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The Conference will examine areas including resource assessment, environmental impacts, wave, tidal, offshore wind, floating offshore wind, ocean thermal energy conversion (OTEC) and salinity gradient technologies, as well as storage and integration, policies to enable remote coastal community solutions and technologies to enable micro-electricity demand solutions.
According to the Renewable Capacity Statistics 2019 report by International Renewable Energy Agency (IRENA), 2018 closed with a total renewable energy generation capacity of 2 351 GW, up by 171 GW on the previous year. Of this amount, wind, solar and marine energy, accounted for 564 GW, 480 GW and 500 MW respectively.
To achieve this, in 2015, United Nations Member States adopted 17 Sustainable Development Goals (SDGs).
A significant number of solar photovoltaic (PV) power plants underperform for various reasons, including deterioration, or to the point that the financial viability of the PV power plant is at stake.
2018 was a year of extreme weather. Some of the lowest and highest temperatures were recorded in both hemispheres, while gale-force winds fuelled wildfires in a number of regions and hurricane-strength typhoons caused severe flooding in others.
“IECRE certification will de-risk the investments of financial institutions in large renewable energy projects at insignificant cost”, according to Sandy Butterfield, Chair of IECRE, who talked about the benefits of the conformity assessment system at a promotional event held during the China Wind Power 2018 event. “Financial investors benefit the most from IECRE certification, yet of all the stakeholders, they are probably the least aware of the benefits”, Butterfield added.
IECRE, the IEC System for Certification to Standards Relating to Equipment for Use in Renewable Energy Applications, has established a new mechanism, which will allow applications from renewable energy test laboratories (RETLs) that cover the power performance assessment of electricity producing tidal energy converters within IEC Technical Specification (TS) 62600-200.
Many countries around the world are working towards producing more power from and increasing the amount of renewables to be integrated into national energy supplies.
Each year sees an increase not only in the number of countries participating in the IEC Affiliate Country Programme but also in the number of International Standards adopted as national ones, national electrotechnical committees (NECs) established and Affiliate Plus status granted. In the past 12 months, the Programme has seen changes in its leadership, and the Secretariat has been extremely busy supporting participating countries through workshops, seminars, webinars and training sessions, to name but a few of the activities organized to raise awareness and know-how in developing countries.
The global transition from fossil fuels to renewable energy is well under way, with record new additions of installed renewable energy capacity, thanks in part to rapidly falling costs, particularly for solar PV and wind power.
According to the International Energy Agency’s (IEA) Renewables Market Report series for 2017, renewables accounted for almost two-thirds of net new power capacity around the world in 2016, thanks to a strong solar PV market. The Report forecasts that though coal will still be the largest source of electricity generation, renewables are expected to halve the gap down to 17% by 2022.
By 2030, total installed PV capacity could range between 1 760 gigawatts (GW) and 2 500 GW. However, if market growth is to remain sustainable, the technology must be enhanced, and the risk for investors, policy makers and consumers reduced, according to a recent report by the International Renewable Energy Agency (IRENA).
In his address to Council, Frans Vreeswijk, IEC General Secretary & CEO, reminded the audience that digitization is a key focus for both industry and standards organizations. Standards will play a key role in the digitization of industry, healthcare and every other part of our life. The new Masterplan, approved and published prior to the General Meeting in Vladivostok, Russia, sets the goals and expectations for the Commission, in this area among others, for the years to come.
The leading renewable source for electricity generation globally is hydropower. In 2016, it generated 16.4% of the world's electricity, reaching 1,064 GW of installed capacity, and supplied 71% of all renewable electricity, according to a report by the World Energy Council.
Solar photovoltaic (PV) electricity is rapidly increasing its share of global power generation. Technology and production breakthroughs are making it cheaper to manufacture. The IEC is leading the way with the appropriate International Standards.
Electric power is so much more than switching on a light bulb, and the havoc wreaked by hurricanes Irma and Maria in September was a stark reminder of this.
As the price of photovoltaic (PV) systems continues to tumble and the requirement for cleaner renewable forms of energy grows, more and more of our energy needs will be met by PV-generated power. The IEC is a leader in the field of PV standardization which falls under the responsibility of IEC Technical Committee (TC) 82: Solar photovoltaic energy systems. The TC is publishing International Standards which facilitate market growth and global trade in this crucial sector.
Every year the IEC honours the commitment and work of a number of individuals in its community who, through their leadership and technical expertise, have contributed to making products and electrical systems safer, more energy efficient, more reliable and more compatible.
Established in 2014, IECRE, the IEC System for Certification to Standards Relating to Equipment for Use in Renewable Energy Applications, is the newest of the IEC Conformity Assessment (CA) Systems.
