PV industry Status & Trends C-Si PV equipment: How to turn challenges into opportunities
EQUIPMENT MARKET IS MAINLY DRIVEN BY HIGH PV EFFICIENCY
In the years to come, the manufacturing cost reduction in the PV industry will be led by equipment and material innovations. As only a part of the whole existing crystalline silicon manufacturing capacity is suited to the production of very high efficiency solar cells and modules, Yole Développement assumes that a part of the manufacturing capacity will be shut down or used at low utilization rates, and new capacities suited for very high efficiency products will be added. This provides an opportunity for PV equipment manufacturers to find customers despite existing production overcapacities.
Yole Développement forecasts that about 35 GWp of new solar cell manufacturing equipment will be purchased by 2017. In this part of the report the main technologies and corresponding equipment used in c-Si solar cell and module manufacturing are analyzed in detail. For each equipment its description, main characteristics, innovations and market trends, 2011-2017 market figures and main suppliers are given. The challenges and opportunities for equipment manufacturers are also provided.
HIGH PV EFFICIENCY IS A KEY DRIVER FOR COSTS DECREASE
Current technology and market consolidation are revealing an increased interest in high-efficiency cell and module approaches. We provide details on how high PV efficiency enables product differentiation and cuts on manufacturing and system costs and Levelized Cost of Electricity (LCOE).
Different very high cell and module efficiency approaches are reviewed, showing the opportunities for crystalline silicon as well as for some thin-film PV manufacturers.
In order to reach very high cell and module efficiency (respectively over 19% and 16%), specific technology approaches, new materials and new equipment are required. Materials such as quasi-mono silicon wafers and new equipment (ion implant tools, amorphous silicon deposition tools) are reviewed and their potential is analyzed. The factors that have to be taken into consideration during the development of new equipment for very high efficiency solar cells are also discussed.
HOW TO STAY PROFITABLE IN THE PHOTOVOLTAIC BUSINESS
Thanks to incentive policies, in the past the photovoltaic market experienced double digit average annual growth rates, and more than 27GWp were installed during the year 2011. This resulted in a massive increase of the manufacturing capacities to cover the increasing demand. However, recently, lowered incentive mechanisms resulted in a market demand lower than expected. In consequence, high manufacturing overcapacities and module inventory result in a strong price pressure on the PV market and finally leads to technology and market consolidation. PV cell and module manufacturers as well as PV material and equipment suppliers are facing hard times and are trying to find a solution on how to keep their business profitable. Different manufacturers and suppliers strategies are reviewed in this part of the report. Today, the key objective of PV manufacturers is no longer to increase their production capacities, but to differentiate themselves from their competitors in an overcrowded market thanks to added value products (with lower price, higher efficiency,…). Innovations in the field of PV equipment, materials & manufacturing processes are thus more important than ever.
WHY CRYSTALLINE SILICON REMAINS A LEADING PV TECHNOLOGY?
As photovoltaics becomes a commodity market and many different PV products are commercially available, the old vision of a PV technology development in which thin-film PV technologies would progressively increase their market shares has become obsolete. Through the last years, the technology progress in crystalline silicon (c-Si) technology has surpassed all expectations. Today, the c-Si modules are available at prices close or even lower than $1 per Wp, comparable with those of the thin-film PV modules, while their efficiency is significantly higher, providing the system level a premium value. The main advantages of c-Si as well as the potential for further improvement of c-Si manufacturing costs and performances are discussed here in detail. The technology performance and applications are compared with thin-film PV technologies (amorphous silicon, CdTe, CIGS).
KEY FEATURES OF THE REPORT
Comprehensive overview of the current situation on the PV market allowing better understanding of the customer needs and proper evaluation of the strategies to be chosen by equipment suppliers and cell and module manufacturers to keep their business running.
2011-2017 figures for PV installations and market shares for different PV technologies.
Deep analysis of the current market and technology consolidation with a focus on the competitive position of the crystalline silicon against thin-film PV (amorphous silicon, CIGS and CdTe) and on the importance of the high efficiency in the market differentiation and costs decrease.
Detailed overview of the different processes, equipment and materials used in the solar cell and module manufacturing.
2011-2017 market figures for the key equipment for the crystalline silicon solar cell and module manufacturing (in number of units and in M$).
Publication type: Technology, Applications, Industry & Market Report
Released date: April 2012
Number of slides: 244 slides
Format: PDF + Excel files
WHO SHOULD BUY THIS REPORT?
Equipment, Material and Component Suppliers
Evaluate the market potential and best time-to-market for your products.
Find how to turn the challenges into opportunities.
Strength your market position by focusing on the winning technology approaches.
Re-think your technology and market strategy to best fit the market needs.
PV cell and module manufacturer
Understand the potential of crystalline silicon PV and its improving position² against thin-film PV modules.
Learn about the best technology approaches, equipment and materials in the crystalline silicon cell and module manufacturing.
Cross-check your strategic decision before making investment decision for equipment purchase.
2BG, 3S Swiss Solar Systems, 48th Research Institute, Akron Systems, Apollon Solar, Applied Materials, ASYS Solar, BASF, Bürkle, BTU, Canadian Solar, Centrotherm, Cermet Materials, Chimet, Coherent, CSUN, Day4Energy, DelSolar, Despatch Industries, Dow Corning, DuPont, ECN, Ecoprogetti, ET Solar, Eurotron, Fraunhofer ISE, Ferro, Gorosabel, Hanwha Solar One, Heraeus, IMEC, IMT, INES, Innolas, JA Solar, Jinko Solar, Jusung, KANEKA, Komax Solar, LDK Solar, Machines Dubuit, Manz, Meco, Micro-Tec, Monocrystal, Nisshinbo Industries, NPC, OTB Solar, P.Energy, Panasonic, Pemco, Q-Cells, RENA, Reis Robotics, Renesola, Robert Meier, Rofin, Roth&Rau, Sandwik Thermal Process, Sanyo, Schiller, Schmid, SEMCO Engineering, Sevenstar, Schott Solar, Sierratherm, Singulus, Spire Corporation, Suniva, Suntech Power, Stangl, Sunpower, SVCS, Tecnofimes, Teknisolar, Tempress, Trina Solar, Trumpf, Vincent Industrie, VSEA, Wemhöner Systems Technologies, Yingli Green Energy,…