Distributed generation for waste heat utilisation and industrial symbiosis at Zigrid AB. : A case study on the Alby hydrogen project in Ånge, Sweden

Abdlla, Hamodi, Eshete, Helen

January 2023

This thesis investigates the potential utilisation of Zigrid’s distributed power modules for waste heat utilisation and electricity production within an industrial cluster. The study examines generated waste heat from a hydrogen production plant with a PEM electrolyser and Zigrid’s innovative energy generation capabilities. Furthermore, the study investigates changes in the value chain within the industrial cluster when integrating Zigrid’s power modules as a cooling technique and thereby replacing cooling towers. This integration offers various potential avenues for the excess waste heat, such as electricity production and district heating. An in-depth economic evaluation was performed, weighing the cost-effectiveness of Zigrid's power modules against traditional cooling towers. The economic assessment includes the Levelized Cost of Electricity (LCOE) for locally produced electricity and showcase the potential savings by reducing dependence on the grid. Furthermore, the study also highlights the potential benefits of harnessing Sweden's waste heat, forecasting Zigrid's prospective contribution to local electricity generation and substantial economic efficiencies.  The study's findings underscore the viability of Zigrid's power units in increasing local electricity generation, curbing emissions, enhancing grid stability, and fostering sustainable practices within industrial clusters. / Denna avhandling undersöker potentialen för användning av Zigrids distribuerade kraftmoduler för utnyttjande av spillvärme och elproduktion inom ett industriellt kluster. Studien granskar genererad spillvärme från en väteproduktionsanläggning med en PEMelektrolysör och Zigrids innovativa energiproduktionsförmåga. Vidare undersöker studien förändringar i värdekedjan inom det industriella klustret när Zigrids kraftmoduler integreras som en kylteknik och därmed ersätter kyltorn. Denna integration erbjuder olika potentiella vägar för överskott av spillvärme, såsom elproduktion och fjärrvärme. En djupgående ekonomisk utvärdering genomfördes, där kostnadseffektiviteten hos Zigrids kraftmoduler jämfördes med traditionella kyltorn. Den ekonomiska bedömningen inkluderar den nivåbaserad elkostnaden (LCOE) för lokalt producerad elektricitet och visar de potentiella besparingarna genom att minska beroendet av elnätet. Vidare belyser studien också de potentiella fördelarna med att utnyttja Sveriges spillvärme och förutspår Zigrids framtida bidrag till lokal elproduktion och betydande ekonomisk effektivitet. Studiens resultat understryker Zigrids kraftenheters livskraftighet för att öka lokal elproduktion, minska utsläpp, förbättra nätstabiliteten och främja hållbara metoder inom industrikluster.

Distributed power generation

industrial symbiosis

green hydrogen production

waste heat utilisation

distributed generation

PEM electrolyser

sustainable energy

renewable energy

Distribuerad kraftproduktion

industriell symbios

produktion av grön vätgas

användning av spillvärme

distribuerad generation

PEM-elektrolysör

hållbar energi

förnybar energi.

Engineering and Technology

Teknik och teknologier

Hydrogen Production and Storage Optimization based on Technical and Financial Conditions : A study of hydrogen strategies focusing on demand and integration of wind power. / Optimering av vätgasproduktion och lagring utifrån tekniska och ekonomiska förutsättningar : En studie av vätgasstrategier med fokus på efterfrågan och integration av vindkraft.

Langels, Hanna, Syrjä, Oskar

January 2021

There has recently been an increased interest in hydrogen, both as a solution for seasonal energy storage but also for implementations in various industries and as fuel for vehicles. The transition to a society less dependent on fossil fuels highlights the need for new solutions where hydrogen is predicted to play a key role. This project aims to investigate technical and economic outcomes of different strategies for production and storage of hydrogen based on hydrogen demand and source of electricity. This is done by simulating the operation of different systems over a year, mapping the storage level, the source of electricity, and calculating the levelized cost of hydrogen (LCOH). The study examines two main cases. The first case is a system integrated with offshore wind power for production of hydrogen to fuel the operations in the industrial port Gävle Hamn. The second case examines a system for independent refueling stations where two locations with different electricity prices and traffic flows are analyzed. Factors such as demand, electricity prices, and component costs are investigated through simulating cases as well as a sensitivity analysis. Future potential sources of income are also analyzed and discussed. The results show that using an alkaline electrolyzer (AEL) achieves the lowest LCOH while PEM electrolyzer is more flexible in its operation which enables the system to utilize more electricity from the offshore wind power. When the cost of wind electricity exceeds the average electricity price on the grid, a higher share of wind electricity relative to electricity from the grid being utilized in the production results in a higher LCOH. The optimal design of the storage depends on the demand, where using vessels above ground is the most beneficial option for smaller systems and larger systems benefit financially from using a lined rock cavern (LRC). Hence, the optimal design of a system depends on the demand, electricity source, and ultimately on the purpose of the system. The results show great potential for future implementation of hydrogen systems integrated with wind power. Considering the increased share of wind electricity in the energy system and the expected growth of the hydrogen market, these are results worth acknowledging in future projects.

Hydrogen

hydrogen energy system

hydrogen production

hydrogen storage

large-scale storage

underground storage

vessels

LRC

hydrogen application

hydrogen strategies

hydrogen transition

offshore wind energy

electricity grid

electricity price

volatile electricity prices

renewable energy

hydrogen refueling station

hydrogen port

green hydrogen

hydrogen trucks

hydrogen forklifts

fuel cells

electrolysis

alkaline electrolyzer

PEM electrolyzer

levelized cost of hydrogen

LCOH

Vätgas

vätgassystem

vätgasproduktion

vätgaslagring

storskalig vätgaslagring

bergrum

vätgasapplikationer

vätgasstrategi

vätgasomställning

grön omställning

havsbaserad vindkraft

volatila elpriser

elnätet

förnybar energi

vätgastankstation

vätgasmack

vätgashamn

grön vätgas

vätgaslastbilar

vätgastruckar

bränsleceller

elektrolys

alkalisk elektrolysör

PEM elektrolysör

Elektroteknik och elektronik