Each year sees an increase not only in the number of countries participating in the IEC Affiliate Country Programme but also in the number of International Standards adopted as national ones, national electrotechnical committees (NECs) established and Affiliate Plus status granted. In the past 12 months, the Affiliate Secretariat has been extremely busy supporting participants in the Programme through workshops, seminars, webinars and training sessions, to name but a few of the support activities organized to raise awareness and know-how in developing countries.
Among these, in 2015, the United Nations General Assembly adopted a dedicated Sustainable Development Goal (SDG) on Sustainable Energy for All (SDG 7), while the year ended in the United Nations Framework Convention on Climate Change’s (UNFCCC) 21st Conference of the Parties (COP21) in Paris, where 195 countries agreed to limit global warming to well below two degrees Celsius
Today, a number of different technologies are being developed to extract energy from oceans, such as tidal, river and ocean current and wave power. Though only a few large-scale systems currently operate, several are being demonstrated in Asia, Europe and North America.
Developed with the participation of industry players, including equipment manufacturers, power producers, insurance companies, test laboratories and certifying bodies, IECRE, the IEC System for Certification to Standards Relating to Equipment for Use in Renewable Energy Applications, streamlines a complex process and benefits not only the wind, but other renewable energy industries such as solar and marine.
Over the past few months, the Standardization Management Board (SMB) approved several new Chairs who have taken up their roles.
During his address to Council, IEC General Secretary and CEO Frans Vreeswijk highlighted the main achievements since Minsk and talked about important ongoing projects.
Renewable Energy (RE) plays an increasingly important role in providing global populations with clean, affordable, sustainable energy. RE production and use continues to increase thanks to the falling cost of equipment and installation.
During the United Nations Climate Convention – 2015 Paris COP 21, it was recognized that renewable energy (RE) is a key part of the answer to achieving sustainable development and reducing the impact of climate change. Global electricity networks must adapt and include RE technologies.
Over the last five years, the cost of renewable power generation technologies has dropped while the technology has improved. Biomass for power, hydropower, geothermal and onshore wind can all now provide electricity competitively compared to fossil fuel-fired power generation, according to the International Renewable Energy Agency (IRENA).
During his address to Council, the IEC General Secretary & CEO, Frans Vreeswijk, provided a brief overview of key accomplishments since Tokyo and drew the audience’s attention to a number of topics of high importance for the future relevance of the Commission.
The IEC has recognized the efforts of three Young Professionals Programme alumni with 1906 Awards in 2015. Congratulations on this achievement.
Hundreds of standards for Renewable Energy technology are now accessible in one easy-to-use platform.
Global energy needs are increasing constantly and with the diminishing supply of fossil fuels and rising environmental and safety concerns, renewables are likely to occupy a growing share of the future energy mix. Through its standardization and conformity assessment (CA) work, the IEC is promoting the development of renewable sources for electricity production.
As countries throughout the world try to increase the share of renewable energies (REs) in their electricity generation portfolio, wind power has surfaced as the most cost-effective and fastest-growing new RE sources in recent decades. Standardization work by IEC Technical Committee (TC) 88: Wind turbines, has made this expansion possible.
The theme of this year’s Workshop for Industrializing Countries was "Challenges to Ensure Safety of Electronic Equipment". Held during the IEC General Meeting in Tokyo, Japan, the meeting aimed to facilitate the sharing of experiences and help highlight solutions to a particularly pertinent issue for developing countries.
Hiromichi Fujisawa, IEC Vice President and Chairman of CAB (Conformity Assessment Board) will step down at the end of 2014. Under his competent and thoughtful leadership IEC CA (Conformity Assessment) Systems have become stronger expanding their portfolio to better serve industry. A new CA System, IECRE, saw the light of day and will serve the needs of the renewable energy industry, in particular wind, marine and solar PV, and a new governance structure will provide a strong basis for the future. Fujisawa has left his mark on the IEC and the IEC CA Systems in many positive ways.
The IEC, which has been at the forefront of international standardization in the wind, solar and marine energy fields for many years, has now gone a step further and launched IECRE, the IEC System for Certification to Standards Relating to Equipment for Use in Renewable Energy Applications.
The ever increasing demand for electricity and the need to reduce the share of fossil fuels in power generation have led to rapid development and growth of the RE (renewable energy) sector. The IEC, which has been at the forefront of international standardization in the wind, solar and marine energy fields for many years, has now gone a step further and launched IECRE, the IEC System for Certification to Standards Relating to Equipment for Use in Renewable Energy Applications.
Fujisawa gave an update on CAB activities in the 12 months since the Oslo GM (General Meeting). He talked about the creation of IECRE, the new IEC CA (Conformity Assessment) System for renewable energies, presented the work of some of the CAB working groups and of the WT CAC (Wind Turbine Certification Advisory Committee). Furthermore Fujisawa provided insights into the process that is currently being undertaken to harmonize the basic rules of the three CA Systems, IECEE, IECEx and IECQ.