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Summary Global Energy Politics | Lecture notes + knowledge clips + handbook (chapter 1-7) | Universiteit Gent | 2025/26

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Summary of all lessons, knowledge clips, and the textbook, covering Chapters 1–7 only (the remaining chapters are not included).

Institución
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Academiejaar 2025 -2026
Global energy politics
Professor Thijs Van De Graaf

I. General introduction global energy policy

Lesson 1 – 19/02 Introduction

Global Energy Politics
- What?
 Politics = not only activity of states, who gets what, when and how?
 Global = energy sector is international (20% of world trade),
dependencies (even producing countries rely on others, so no country is
autarky) (≠ sorts of oil)
 E.g. even US with the shale revolution needs other types of oil (e.g.,
link with military interventions in Venezuela)
 Broad conception of energy: the socio-technical system to transport and
convert energy sources and carriers into energy services. (See also
chapter 1)
 Layer 1: energy sources and carriers: primary energy sources
(available in nature e.g. wind, crude oil, uranium, … = needed to
produce energy carriers) - Energy carriers = secondary energy
sources: converted primary energy sources (e.g. electricity,
kerosine, biodiesel, hydrogen, …)
 Layer 2: energy service: there is no energy demand, but demand
for energy services: lighting, mobility, heating, … - importance of
prime movers (end-use technologies: cars, lamps, electric
appliances, …
 Layer 3: social infrastructure: GDP growth, laws and regulations
effecting energy (e.g. ETS), norms/culture/habits and values
- Other concepts
 Energy security = uninterrupted availability of energy sources at an
affordable price
 linked to energy sources and carriers
 Focus on supply security: extraction (e.g. oil fields, mines, solar
farms,…), conversion (e.g. power plants, refineries, …) and storage
and transport (e.g. pipelines, electric grid, tankers,…)
 Energy transition: switch to other energy resources (the transition
where in is not the first energy transition!)
 In the socio-technical system it’s not only change in
sources/carriers/technologies but also in social practices.
 Current transition: from fossil fuels to renewables: fossil fuel demand
is slowing down, but not the use + one of the fastest transitions:
broad policy support, cheaper, less energy insecurity (less
dependencies), climate change,…
 Some say there is no energy transition, only energy addition:
renewables growth to slow to overtake fossil fuels: so renewables or
added, but fossil fuel keeps on growing
 Sankey diagram: shows which resources are used for which set of
applications = energy flows: 3lessons showed
 1) Also shows rejected energy (see first law of thermodynamics) =
energy losses because of conversion (mostly heath loss while
burning fossil fuels + renewables are more efficient = less to none

, losses , also because they are free) – losses: important to take in
account when thinking about efficiency.
 2) Limited substitutability between ≠ sources: all have their own
end-use (and will unlikely change role) = ≠ politics/policies for ≠
sources.
 3) end-user sectors are very important in the energy transition: in
the transition also industry, commercial buildings, habits, … must
change.
 Interaction of energy system and our society: security, economy,
environment and justice
 Trilemma: reaching all goals together is not possible
 Justice mostly overlooked (not in this course)

Chapter 1: Introduction: systems, frames and transitions (Handbook)

1. Introduction
Energy = single largest source of greenhouse gas (GHG) emissions
- Energy affects: personal life, climate (natural ecosystem), societies (and
shapes them), economies and politics
- Energy = strategic good + main driver of wealth and power in politics (=
distributional consequences)

Study of global energy politics (in this course): studying the struggles of: who
gets what, when and how in energy use and production from an international
perspective.
- = providing overview of main concepts and approaches
- Via socio-technical system and contested frames
 Socio technical system= infrastructures that deliver energy in broad
sense: technical, resources, user practices, cultural meaning,
institutions and supply network. More than only energy security + more
than only oil and natural gas (e.g. renewable energy)
 Contested frames: ≠ stakeholder views over ≠ energy systems (=
own ideology, world views, interests, …): e.g. liberal market,
egalitarianism, …

2. A critical juncture in energy politics
Some ‘history’
- Transitions: traditional biomass -> coal -> oil -> natural gas -> nuclear ->
renewables
 Loss of market share ≠ growth in absolute terms
- Fossil era: wealth ↗, population ↗, global production ↗ over last 200 years
 Exploiting fossil fuel = transformed human society, cultural values ;
making them more democratic and less violent BUT today we see the
growing imprints of this acceleration; planetary boundaries.
 Fossil fuel today = 80% of worldwide primary energy consumption (oil
= supreme)
 Advantages: high energy densities (oil), easy transport/store (coal
and oil), versatile in application, relatively cheap (cheap:
environmental and health cost/impact not well calculated in price)
 Disadvantages: pollution, geographically concentrated (impact on
energy security for importing countries)
- Renewables = among fastest-growing

