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Rethinking Capacity Development in Energy Modeling: Integrating Local and Indigenous Knowledge Systems in Transboundary Contexts

The objective of this thesis is to explore existing tools and frameworks for integrating local and indigenous knowledge systems into capacity development interventions in energy modeling and long-term energy planning. It aims to devise a strategy that fosters the decolonization of these programs, enhancing their relevance and impact in transboundary contexts, particularly within the AU-EU partnership on climate change action and energy systems transformation.

Background

This proposed MSc thesis project is part of the RE-INTEGRATE Project, funded by the European Union, which focuses on Integrated Energy Assessment Modeling. A key aspect of this larger project is assessing capacity development programs targeting energy modeling, particularly those led by the EU and implemented through the African Union. A core aspiration of the RE-INTEGRATE project is to integrate local and indigenous knowledge from African Union partner countries into energy-economy-environment models. This integration is crucial for ensuring that these models, which assess climate-compatible energy strategies, can generate actionable evidence for decision-making within the AU-EU partnership on Climate Change and Sustainable Energy, while also contributing to the broader dialogue on decolonizing education and capacity development in a transboundary context.

Decolonial critiques of knowledge production emphasize the importance of creating capacity development programs that are responsive to local contexts. These critiques highlight the need to move beyond one-size-fits-all models of training and knowledge production and transfer, especially in areas like energy planning, where local knowledge systems and priorities can significantly impact the success and sustainability of long-term transitions. In the context of energy modeling, ensuring that tools and training programs are adapted to the socio-cultural and epistemological realities of local communities is critical for their effective uptake.

This proposed MSc thesis project seeks to address these challenges above by exploring ways to integrate decolonial approaches into capacity-building efforts for energy modeling, particularly in collaboration with African partners. By focusing on the intersection of indigenous knowledge systems and energy planning, the project aims to develop strategies that can enhance the cultural relevance and practical utility of modeling tools, ultimately contributing to a more inclusive and sustainable energy transition.

Moreover, the Division of Energy Systems at KTH has long been engaged in various capacity-building initiatives, including the Energy Modeling Platform for Africa and the Energy Modelling Platform - Joint Global Training School. This proposed MSc thesis project has the potential to inform and potentially reshape these programs, creating opportunities to drive meaningful and impactful change in the field of energy modeling.

Task description

The student is encouraged to take an interdisciplinary approach to their research while having the flexibility to tailor the study toward their specific interests. Potential tasks may include, but are not limited to:

  • Review existing literature on decolonizing capacity development in energy modeling, focusing on identifying the essential components that contribute to the success of such programs.

  • Assess current capacity development programs in energy modeling, particularly initiatives in the different contexts of the African Union (AU), with attention to integrating local and indigenous knowledge systems and the influence of different knowledge systems on energy choices.

  • Investigate the documented relationship between decolonization and energy modeling, exploring epistemological considerations such as the role of diverse knowledge systems in learning, data dependencies, and priority-setting in energy decisions.

  • Propose recommendations for advancing capacity development initiatives that not only focus on technical skills like data analysis and modeling but also foster critical thinking, enabling participants to engage critically with diverse energy challenges.

Learning outcomes

The student will gain experience in a multidisciplinary context, connecting capacity development, energy modeling, and transboundary collaboration theoretical frameworks and practitioners perspectives. They will also learn how to synthesize tools and frameworks for science-diplomacy work that have practical applications beyond the academic sphere.

Upon completion of the thesis work, the student will be able to:

  • Evaluate the effectiveness of existing capacity-building programs in energy modeling, particularly in transboundary contexts, through the lens of decolonization and epistemological diversity.

  • Analyze the impact of incorporating diverse knowledge systems on decision-making processes in energy modeling, especially concerning data dependencies and alternative energy future visions.

  • Critically assess the role of decolonization in shaping capacity development programs, emphasizing the development of both technical and critical thinking skills.

  • Propose strategies for embedding decolonization principles into future capacity-building programs and educational tools, contributing to more inclusive and effective transboundary energy modeling initiatives.

Criteria for evaluation

Throughout the entire thesis project work and method development, key metrics for the final assessment include:

  • Fulfillment of the Intended Learning Outcomes (ILOs) for the Master Thesis at KTH’s ITM School.

