The Taiwanese Ministry of Economic Affairs (MOEA) has announced a 10.17% decrease to next year’s feed-in tariff (FIT) rates for solar PV installations, which is much higher than the average decrease of 4.25% in the global PV industry. This will make 2019 a tough year for Taiwan’s PV industry, with wider-than-expected impacts on the whole market.
On November 2, China’s National Energy Administration held a symposium to evaluate the results of the 13th Five-Year Plan for solar PV development at its halfway point, discussing the adjustment of PV and thermal generation targets in the plan. As a result of this, there is renewed positivity regarding China’s domestic solar demand in 2019-2020.
Solar PV has come a long way as a power generation technology. As highlighted in SolarPower Europe’s Global Market Outlook for 2018 to 2022, solar added 98 GW of net generation capacity last year, eclipsing all other forms of electricity generation. But solar needs to do a lot more, and to do it very soon if we want to limit greenhouse gas (GHG) emissions and keep global warming to below 1.5°C from pre-industrial levels.
As the deployment of renewable energy continues to expand around the world, driven by various inputs, such as capital allocation and investment, falling capital costs, competitive LCOE and various policy mechanisms, we are now moving towards a new era for renewable energy. ‘Renewables 2.0’ will have significant, wide-ranging consequences for all market players, as regulators reduce their support and power producers seek new revenue models. In this article, Duncan Ritchie, partner at Apricum – The Cleantech Advisory, will look at the key market developments for renewables, explode the myth of grid parity, highlight the need for flexibility and explain the importance of new financing solutions that are capable of meeting the new complexities brought about by ‘Renewables 2.0’.
By 2025, Taiwan aims to reach a cumulative installed solar PV capacity of 20 GW. However, by mid-2018, just 11.2% of this goal had been met. TrendForce analyst, Rhea Tsao, examines the situation and discusses what needs to be done to reach the target.
Module degradation tests are essential not only for effective plant operations, but also to ensure an optimum ROI. However, fixed laboratories, where such tests are usually carried out, involve transportation issues, while it is not always economically feasible to send in mobile laboratories. So how can degradation in these instances be measured? Leonardo Enrique Pérez Abreu, Technical Manager of the Testing & Optimization department at Enertis discusses this issue.
India is currently the second largest market in the world for PV module demand. With China’s domestic demand frozen since the 31/5 notification, the country’s total module demand in 2018 will likely only achieve 32-34 GW. This will allow India, which may surpass 10 GW in annual demand, to reach 13% of global PV demand this year. As a result, the future of India’s trade war has become an influential factor in the global PV industry.
Jay Lin, CEO of PVGuider discusses why the effects of light induced degradation (LID) in PERC cells cannot be completely eliminated. To explain the difficulty, we first need to understand the LID behavior of the cells, he says.
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