imagine.Lab Amesim, Catia-Dymola,

Simcenter Amesim - Maya HTT...Simcenter Amesim The powerful platform capabilities of Simcenter Amesim allow system simula-tion engineers to rapidly and accurately perform analysis

LMS Imagine.Lab AMESim IntroductionLMS Imagine.Lab OPTIMUS is a design optimization software application that captures and manages LMS Imagine.Lab AMESim engineering simulations. AMESim

Siemens PLM Software LMS Imagine.Lab AmesimSiemens PLM Software LMS Imagine.Lab Amesim ... performance analyzer, discrete partitioning of models and parallel processing feature. 6

Under maximum pressure: design you fuel injection system with LMS Imagine.Lab Amesim

MULTI-ATTRIBUTE VEHICLE PERFORMANCE OPTIMIZATION: AMESIM ... June 26 … · performance optimization: amesim and modefrontier ... lms imagine.lab solutions ... multi-attribute vehicle

LMS AMESim Introduction

Siemens LMS AMESIM help to boost truck fuel Efficiency

LMS Imagine.Lab Amesim: Animate your engineering life

LMS Imagine.Lab AMESim Solutions Guide · integration using an easy-to-use simulation process. All engineers need to do is connect various validated components to simply and accurately

AMESim Advanced Modeling E Simulations of engineering systems. · 2008. 3. 12. · AMESim = Advanced Modeling Environment for performing Simulations of engineering systems. AMESim