  • Demonstration of the student's initiative and customization of research questions.

  • A critical perspective, system-thinking, and discussion of relevant aspects.

  • Consideration and appropriate utilization of existing literature.

  • Capacity to synthesize and communicate the research in a well-written, concise, and proficiently articulated thesis report

Prerequisites

  • Familiarity with long-term energy planning and policy, and energy modeling tools

  • Basic understanding of capacity development and strengthening activities and frameworks in transboundary contexts.

  • Interests in decolonizing methodologies and their application in capacity-building programs and decolonial critiques of knowledge production.

  • Basic understanding of indigenous knowledge systems into existing frameworks for energy assessment and sustainability practices.

  • Basic knowledge of qualitative methodologies and methods.

Track Specialization

Transformation of Energy System (TES)

Division/Department

Division of Energy Systems – Department of Energy Technology

Research areas

  • Integrated Climate, Land, Energy and Water Systems

  • Science-Policy-Society Interactions

Duration

6 months

The thesis is to start at the beginning of period 3, at the end of January or early February 2025.

How to apply

Send an email to marynah@kth.se expressing your interest in the topic and your CV to the supervisors. Candidates should highlight any relevant experience in renewable energy technologies, sustainability, or business model analysis.

Supervisor

Francesco Gardumi
Francesco Gardumi forskare

Examiner

Maryna Henrysson
Maryna Henrysson forskare, universitetslektor bitr
Net Zero Energy Design for Data Centers: A Multidisciplinary Approach (Competition)
Development of a Computational Tool for Evaluating Energy Storage Installations in the Swedish Electricity Market
Predicting Occupant Behavior in Fully Automated Energy Communities
Feasibility study on Component Test Bed for Cryogenic Renewable Fuels (CTB-cryo)
Techno-economic analysis and experimental pre-study of hydrogen production with improved catalytic process
Optimal control of networks of borehole heat exchangers with machine learning
CFD analysis of an air-based waste heat recovery solution for telecommunication base stations
Experimental analysis of waste heat recovery systems for telecommunication base stations
Safe Use of Flammable Refrigerants: Evaluating Refrigerant Leakage Flow Rate in Small Heat Pumps
Development of AI-Based Data-Driven Aging Model for Li-Ion Batteries
Investigations on heat-transfer in a rotating heat-pump
Numerical Simulations of a supersonic multiphase ejector for high-temperature heat-pumps
Sodium-Ion Batteries: Building the Foundation for a Greener Future via Life-Cycle Assessment and Techno-Economic modelling
Development of compact I-V curve tracer and load simulator for photovoltaic laboratory test rig
Development of remotely accessible battery laboratory exercise test rig
Experimental investigation of the flow dynamics in moving bed heat exchanger for powder particles
Experimental investigation of vertical electric heater for powder particles for CSP applications and energy storage
Investigation of usage of different methane fuel qualities for rocket engines with respect to the pyrolysis stability
CFD based design study of heat exchangers for high temperature heat pump applications.
Biogaslagring/optimering för minskat beroende av råolja
Refurbishment Strategy Based on Smart Radiator Controllers
Solar Photovoltaic-Thermal Integration with Ground Source Heat Pump Systems for Single-Family Houses
Integration of Solar Photovoltaic-Thermal (PVT) Collectors in District Heating Networks
Heat Propagation in High-Temperature Geothermal Wells
Experimental evaluation of advanced features of a modern heat pumping system
Energy use optimization of vertical farming systems
Rethinking Capacity Development in Energy Modeling: Integrating Local and Indigenous Knowledge Systems in Transboundary Contexts
Optimizing Waste Treatment Pathways for Sustainable District Heating Development: Integrating Material Flow and District Heating Models in OSeMOSYS
Evaluation of Direct and Indirect Methods for Occupancy Detection and Air Quality Control in Buildings
Data-driven Analysis of Building Energy Performance Using Boverket Energy Declarations and real-time data
Social Life-cycle impact assessment of innovative cascade PCM based thermal energy storage solutions
Water Demand Forecasting from Multipurpose Reservoirs in Cochabamba, Bolivia, to 2050: A Sustainable Energy Perspective
Electrification of the heating sector in Europe
