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Modellering av oljeeldade värmeverk för undersökning om hur dessa påverkas vid byte från fossilt till förnyelsebart bränsle.

Ottosson, Caroline LU (2019) KETM05 20191
Chemical Engineering (M.Sc.Eng.)
Abstract
This report presents how a theoretical model of an oil-fired boiler is built. This model is built in one dimension and includes heat transfer due to convection and gas radiation from gas to a surface, conduction through a metal and convection from a surface to a liquid. The model is used to analyse how different oil fuels, both fossil and bio-based oils, affects the plant. With the assumptions and simplifications used in this model, no differences between given fuels are noted. The model is not suitable to use for analysing a specific boiler.
Regarding fossil oils versus bio-based oils it is noted that renewable oils result in a lower volume of exhaust fumes per kg fuel than the fossil oils. But the renewable oils have a lower heating... (More)
This report presents how a theoretical model of an oil-fired boiler is built. This model is built in one dimension and includes heat transfer due to convection and gas radiation from gas to a surface, conduction through a metal and convection from a surface to a liquid. The model is used to analyse how different oil fuels, both fossil and bio-based oils, affects the plant. With the assumptions and simplifications used in this model, no differences between given fuels are noted. The model is not suitable to use for analysing a specific boiler.
Regarding fossil oils versus bio-based oils it is noted that renewable oils result in a lower volume of exhaust fumes per kg fuel than the fossil oils. But the renewable oils have a lower heating value and thus requires more fuel for the same amount of energy. This leads to no major difference in flue gas volume per GW of energy. (Less)
Popular Abstract (Swedish)
Biooljor kontra fossila eldningsoljor i teoretisk modell av oljepanna
Vad händer ur ett energiperspektiv om man teoretiskt använder biooljor istället för fossila eldningsoljor i en oljepanna designad för spetslast i fjärrvärmenätet?
I dagens samhälle är intresset för att fasa ut den fossila oljan stort. Särskilt eftersom fossil eldningsolja i dagsläget ofta används för spets- och reservlastpannor inom el- och fjärrvärmeproduktion. Därför kan det vara tänkvärt att undersöka beteendet för de olika alternativen som finns till fossil eldningsolja i en modell av en oljepanna.
Please use this url to cite or link to this publication:
author
Ottosson, Caroline LU
supervisor
organization
course
KETM05 20191
year
type
H2 - Master's Degree (Two Years)
subject
keywords
Värmeverk, Förnyelsebart bränsle, Simulering, Hetvattenpanna, RME, TOP, Eldningsoljor, Kemiteknik, Chemical engineering
language
Swedish
id
8982610
date added to LUP
2019-07-04 13:02:29
date last changed
2019-07-04 13:02:29
@misc{8982610,
  abstract     = {This report presents how a theoretical model of an oil-fired boiler is built. This model is built in one dimension and includes heat transfer due to convection and gas radiation from gas to a surface, conduction through a metal and convection from a surface to a liquid. The model is used to analyse how different oil fuels, both fossil and bio-based oils, affects the plant. With the assumptions and simplifications used in this model, no differences between given fuels are noted. The model is not suitable to use for analysing a specific boiler.
Regarding fossil oils versus bio-based oils it is noted that renewable oils result in a lower volume of exhaust fumes per kg fuel than the fossil oils. But the renewable oils have a lower heating value and thus requires more fuel for the same amount of energy. This leads to no major difference in flue gas volume per GW of energy.},
  author       = {Ottosson, Caroline},
  keyword      = {Värmeverk,Förnyelsebart bränsle,Simulering,Hetvattenpanna,RME,TOP,Eldningsoljor,Kemiteknik,Chemical engineering},
  language     = {swe},
  note         = {Student Paper},
  title        = {Modellering av oljeeldade värmeverk för undersökning om hur dessa påverkas vid byte från fossilt till förnyelsebart bränsle.},
  year         = {2019},
}