deep geothermal technology roadmap: structure and content · results of the consultation: sc...
Post on 22-Jul-2020
2 Views
Preview:
TRANSCRIPT
Deep Geothermal Technology Roadmap: Structure and content
Co-funded by the European Union's Horizon 2020 Research and Innovation Programme [GA. N. 773392]
Primary objectives of ETIP-DG
Stakeholders agree on a
common Vision
Stakeholders define a SRA setting out the
necessary medium-to long term objectives for
RD&I
Stakeholders describe a Roadmap to
implement the SRA with the mobilisation of significant human
and financial resources
3
Summary of key aspects
▪ The Vision and SRA express our targets and R&D needs.
▪ The Implementation Roadmap describes how we plan to achieve the targets: activities and projects
▪ Give priority to R&I topics
▪ Draw support from a range of financial sources (not only Horizon Europe).
4
Summary of key aspects
▪ Define technology objectives: power & heat
▪ Estimate their costs
▪ Present indicative key performance indicators quantitative : technology cost reduction, improve efficiency & lifetime, upscaling +qualitative: acceptance, sustainability
▪ Funding repartition at EU, National levels and industry contribution
▪ Draw a flowchart 2020-2030
5
Novel technologies for full and responsible deployment of geothermal potential
> Technologies beyond H2020
> While targeting the EU long-term goal of reducing costs and increase performance of geothermal technologies and installations, RD&I pursue all opportunities for complete deployment of geothermal resources, aiming at various advancements
4.
From R&I to deployment and Knowledge sharing
5.
Mission and Next generation of technologies
1.
Prediction
and
assessment
of
geothermal
resources
2.
Resource
access and
development
3.
Heat and
electricity
generation
and system
integration
FULL AND RESPONSIBLE DEPLOYMENT OF GEOTHERMAL POTENTIAL
Objectives of the WGs for the Roadmap
Objectives of the WGs for the Technology roadmap
• Phase 1 (January 2019 - March 2019): Collect data and discuss
RD&I priorities for the relevant theme of the WG, taking the
SRA as a basis.
• Phase 2 (March 2019 - April 2019): SC prepare a list of topics
to be included in the Roadmap. Questionnaire
• Phase 3 (May-June 2019). Validation of the Roadmap during an
open consultation process and publication.
Table of Content (Roadmap)
Executive SummaryIntroduction The context: EU, Vision, SRIA The targets and KPIsMISSION OBJECTIVES:
• ‘unlocking’ GT energy 1. Better Prediction and assessment of geothermal resources2. More efficient Resource access and development3. Deploy Heat and electricity generation and system integration
• improving social welfare1. From R&I to deployment2. Knowledge sharing
Financing the roadmap
Results of the Consultation: SC ETIP-DG
Topic 1: Improved
exploration prior to
drilling
Topic 2: Advanced
investigation and
monitoring technology
Topic 3: Exploration
workflows - Conceptual
models, reservoir
characterisation,
performance and
decision models
Topic 4: Exploration
catalogues – Reservoir
analogues, rock
properties and model
constraints
Topic 5: Assessing
resource potential
Topic 6: Beyond
conventional resources
0,00%
10,00%
20,00%
30,00%
40,00%
50,00%
60,00%
70,00%
80,00%
90,00%
100,00%
Level of priority
High priority
Medium priority
Low priority
Priorities for PREDICTION AND ASSESSMENT OF GEOTHERMAL RESOURCES
0,00%
10,00%
20,00%
30,00%
40,00%
50,00%
60,00%
70,00%
80,00%
Priority timeline
Short term (2020-2023)
Medium term (2023-2026)
Long term (2026-2030)
Merge 1 & 2 + topics 1&5 from chapter 2
Merge 3 & 4
Highlight 5 as main priority
Put 6 at LT
Improve accuracy and reliability
and reduce the cost of survey-
based and downhole exploration
technologies
Improve analytical models and
energy production forecasting
and increase imaging capacity
while characterising underground
geological, physical and chemical
properties throughout the life of
geothermal projects European
Technology and Innovation
Platform
Minimise the uncertainty
associated with geothermal
energy by increasing the
probability of discovering
productive (i.e. fluid-filled)
fractures and faults to be used as
drilling targets
Improve resource and
uncertainty reporting protocols,
contributing to transparent and
harmonised methods and
instruments for technical and
financial risk management,
increased transparency for
stakeholders, better assessment
of energy stocks across Europe
Investigate and characterise
unconventional geothermal
resources
1,9
2
2,1
2,2
2,3
2,4
2,5
Targets for PREDICTION AND ASSESSMENT OF GEOTHERMAL RESOURCES
Weighted Average
Priorities for RESOURCE ACCESS AND DEVELOPMENT
0,00%10,00%20,00%30,00%40,00%50,00%60,00%70,00%80,00%90,00%
100,00%
Level of priority
High priority
Medium priority
Low priority
0,00%
20,00%
40,00%
60,00%
80,00%
100,00%
120,00%
Priority timeline
Short term (2020-2023)
Medium term (2023-2026)
Long term (2026-2030)
Topic 8: main priority
Topic 4 & 9: also important, combined ?
