R.S. Heemskerk Supervisors: Dr. ir . M. Langelaar , Prof.dr.ir A. van Keulen

1Topology optimization in PVCells 08/04/2013

Topology optimization of Metallisation Patterns in Photo Voltaic applicationsMaster Thesis ProjectR.S. HeemskerkSupervisors: Dr. ir. M. Langelaar, Prof.dr.ir A. van Keulen

Introduction

• Renewable energy sources / Reduce amount of CO2

• Increasing amount of solar power

• Optimise the efficiency of solar cells

• 0.1% improvement has an effect of 1.6 GW

• Topology optimization of Metallisation Patterns in Photo Voltaic applications

Contents

• Solar Cell – Working Principle • Solar Cell – Optimal Design• Optimisation• Modelling

• Finite element formulation• Non linear behaviour• Design Objective

• Results• Conclusions and Recommendations

source: www.eere.energy.gov

Solar Cell – Working Principle

• Based on photovoltaic effect• Stacked layers of silicon typical size 100 cm2)• Transparent coating• Metal grid to catch electrons• Busbar voltage

Source: http://www.solarserver.com/

Solar Cell – Optimal Design

• Change materials• Reducing losses

• Full electrode / no electrode• Optimizing the amount of busbars• Optimizing the distance between the grid lines

source: www.eere.energy.gov

Solar Cell – Optimal Design

• How to achieve an optimal design• Goal: use topology optimisation

Optimisation Techniques

• Optimisation is about finding an optimal solution from a set of alternatives

• General formulation:

• Objective functions• Constraints• Sensitivity information

Topology Optimisation

• In general: Optimises a material layout within a given design space

• Material density as a variable

• Proven to be successful in mechanics

• Strength lies in the complete design freedom

• Never tried on solar cell electrode design

Design Area

Initial Conditio

n Design

Compute objective

Convergence check?

Compute sensitivity

information

Update design

Iteration 1 c = 100Iteration 2

Finite element formulation

• 2D view of the solar cell• Grid vs transparent layer

Challenges

• Shading• Non-Linear behavior• Current computations• Objective function• Sensitivity Analysis

• How to achieve an optimal electrode design in order to get a higher efficient solar cell?

• What is the best way of include the non linear behaviour?

• What is the best way of defining an objective?

Non Linear Behaviour

• Dark current / Illuminated current density

• P = U I 145.5 W/m2 0.13095W 30x30mm

Computing Currents

• 3 different methods• Averaged Voltage• Nodal voltage• Sample Points / Shape functions

• Compared to integral of current density

Averaged voltage current current Averaged current Sample voltage current

Computing Currents

Design Objective

• Standard objective : • New objective needed -> power• Kirchoffs law: Conservation of charge and currents

Results

30x30mmP = 121.99 W/m2121.99/ 145.5 =83.8%Area fraction = 6.69%

Results

• Parameters:• Shading• Density correction• Penalty factor for shading• Method of computing the current density• Position of the busbar• Busbar voltage• Size of the design area• Amount of incoming light• Objective function• Solver

Results – single busbar 15x15mm

15x15mmP = 130.43 W/m2Area fraction = 3.2%

3.4x15mmP = 135.6371 W/m2Area fraction = 2.94 %

Results – Point Connection

Initial electrode Obj: Power Obj:

Results – busvoltage 30x30mm

0.48V 0.485V 0.49V

0.495V 0.505V 0.51V

Results - Busvoltage

Power as a function of the busbar voltage

Optimised designs

Power as a function of the busbar voltage

For 7 different designs

Results – 4 points

source: http://www.pv-tech.org

60x60mmP = 124.60 W/m2Area fraction = 5.56 %

120x120mm

Conclusions

• Topology optimisation can be used to find electrode patterns.

• Voltage dependent current can be modelled in three ways

• Total power as objective gives the highest output power

• A lot of different parameters

Recommendations

• Model• Verify model, compare the design using other FEM

software• Fabricate one of the designs obtained and compare

• Further additions• Use finer meshes to describe the electrodes in more

detail• Include busbar in the design• Price per kWh• Design robustness

Thank you

Results – Illumination

Include Shading

• Using electrodes decreases amount of incoming light

• Transparent electrodes

Computing Currents

• Exact current

• 3 different methods• Averaged Voltage• Nodal voltage• Sample Points

Exponential functions

Research Questions

• What is the best way of defining the currents?• What is the best way of defining an objective?

• Voltage dependent current can be modelled in three ways

• Total power as objective gives the highest output power

• How to achieve an optimal electrode design in order to get a higher efficient solar cell?

• Topology optimisation can be used

Current density / increments

efficiency

Increase

R.S. Heemskerk Supervisors: Dr. ir . M. Langelaar , Prof.dr.ir A. van Keulen

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