,Today: Four big transformations (that will change production/consummation,
but also societies, economies and political systems)
- (1) Climate change
 Burning of fossil fuel as the main culprit (80% of carbon dioxide
emission) = climate change is a energy problem
 Fossil fuel also key source for other greenhouse gas e.g. methane
- (2) Rise of China
 China: biggest energy consumer, biggest greenhouse gas emitter and
biggest producer of renewables.
 They set the shape of the market (not only in energy)
 Emerging powers like India, Brazil are becoming important engines in
energy demand growth (and China provides?) = world economy is
shifting from West to East
- (3) Renewable energy
 Special in this shift: renewable sources are not geographically
concentrated (almost every country has something) and it cannot be
exhausted
 Lend them self-better to decentralized forms of production and
consummation
 Advantages: zero marginal cost, and some enjoy cost reduction
 Demands deep transformation of the energy system including trade
patterns, political authority and decentralisation.
- (4) Eradication of energy poverty
 Some places still don’t have access to electricity or clean cooking
facilities = mostly overlooked in standard global energy security
accounts

3. The scope and approach of this book

The analytical approach in this book:
- Looking at energy politics in a 3 way relationship: (1) the word system
(including the 4 transitions), (2) relations between countries and (3)
domestic energy politics and governance.
- Focus on supply and demand infrastructure, social context, primary
resources (oil and gas) and prime movers (e.g. households, cars,..) , built
environment and political and culture elements.
 ≠ standard IR approaches (realist and neo-realist thinking) = oil and
gas as power and vulnerabilities
- Energy system seen through 4 archetypical frames: (1) neo-mercantilism,
(2) market liberalism, (3) environmentalism and (4) social justice (see
further on)
 Archetypical frames = guiding worldviews with own problem
definition, ideology, remedy,…

4. The science of energy

Energy
- In general
 Energeia = activity in word (Aristoteles) = process of producing change
(e.g. temperature) in a effected system (e.g. a machine, the globe).
 Energy comes in many forms = heat, motion, light and chemical
energy of fuels and food.
- Energy can be converted from one into another = two laws of
thermodynamics

,  1) law of conservation = total amount of energy stays constant = no
energy is lost or disappears (it can only be converted)
 2) law of entropy = energy is converted, but it becomes less useful =
all processes of conversion are irreversible = there will always be
inefficiency losses in energy exchanges/conversion (e.g. heat loss)
 Loss = cannot be used for intended purpose
- Energy and the metric system (! see book page 10-11)
 ≠ basic units of energy (e.g Joule, Kilowatt-hour, ..)
 Electricity industry = own vocabulary, distinction between power and
energy
 Power (Watt W): definition of power uses time, about the rate with
which we use to produce power
- Distinction between primary resources (= nature e.g. crude oil + can be
renewable e.g. wind or non-renewable e.g. hard coal) and energy carriers
(have to be produced e.g. electricity, hydrogen, ..)

5. Analytical framework:
Analytical framework = making sense of global energy politics because: ≠ actors,
≠sectors, ≠ sources an intertwined with ≠ issues.

Pillar 1 (analytic framework : A systems perspective on energy
Energy system = socio-technical system to transport and convert energy
sources and carriers info energy services
- Energy sources (primary) and carriers: energy sources must be
transported and conversed to energy carriers
 In the conversion process energy is lost (= rejected energy) e.g. heath
loss when fossil fuels are burned
- Energy services: there is no demand for energy, people want the
services that energy can deliver = this shifts attention to the demand side
and prime movers
 Services: e.g. cooking, lighting, mobility, ….
 Prime movers = conversed energy sources and carriers into useful
energy services. E.g. cars, fridge, laptop, gas boilers, …
- Social technical system: there is more than the technical side (demand
and supply) = policies and regulation (e.g. subsidies, standards? ETS,…),
economic structures (e.g. globalisation, export les-growth, living standards,
…), production (e.g. oil companies, OPEC,…), infrastructure (e.g. petrol
stations, boilers, …), culture, habits, norms,.. .

Systeme thinking = identifying the interactions between elements of a whole
system
Energy system = 3 layered system
- (1) supply infrastructure = primary and secondary energy resources,
conversion system, transportation, mining and material inputs,
infrastructure that convert primary resources (e.g. petroleum stations and
gas refineries) and distribution lines.
- (2) demand infrastructure: end-use prime movers (e.g. cars), built
environment (e.g. design of a car)and energy consumption use or practice
(e.g. consumption patterns).
 Prime movers = technology that convert primary and secondary fuels
into usable energy services.
 Important to take demand infrastructure in account: energy transition
change the whole supply chain but also on the demand side

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Subido en
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