Gasmet FTIR gas analyzers have been used for high-quality emission-related research already for more than a decade. Gasmet analyzers have been used to measure pollutants and greenhouse gases from e.g. waste incinerators and wastewater treatment plants as well as for catalyst research.

Waste Incineration

Dataset on flue gas composition during combustion in the fluidised
bed reactor. Glycerol combustion

Żukowski, W., & Berkowicz, G 2020

Emission characteristics for co-combustion of leather wastes, sewage sludge, and coal in a laboratory-scale entrained flow tube furnace.

Zhan, M., Sun, C., Chen, T., & Li, X. 2019

Cenospheric and sand fluidized bed as an environment for waste rubber combustion-comparisons of decomposition dynamics and flue gas emission.

Migas, P., Zukowski, W., Baron, J., & Wrona, J. 2019

Data on species and concentration of the main gaseous products during sludge combustion to support the feasibility of using sludge as a flue gas denitration agent for the cement industry.

Tang, Z., Fang, P., Xiao, X., Huang, J., Chen, X., Zhong, P., … & Cen, C. 2019

HCl removal characteristics of calcium hydroxide at the dry-type sorbent reaction accelerator using municipal waste incinerator flue gas at a real site.

Kim, K. D., Jeon, S. M., Hasolli, N., Lee, K. S., Lee, J. R., Han, J. W., … & Park, Y. O. 2017

Emissions from sewage sludge pyrolysis oil and gas combustion and influence of ZnCl2/KOH

Chen, H., Chen, D., Wang, D., & Hong, L. 2015

Influences of activation agent impregnated sewage sludge pyrolysis on emission characteristics of volatile combustion and De-NOx performance of activated char.

Chen, H., Chen, D., & Hong, L. 2015

Incineration of municipal sewage sludge in a fluidized bed reactor.

Kowarska, B., Baron, J., Kandefer, S., & Zukowski, W. 2013

Experimental Study of HCl emissions and Removal During Combustion of Coal Mixed and Diluted with Sewage Sludge.

CUI, H., ZHANG, C., XIA, J., & CHEN, G. 2012

FTIR study of pyrolysis products evolving from typical agricultural residues.

Fu, P., Hu, S., Xiang, J., Li, P., Huang, D., Jiang, L., … & Zhang, J. 2010

Waste Management

Li, H., Li, T., & Wei, X. 2020

Evaluation of Greenhouse Gas Emission from Municipal Solid Waste Management and Leachate: A Case Study of Takhob Municipality, Thailand.

Lertyingcharoenchai, W., Viriya, H., & Kongritti, N. 2019

Mechanical-physical treatment of used motor oil within a sustainable waste management system.

Đukić, V. N. 2015

Biogasification of biowaste and sewage sludge–Measurement of biogas quality.

Kymäläinen, M., Lähde, K., Arnold, M., Kurola, J. M., Romantschuk, M., & Kautola, H 2012

Wastewater Treatment

Zaborowska, E., Lu, X., & Makinia, J. 2019
Blomberg, K., Kosse, P., Mikola, A., Kuokkanen, A., Fred, T., Heinonen, M., … & Vahala, R 2018

Nitrous oxide production at a fully covered wastewater treatment plant: results of a long-term online monitoring campaign.

Kosonen, H., Heinonen, M., Mikola, A., Haimi, H., Mulas, M., Corona, F., & Vahala, R. 2016

N2O emissions from secondary clarifiers and their contribution to the total emissions of the WWTP.

Mikola, A., Heinonen, M., Kosonen, H., Leppänen, M., Rantanen, P., & Vahala, R. 2014

Coal and coke combustion

Liu, X., Luo, Z., Yang, X., Xie, G., Yu, Y., & Yu, C. 2020
Ma, J., Shen, J., Liu, J., Ma, Y., & Jiang, X. 2018
Wang, C. A., Liu, Y., Zhang, X., & Che, D. 2016
Yao, Y., Zhu, J. G., & Lu, Q. G. 2015
Ouyang, Z., Zhu, J., Lu, Q., Yao, Y., & Liu, J 2014
Wang, C. A., Du, Y., & Che, D. 2012
Liu, R., Hui, S. E., Yu, Z., Zhou, Q., Xu, T., Zhao, Q., & Tan, H. 2010
Akpulat, O., Varol, M., & Atimtay, A. T. 2010