Topic 2, « 7 » and 11: 3rd level of priority
Topic 5 goes to chapter 1
Topic 1 goes to chapter 1
Topic 3 to merge with 4&9
Topic 7
Topic 10
Achieve cost reduction
in resource access
through the use of
unconventional
resources, EGS, and/or
hybrid solutions
coupling geothermal
with other renewable
energy sources by
developing improved
or new ways of drilling
deep geothermal wells
(faster drilli
Improve and
standardise drilling
technology and well
completion in order to
ensure well integrity
during drilling and
exploitation
Achieve cost reduction
in O&M (Improving
overall plant efficiency,
including wells, pumps,
pipelines and plant
equipment; Reducing
the downtime of
geothermal plants due
to scaling or corrosion,
equipment
replacement or
cleaning; Increasing the
lifetime of
Improve and
standardise installation
and assembly methods
Improve environmental
performance and
mitigate unsolicited
side effects (induced
seismicity, emissions
into the environment)
Improve energy yield
through improved
hydraulic connection
to the reservoir,
increase reservoir
performance and
enhance O&M
procedures
Increase or extend the
lifetime of plants and
develop streamlined
end-of-life strategies
0
0,5
1
1,5
2
2,5
3
Targets for RESOURCE ACCESS AND DEVELOPMENT
Weighted Average
Priorities for HEAT AND ELECTRICITY GENERATION AND SYSTEM INTEGRATION
0,00%
10,00%
20,00%
30,00%
40,00%
50,00%
60,00%
70,00%
80,00%
Level of priority
High priority
Medium priority
Low priority
0,00%10,00%20,00%30,00%40,00%50,00%60,00%70,00%80,00%90,00%
100,00%
Priority timeline
Short term (2020-2023)
Medium term (2023-2026)
Long term (2026-2030)
Topic 1: main priority, merge with topic 2&
3 ?
Topic 5:
Topic 6:
Topic 7
Topic 8
Topic 9 > mission
Increase efficiency and reduce losses and
internal consumption as part of energy
conversion processes
Improve the reliability and durability
(resistance to corrosion, abrasion) of
surface system equipment
Reduce the overall cost of heat and
power generation
Adapt plants to be base load and
dispatchable in order to facilitate larger
shares of renewables in the energy system
and improve integration of geothermal
energy through an enhanced interaction
with energy storage, demand response
and smart interconnecti
2
2,1
2,2
2,3
2,4
2,5
2,6
Targets for HEAT AND ELECTRICITY GENERATION AND SYSTEM INTEGRATION
Weighted Average
Technology Roadmap 2013-2020
Budget overview to implement the geothermal’s SRA between
2014 and 2020
The total amount of R&D money
spent by industry within Horizon
2020 (2014-2020):
Around
400 Mio
EUR
Horizon 2020 and member states Around
740 Mio
EUR
Total R&D investment needed
between 2014 and 2020:
1140 Mio
EUR
Implementation
Roadmap 2020
Status 2018
Budget Industry: ca 400€mio
Public (regional, national
and European): ca 740
€mio
H2020:
- EU – contribution: 160,675
€mio
- Private contribution: 85 €mio
Geothermica (ERANET): 50mio€,
half public and half private funding
around 300 €mio
+ Industry, regional and other
national instruments
Number of
projects
32 on deep GT
30 on shallow GT
= a total of 62 projects co-
funded by public money
36 projects co-funded by public
money from H2020 calls on
RES&EE, Industrial leadership ;
from SME-instrument; from
INTERREG and ERASMUS+.
The sole responsibility of this publication lies with the author. The European Union is not responsible for any use that may be made of the
information contained therein. This project has received funding from the European Union's Horizon 2020 research and innovation
programme under grant agreement No [773392 — DG ETIP]
top related