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RENEWABLE POWER, ENERGY STORAGE & SMART GRID INDONESIA 2019

The 1st Exhibition of Hydropower, Bioenergy, Geothermal, Ocean, Hybrid, Wind & Solar Energy, Energy Storage and Smart Grid in Indonesia

A glance of Renewable Power & Energy Storage

In 2016, global renewable electricity generation grew by an estimated 6% and represented around 24% of global power output. Hydropower remained the largest source of renewable power, accounting for around 70%, followed by wind (16%), bioenergy (9%) and solar PV (5%). In 2015, net additions to grid-connected renewable electricity capacity reached a record high at 153 GW, 15% higher than in 2014. For the first time, renewables accounted for more than half of new additions to power capacity and overtook coal in terms of world cumulative installed capacity.

In 2016, solar PV annual additions surpassed that of wind, breaking another record, with 70 GW to 75 GW coming on line, almost 50% higher growth versus 2015. Annual grid-connected solar PV capacity in China more than doubled in 2016 versus 2015, with 34.5 GW becoming operational. Developers rushed to connect their projects before feed-in tariffs (FiTs) were reduced as planned in August 2016. In the United States, solar PV annual additions doubled, with over 14 GW coming on line in 2016, followed by Japan (8.5 GW).

In 2016, onshore wind capacity grew by 50 GW to 55 GW, about 15% less versus 2015. This decline was mainly due to China, which connected 19 GW of new onshore wind capacity, significantly less than 32 GW in 2015, when developers rushed to complete their projects to benefit from higher FiTs. However, despite slower capacity growth, China curtailed around 50 terawatt hours (TWh) of wind power last year, with average nationwide curtailment rate increasing from 15% in 2015 to around 17% in 2016. The European Union added over 11 GW, led by Germany and France, followed by the United States (8.2 GW), India (3.6 GW) and Brazil (2.5 GW). In 2016, global offshore wind new additions are estimated to have declined versus 2015 by a third, with annual grid-connected capacity decreasing by about half in Europe as a result of a lull in the United Kingdom and Germany project pipelines.

Hydropower additions are estimated to have decreased for the third consecutive year since 2013, with fewer projects becoming operational in China (12.5 GW). Brazil added almost 5 GW of new capacity. In 2016, CSP capacity grew by almost 0.3 GW, driven almost entirely by Africa. Phase 1 of Morocco's NOOR Ouarzazate Plant, a 160 MW parabolic trough plant with three hours of storage, came on line, while South Africa commissioned two plants.


可再生能源,能源储存和智能电网印度尼西亚2019年

印度尼西亚第一届水电,生物能源,地热,海洋,混合动力,风能和太阳能,储能和智能电网展

一瞥可再生能源和能源储存

2016年,全球可再生能源发电量增长了约6%,约占全球发电量的24%。 水电仍然是可再生能源的最大来源,约占70%,其次是风能(16%),生物能源(9%)和太阳能光伏(5%)。 2015年,并网可再生电力的净增量创下历史新高,达到153吉瓦,比2014年高出15%。可再生能源首次占新增电力容量的一半以上,超过了煤炭。 世界累计装机容量。

2016年,太阳能光伏发电年增量超过风能,打破了另一项创纪录的目标,其中70GW至75GW即将上线,与2015年相比增长近50%。2016年中国的并网太阳能光伏发电量与2016年相比增长了一倍以上 ,34.5 GW即可运营。 在2016年8月按计划减少上网电价(FiTs)之前,开发商急于连接他们的项目。在美国,太阳能光伏发电年增加一倍,2016年将有超过14 GW上线,其次是日本(8.5 GW)。

2016年,陆上风电装机容量增加50吉瓦至55吉瓦,比2015年减少约15%。这一下降主要是由于中国连接了19吉瓦的新陆上风电容量,2015年显着低于32吉瓦,当时开发商匆忙 完成他们的项目以受益于更高的FiT。 然而,尽管产能增长放缓,中国去年减少了约50太瓦时(TWh)的风电,全国平均缩减率从2015年的15%增加到2016年的约17%。欧盟增加了超过11吉瓦,由 德国和法国,其次是美国(8.2吉瓦),印度(3.6吉瓦)和巴西(2.5吉瓦)。 2016年,全球海上风电新增量预计将比2015年下降三分之一,由于英国和德国项目管道的停滞,欧洲的年电网连接容量减少了约一半。

自2013年以来,水电增加量估计连续第三年下降,中国的项目投入减少(12.5吉瓦)。 巴西增加了近5吉瓦的新增产能。 2016年,CSP容量增长了近0.3吉瓦,几乎完全由非洲推动。 摩洛哥NOOR Ouarzazate工厂的第一阶段,一个160兆瓦抛物槽工厂,有三个小时的存储,上线,而南非委托两个工厂。

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