Safe use of flammable refrigerants-literature review
Safe use of flammable refrigerants-Modeling concentrations of the leaked refrigerants in case of accidental emissions in different scenarios
Boiling inside rectangular microchannels: Investigating the use of high-speed IR camera for temperature readings
Characteristics and kinetic study on catalytic and non-catalytic pyrolysis of PVC and wind blades in molten salts via thermogravimetric analysis
Characterization of Phase Change Materials for a real Thermal Energy Storage Application
Predictive model control design for a small-scale steam engine based multi-source CHP system
Solar hydrogen production by photocatalytic reforming of cellulose with concentrated sunlight
Circularity of batteries
Kartläggning och Optimering av kyla på KTH Campus
Battery application in harbour environment
Empowering the Future: Innovating Sustainable Energy with Digital Heat Pump Solutions
Optimizing Energy Performance in Existing Urban Building Stocks: A Comprehensive Analysis and Strategic Approach for Sustainable Operation
Techno-economic and feasibility assessment for nuclear plants combination with CO2 sequestration and green fuels production units
Techno-economic and feasibility assessment for nuclear plants integration in flexible future energy systems for grid balancing and ancillary services
Analysis of Residual Resources
Life-cycle impact assessment of innovative cascade PCM based thermal energy storage solutions
Techno-economic assessment and optimization of seasonal thermal energy storage in district heating networks
Final Commissioning and Experimental Performance Characterization of a Bench-scale Thermochemical Heat Storage System (SEU/SPG)
Renewables and Demand Side Management
Circularity measurement for automotive industries
Experimental Investigation of Optimal Flow in Borehole Heat Exchanger at KTH Live-in Lab
Low Global Warming Potential Refrigerants for high temperature heat pumps
Development of battery test rig: Remote Battery Lab
Comparative analysis of thermal storage options for industrial steam generation in a solar thermal integrated system
Development, Implementation & Evaluation of an optimized operation algorithm for a Li-Ion battery Energy Management System (EMS) at Tezpur University
De-icing of trains in a Nordic climate
Calibration of a measurement system for methane pyrolysis detection in rocket nozzles
Experimental study on the effect of rocket nozzle wall materials on the stability of methane
Examensarbete om vattenflöden för bostäder
Evaluating the potential of energy efficiency improvement in combined cycle power generation to minimize the CO2 footprint in the context of Sri Lanka
Smart and Sustainable Oskarshamn: Energy Management and urban system analysis
Aqueous ammonia in refrigeration applications
Photovoltaic system design, installation and performance evaluation: PV Lab test rig
Ground source heat pumps in densely populated areas - a techno-economic study
Replacement of old ground-source heat pumps – a techno-economic study
PV-ESS system optimization to maximize self-consumption of PV-generated in KTH live-in lab
Environmental assessment of SESS applications based on cradle to grave LCA
High and low temperature electrolysis integration in Combined Cycles
Novel solar technologies and SOEC integration for synthetic fuels
Digitalization of HVAC schema drawings
Development & implementation of an improved operation algorithm for a Li-Ion battery energy management system (EMS) at Tezpur University
Techno-economical analysis of large refrigeration systems - operational and maintenance strategies
Comparision of high fidelity and real-time CFD methods for simulating thermal comfort
Data driven heat pump models for generation of electrical load profiles at DSO level
Master thesis at Bosch Thermoteknik
EPIC Africa CLEWs assessment supporting Burkina Faso’s development plans
Using machine learning to spatially classify current technologies used for cooking in developing countries
Accounting for affordability constrains in geospatial modelling of clean cooking access
Rethinking Capacity Development in Energy Modeling: Integrating Local and Indigenous Knowledge Systems in Transboundary Contexts
Optimizing Waste Treatment Pathways for Sustainable District Heating Development: Integrating Material Flow and District Heating Models in OSeMOSYS
Enhancing Socio-Economic Impact Assessment in Climate-Compatible and Self-Sufficient Rural Communities through Integrated Resource Optimization Models
Climate impact of renovation projects in the built environment– zooming in on technical installations