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A master's thesis from Aalborg University
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INTEGRATING A PTX PLANT INTO AN INDUSTRIAL SYMBIOSIS USING HILLERØD AS A CASE STUDY

Author

Term

4. term

Education

Sustaianable Cities, Master

Publication year

2024

Submitted on

Pages

44

Abstract

This thesis examines the requirements of a Power-to-X (PtX) plant and how to source the inputs needed for electrolysis, using Hillerød as a case study. Framed by international, EU, and Danish climate targets, PtX is presented as a key enabler for decarbonizing hard-to-electrify sectors. The study applies document analysis, interviews, and GIS-based spatial analysis within a rational planning approach to assess local renewable energy availability, water supply, potential CO2 sources, district heating integration, and spatial needs. The analysis identifies an area south of Hillerød with strong links to local renewable generation, proximity to a wastewater treatment plant as a water source, and access to the district heating network, enabling the use of electrolysis waste heat. Inputs are sourced within and around the case area, which sets practical boundaries for plant capacity. Findings indicate that integrating the PtX plant into a local industrial symbiosis can lower transport costs, improve energy efficiency, and support sustainable fuel production.

Denne afhandling undersøger, hvilke krav et PtX-anlæg stiller, og hvordan de nødvendige input til elektrolyse kan skaffes, med Hillerød som casestudie. Med udgangspunkt i internationale, europæiske og danske klimamål beskrives PtX som et bindeled i den grønne omstilling for sektorer, der er vanskelige at elektrificere. Metodisk anvendes dokumentanalyse, interviews og GIS-baseret rumlig analyse inden for en rationel planlægningsramme til at vurdere lokal vedvarende energiproduktion, vandforsyning, potentielle CO2-kilder, fjernvarmetilkobling og arealbehov. Undersøgelsen identificerer et område syd for Hillerød med gode forbindelser til lokal VE-produktion, nærhed til et renseanlæg som vandkilde og adgang til fjernvarmenettet, så overskudsvarme fra elektrolyse kan udnyttes. Materialer og ressourcer søges i og omkring casens geografiske område, hvilket sætter rammer for anlæggets kapacitet. Resultaterne peger på, at en lokal industriel symbiose kan reducere transportomkostninger, forbedre energieffektiviteten og understøtte bæredygtig brændselsproduktion.

[This apstract has been generated with the help of AI directly from the project full text]

Keywords

PTX ; Industrial symbiosis ; Hillerød

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