APS March Meeting 2017
Volume 62, Number 4
Monday–Friday, March 13–17, 2017;
New Orleans, Louisiana
Session L18: Energy - Renewable and Sustainable
11:15 AM–2:15 PM,
Wednesday, March 15, 2017
Room: 277
Sponsoring
Unit:
GERA
Chair: Talat Rahman, University of Central Florida
Abstract ID: BAPS.2017.MAR.L18.1
Abstract: L18.00001 : The Terawatt Challenge
11:15 AM–11:51 AM
Preview Abstract
Abstract
Author:
Nancy Haegel
(National Renewable Energy Laboratory)
In response to concerns about accelerating climate change, the world is
uniting to both envision and enable a global energy system that supports a
sustainable environment and broad economic prosperity. Growth in the
technology and the deployment of renewable energy has been dramatic.
Evidence can be seen in the growth of photovoltaics (PV) and wind as
contributors to worldwide electricity production over the last decade. PV
and wind provided 1.2{\%} and 3.7{\%} of global electricity production in
2015, compared to 0.1{\%} and 1.3{\%} respectively in 2005 [1,2]. These
numbers indicate both the rapid increase in the rate of deployment, as well
as the remaining work to be done to extend this trend to transform a massive
energy system and provide a significant fraction of the world's future
energy demand with renewable energy.
Based on recent trends, it is highly likely that global cumulative PV
installation will reach terawatt scale in the next few decades. The
challenges, as well as the resulting impact, vary greatly depending on
whether we envision 1 TW (\textasciitilde 15{\%} of 2015 global electricity
capacity), 3 TW (\textasciitilde 50{\%} of 2015 global electricity capacity)
or 10 TW, a level that could drive electrification of transportation and
industrial sectors and production of solar fuels. This presentation will
draw upon the work of the 2016 GA-SERI (Global Alliance of Solar Energy
Research Institutes) Terawatt Workshop to assess the feasibility and
summarize the challenges for PV as a primary energy source. These challenges
include the continuing demand for improved efficiency and reliability, the
required magnitude of capital expenditure, the need for a sustainable
industry (both financially and environmentally), as well as needs for grid
modernization and consistent policies that support global climate goals.
Physicists can play important roles in addressing this full range of
challenges, from materials science to public policy, as well as in education
of the public and its future leaders.
[1] REN21, 2016, Renewables 2016 Global Status Report, Paris, REN21
Secretariat.
[2] REN21, 2005, Renewables 2005 Global Status Report, Paris, REN21
Secretariat.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2017.MAR.L18.1