Publication Date:
2017-04-04
Description:
In densely populated countries there is a growing and compelling need to use underground for different
and possibly coexisting technologies to produce ‘‘low carbon’’ energy. These technologies include (i) clean
coal combustion merged with CO2 Capture and Storage (CCS); (ii) last-generation nuclear power or, in any
case, safe nuclear wastes disposal, both ‘‘temporary’’ and ‘‘geological’’ somewhere in Europe (at least in
one site): Nuclear wastes are not necessarily associated to nuclear power plants; (iii) safe natural gas
(CH4) reserves to allow consumption also when the foreign pipelines are less available or not available
for geopolitical reasons and (iv) ‘‘low-space-consuming’’ renewables in terms of Energy Density Potential
in Land (EDPL measured in [GW h/ha/year]) as geothermics. When geothermics is exploited as low
enthalpy technology, the heat/cool production could be associated, where possible, to increased measures
of ‘‘building efficiency’’, low seismic risks building reworking and low-enthalpy heat managing. This
is undispensable to build up ‘‘smart cities’’. In any case the underground geological knowledge is
prerequisite.
All these technologies have been already proposed and defined by the International Energy Agency
(IEA) Road Map 2009 as priorities for worldwide security: all need to use underground in a rational
and safe manner. The underground is not renewable in most of case histories [10,11]. IEA recently
matched and compared different technologies in a unique ‘‘Clean Energy Economy’’ improved document
(Paris, November 16–17, 2011), by the contribution of this vision too (see reference).
In concert with ‘‘energy efficiency’’ improvement both for plants and buildings, in the frame of the
‘‘smart cities’’ scenarios, and the upstanding use of ‘‘energy savings’’, the energetic planning on regional
scale where these cities are located, are strategic for the year 2050: this planning is strongly depending by
the underground availability and typology. Therefore, if both literature and European Policy are going fast
to improve the concept of ‘‘smart cities’’ this paper stresses the concept of ‘‘smart regions’’, more strategic
than ‘‘smart cities’’, passing throughout a discussion on the synergic and conflicting use of underground
to produce energy for the ‘‘smart regions’’ as a whole.
The paper highlights the research lines which are urgent to plan the soundest energy mix for each
region by considering the underground performances case by case: a worldwide mapping, by GIS tools
of this kind of information could be strategic for all the ‘‘world energy management’’ authorities, up to
ONU, with its Intergovernmental Panel on Climate Change (IPCC), the G20, the Carbon Sequestration
Description:
Published
Description:
393-412
Description:
JCR Journal
Description:
reserved
Keywords:
Energy planning by underground use CO2/natural gas storage Deep geothermics Nuclear waste disposal
;
Sound energy-mix
;
Densely populated countries
;
05. General::05.02. Data dissemination::05.02.99. General or miscellaneous
Repository Name:
Istituto Nazionale di Geofisica e Vulcanologia (INGV)
Type:
article
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