Biomass Combustion

Watson, J. G., Cao, J., Chen, L. W. A., Wang, Q., Tian, J., Wang, X., … & Chow, J. C. 2019
Lamberg, H., Sippula, O., Joutsensaari, J., Ihalainen, M., Tissari, J., Lähde, A., & Jokiniemi, J. 2018
Liu, X., Luo, Z., Yu, C., Jin, B., & Tu, H. 2018
Atimtay, A. T., Kayahan, U., Unlu, A., Engin, B., Varol, M., Olgun, H., & Atakul, H. 2017
Wang, Y., Wang, X., Hu, Z., Li, Y., Deng, S., Niu, B., & Tan, H. 2015
Houshfar, E., Skreiberg, Ø., Todorović, D., Skreiberg, A., Løvås, T., Jovović, A., & Sørum, L. 2012
Vainio, E., Brink, A., Hupa, M., Vesala, H., & Kajolinna, T 2012
Bartoli, P., Simeoni, A., Biteau, H., Torero, J. L., & Santoni, P. A. 2011

Domestic fuel combustion

Mitchell, E. J. S., Ting, Y., Allan, J., Lea-Langton, A. R., Spracklen, D. V., McFiggans, G., … & Jones, J. M. 2019
Czaplicka, M., Cieślik, E., Komosiński, B., & Rachwał, T. 2019
Konieczyński, J., Komosiński, B., Cieślik, E., Konieczny, T., Mathews, B., Rachwał, T., & Rzońca, G 2017


Zhang, K., Bai, Y., Gong, Z., Zhao, Z., Li, B., & Wu, W. 2020

Molybdenum modified Montmonrillonite clay as an efficient catalyst for low temperature NH3‐SCR.

Chen, D., Feng, J., Sun, J., Cen, C., Tian, S., Yang, J., & Xiong, Y. 2020
Wu, G., Feng, X., Zhang, H., Zhang, Y., Wang, J., Chen, Y., & Dan, Y. 2018
Zhang, T., Qiu, F., Chang, H., Peng, Y., & Li, J. 2017
Hu, W., Zhang, Y., Liu, S., Zheng, C., Gao, X., Nova, I., & Tronconi, E. 2017
Hu, W., Gao, X., Deng, Y., Qu, R., Zheng, C., Zhu, X., & Cen, K. 2016
Peng, Y., Li, J., Si, W., Li, X., Shi, W., Luo, J., … & Hao, J. 2015
Chang, H., Ma, L., Yang, S., Li, J., Chen, L., Wang, W., & Hao, J. 2013
Ma, L., Li, J., Arandiyan, H., Shi, W., Liu, C., & Fu, L. 2012
Ma, L., Li, J., Cheng, Y., Lambert, C. K., & Fu, L. 2012
Wang, R., & Li, J. 2010
Tang, X., Li, J., Sun, L., & Hao, J. 2010


Zhao, K., Hu, Y., Tian, Y., Chen, D., & Feng, Y. 2018
Yu, X., Liu, S., Lin, G., Yang, Y., Zhang, S., Zhao, H., … & Gao, X. 2020
Burkat, V. S., Zor’ko, K. I., Bozhko, A. G., Spirin, A. V., Rebrik, I. I., & Vasin, S. Y. 2019
Pellikka, T., Kajolinna, T., & Perälä, M. 2019
Spietz, T., Chwoła, T., Krótki, A., Tatarczuk, A., Więcław-Solny, L., & Wilk, A. 2018
Wang, C. A., Du, Y., Jin, X., & Che, D. 2016
Mingxin, X., Shiyuan, L., Wei, L., & Qinggang, L. 2015
Wangxing, L., Xiping, C., Jianhong, Y., Changping, H., Yonggang, L., Defeng, L., & Huifang, G. 2012
Maurer, C., & Müller, J. 2012