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News in brief
The energy sectors of most countries are undergoing
a transition to renewable energy sources, particularly
wind and solar generation. However, these sources
have seasonal variations and are intermittent.
According to IIASA researchers, seasonally pumped
hydropower storage (SPHS) could fill a critical gap and
provide an affordable way to store renewable energy
over the long-term, and support the transition to
renewable energy.
SPHS, an already established yet infrequently
used technology, means pumping water into
a deep storage reservoir built parallel to a
major river during times of high water
flow or low energy demand. When water
is scarce or energy demand increases,
stored water is released from the
reservoir to generate electricity. The
study, published in the journal Nature
Communications, is the first to provide a
global, high-resolution analysis of the potential
and costs for storing energy and water seasonally
with SPHS, focusing on the locations with the highest
potential and lowest cost.
The results show that compared with other mature
storage solutions such as natural gas, there is
considerable potential for SPHS to provide highly
competitive energy storage around the world.
“With the need for a transition to a more sustainable
world with lower CO2 emissions, renewable energies
and energy storage will play a major role in the near
future. Given the vast untapped and cheap potential
of SPHS, it will soon play an important role in storing
energy and water on a yearly basis,” says IIASA postdoc
Julian Hunt, the study lead author.
river power house
tunnel
reservoir
dam
Using water to store
renewable energy
Julian Hunt: hunt@iiasa.ac.at
Further info: pure.iiasa.ac.at/16301 Methane contributes to almost half of human-made
global warming in the short-term. Keeping to the Paris
Agreement of staying well below two degrees warming
will require significant reductions to methane emissions
in the period leading up to 2050. The many diverse
sources of this greenhouse gas make it particularly
challenging for policymakers to design strategies that
will effectively reduce emissions.
IIASA researchers used the most recent version of
the IIASA Greenhouse Gas and Air Pollution Interactions
and Synergies (GAINS) model to explore the potential
and costs for lowering methane emissions relatively
quickly in different countries and source sectors. The
study found that within the 2050 timeframe, there is
broad potential to reduce emissions with available
technologies. The results provide detailed information
on the possible global impacts and costs of various
actions at the regional and sectoral levels that is
useful to policymakers.
“There is no one-size fits all solution for the
whole world. In the Middle East and Africa,
for instance, oil production is a major
contributor to methane emissions with
relatively extensive potentials for
emission reductions at low cost. In
Europe and Latin America, dairy and beef
production are the main sources with
relatively limited technical mitigation
potentials, while in North America it is
emissions from shale gas extraction that can
significantly contain emissions at a low cost. Our study
illustrates just how important it is to have a regional-
and sector-specific approach to mitigation strategies,”
explains study lead author Lena Höglund-Isaksson.
Containing methane’s
contribution to global warming
Lena Höglund-Isaksson: hoglund@iiasa.ac.at
Further info: pure.iiasa.ac.at/16324
By Rachel Potter
By Rachel Potter
6 Options www.iiasa.ac.atSummer
2020
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Buch options, Band summer 2020"
options
Band summer 2020
- Titel
- options
- Band
- summer 2020
- Ort
- Laxenburg
- Datum
- 2020
- Sprache
- englisch
- Lizenz
- CC BY-NC 4.0
- Abmessungen
- 21.0 x 29.7 cm
- Seiten
- 32
- Kategorien
- Zeitschriften Options Magazine