A top-down approach to heliostat cost reduction

The Technology Innovation Agency (TIA) has funded a South African central receiver collector technology development project, called Helio100. The project aims to provide South Africa’s first commercially viable heliostat technology, which is both low in cost and offers high local content potential. A top-down approach is employed for heliostat cost reduction. This approach incorporates interlinked tools which move from high level cost analyses based on qualitative data during early stages of conceptual design, to detailed quantitative analyses in the final stages of design. Low cost heliostat designs are realized by the incorporation of both a top-down and bottom-up method. The current H100 design results in heliostat costs of $155/m2 at 20 000 units p.a. while further industrialisation results in heliostat costs of $126/m2 at 20 000 units.

[1]  Joe Coventry,et al.  Heliostat cost reduction - where to now? , 2014 .

[2]  Gregory J. Kolb,et al.  Power Tower Technology Roadmap and Cost Reduction Plan , 2011 .

[3]  Lena Neij,et al.  Cost development of future technologies for power generation--A study based on experience curves and complementary bottom-up assessments , 2008 .

[4]  Kristina Lerman,et al.  Autonomous Robots manuscript No. (will be inserted by the editor) Top–Down vs Bottom–up Methodologies in Multi–Agent System Design , 2022 .

[5]  Andreas Pfahl,et al.  Survey of Heliostat Concepts for Cost Reduction , 2014 .

[6]  Carsten Holze,et al.  Autonomous light-weight heliostat with rim drives , 2013 .

[7]  Magne Jørgensen Top-down and bottom-up expert estimation of software development effort , 2004, Inf. Softw. Technol..

[8]  Gregory J. Kolb,et al.  Heliostat Cost Reduction Study , 2007 .

[9]  Peter Viebahn,et al.  The potential role of concentrated solar power (CSP) in Africa and Europe - A dynamic assessment of technology development, cost development and life cycle inventories until 2050 , 2011 .

[10]  Gerhard Weinrebe,et al.  Towards Holistic Power Tower System Optimization , 2014 .

[11]  F. Gross,et al.  Life Cycle Cost Optimized Heliostat Size for Power Towers , 2014 .

[12]  Gregory J. Kolb,et al.  Heliostat Cost Reduction. , 2007 .

[13]  James B. Blackmon Parametric determination of heliostat minimum cost per unit area , 2013 .

[14]  Robin Cooper,et al.  Target costing and value engineering , 1997 .