Accelerator mass spectrometry for tracing fossil carbon content of combusted fuel

Kenichiro Mizohata; Kerttuli Helariutta; Juho Kauppinen; Mikko Lappalainen; Tuula Pellikka; Markku Oinonen

doi:10.1016/j.apradiso.2025.111996

Accelerator mass spectrometry for tracing fossil carbon content of combusted fuel

Kenichiro Mizohata
, Kerttuli Helariutta^*
, Juho Kauppinen (Contributor)
, Mikko Lappalainen (Contributor)
, Tuula Pellikka (Contributor)
, Markku Oinonen (Contributor)

^*Corresponding author for this work

BA4707 Carbon-efficient industry

University of Helsinki

Research output: Contribution to journal › Article › Scientific › peer-review

1 Citation (Scopus)

Abstract

Fossil CO2 emission inventory from waste incineration plants needs to be determined for the purpose of emission trading in the future. A fundamental method for this is to measure the 14C content of the exhaust gas using accelerator mass spectrometry (AMS) and deduce fossil/biofraction from it. Conventionally, the CO2 in the sampled exhaust gas has been graphitized for the AMS measurement. In this work we have tested a method where the sample is fed to the AMS system in gas form, without the extra graphitizing step. The sample gas storage and feeding system of Helsinki Accelerator Laboratory is represented along with the results obtained in the test with flue gas samples from test combustion facility. The results show that that the analysis of biofraction of combusted fuels is possible in feasible, reproducible and accurate ISO13833 standard compliant way with the tested method.

Original language	English
Article number	111996
Journal	Applied Radiation and Isotopes
Volume	225
DOIs	https://doi.org/10.1016/j.apradiso.2025.111996
Publication status	Published - Nov 2025
MoE publication type	A1 Journal article-refereed
Event	2nd Applied Nuclear Physics Conference, ANP 2024 - Thessaloniki , Greece Duration: 22 Sept 2024 → 27 Sept 2024

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 12 Responsible Consumption and Production
SDG 13 Climate Action

Keywords

Accelerator mass spectrometry
Biofraction
Carbon isotopes
Emission trading
Gas AMS
Radiocarbon

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10.1016/j.apradiso.2025.111996Licence: CC BY

Cite this

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title = "Accelerator mass spectrometry for tracing fossil carbon content of combusted fuel",

abstract = "Fossil CO2 emission inventory from waste incineration plants needs to be determined for the purpose of emission trading in the future. A fundamental method for this is to measure the 14C content of the exhaust gas using accelerator mass spectrometry (AMS) and deduce fossil/biofraction from it. Conventionally, the CO2 in the sampled exhaust gas has been graphitized for the AMS measurement. In this work we have tested a method where the sample is fed to the AMS system in gas form, without the extra graphitizing step. The sample gas storage and feeding system of Helsinki Accelerator Laboratory is represented along with the results obtained in the test with flue gas samples from test combustion facility. The results show that that the analysis of biofraction of combusted fuels is possible in feasible, reproducible and accurate ISO13833 standard compliant way with the tested method.",

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author = "Kenichiro Mizohata and Kerttuli Helariutta and Juho Kauppinen and Mikko Lappalainen and Tuula Pellikka and Markku Oinonen",

note = "special issue -> A4; 2nd Applied Nuclear Physics Conference, ANP 2024 ; Conference date: 22-09-2024 Through 27-09-2024",

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doi = "10.1016/j.apradiso.2025.111996",

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AU - Mizohata, Kenichiro

AU - Helariutta, Kerttuli

A2 - Kauppinen, Juho

A2 - Lappalainen, Mikko

A2 - Pellikka, Tuula

A2 - Oinonen, Markku

N1 - special issue -> A4

PY - 2025/11

Y1 - 2025/11

N2 - Fossil CO2 emission inventory from waste incineration plants needs to be determined for the purpose of emission trading in the future. A fundamental method for this is to measure the 14C content of the exhaust gas using accelerator mass spectrometry (AMS) and deduce fossil/biofraction from it. Conventionally, the CO2 in the sampled exhaust gas has been graphitized for the AMS measurement. In this work we have tested a method where the sample is fed to the AMS system in gas form, without the extra graphitizing step. The sample gas storage and feeding system of Helsinki Accelerator Laboratory is represented along with the results obtained in the test with flue gas samples from test combustion facility. The results show that that the analysis of biofraction of combusted fuels is possible in feasible, reproducible and accurate ISO13833 standard compliant way with the tested method.

AB - Fossil CO2 emission inventory from waste incineration plants needs to be determined for the purpose of emission trading in the future. A fundamental method for this is to measure the 14C content of the exhaust gas using accelerator mass spectrometry (AMS) and deduce fossil/biofraction from it. Conventionally, the CO2 in the sampled exhaust gas has been graphitized for the AMS measurement. In this work we have tested a method where the sample is fed to the AMS system in gas form, without the extra graphitizing step. The sample gas storage and feeding system of Helsinki Accelerator Laboratory is represented along with the results obtained in the test with flue gas samples from test combustion facility. The results show that that the analysis of biofraction of combusted fuels is possible in feasible, reproducible and accurate ISO13833 standard compliant way with the tested method.

KW - Accelerator mass spectrometry

KW - Biofraction

KW - Carbon isotopes

KW - Emission trading

KW - Gas AMS

KW - Radiocarbon

UR - https://www.scopus.com/pages/publications/105008120061

U2 - 10.1016/j.apradiso.2025.111996

DO - 10.1016/j.apradiso.2025.111996

M3 - Article

SN - 0969-8043

VL - 225

JO - Applied Radiation and Isotopes

JF - Applied Radiation and Isotopes

M1 - 111996

T2 - 2nd Applied Nuclear Physics Conference, ANP 2024

Y2 - 22 September 2024 through 27 September 2024

ER -

Accelerator mass spectrometry for tracing fossil carbon content of combusted fuel

Abstract

UN SDGs

Keywords

Access to Document

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