first_pagesettingsOrder Article Reprints Open AccessArticle Thermal and Emission Performance Evaluation of Hydrogen-Enriched Natural Gas-Fired Domestic Condensing Boilers by Radosław Jankowski 1,*ORCID,Rafał Ślefarski 1ORCID,Ireneusz Bauma 1ORCID andGiennadii Varlamov 2 1 Institute of Thermal Energy, Poznan University of Technology, 60-965 Poznan, Poland 2 Institute of Sustainable Building Materials and Engineering Systems, Riga Technical University, Ķīpsalas 6A-539, LV-1048 Riga, Latvia * Author to whom correspondence should be addressed. Energies 2025, 18(13), 3240; https://doi.org/10.3390/en18133240 Submission received: 30 April 2025 / Revised: 31 May 2025 / Accepted: 5 June 2025 / Published: 20 June 2025 (This article belongs to the Special Issue Heat Transfer Analysis: Recent Challenges and Applications) Downloadkeyboard_arrow_down Browse Figures Versions Notes Abstract The combustion of gaseous fuels in condensing boilers contributes to the greenhouse gas and toxic compound emissions in exhaust gases. Hydrogen, as a clean energy carrier, could play a key role in decarbonizing the residential heating sector. However, its significantly different combustion behavior compared to hydrocarbon fuels requires thorough investigation prior to implementation in heating systems. This study presents experimental and theoretical analyses of the co-combustion of natural gas with hydrogen in low-power-output condensing boilers (second and third generation), with hydrogen content of up to 50% by volume. The results show that mixtures of hydrogen and natural gas contribute to increasing heat transfer in boilers through convection and flue gas radiation. They also highlight the benefits of using the heat from the condensation of vapors in the flue gases. Other studies have observed an increase in efficiency of up to 1.6 percentage points compared to natural gas at 50% hydrogen content. Up to a 6% increase in the amount of energy recovered by water vapor condensation was also recorded, while exhaust gas losses did not change significantly. Notably, the addition of hydrogen resulted in a substantial decrease in the emission of nitrogen oxides (NOx) and carbon monoxide (CO). At 50% hydrogen content, NOx emissions decreased several-fold to 2.7 mg/m3, while CO emissions were reduced by a factor of six, reaching 9.9 mg/m3. All measured NOx values remained well below the current regulatory limit for condensing gas boilers, which is 33.5 mg/m3. These results highlight the potential of hydrogen blending as a transitional solution on the path toward cleaner residential heating systems.