Realistic operation of two residential cordwood-fired outdoor hydronic heater appliances-Part 3: Optical properties of black and brown carbon emissions

J Air Waste Manag Assoc. 2022 Jul;72(7):777-790. doi: 10.1080/10962247.2022.2051776.

Abstract

Residential biomass combustion is a source of carbonaceous aerosol. Inefficient combustion, particularly of solid fuels produces large quantities of black and brown carbon (BC and BrC). These particle types are important as they have noted effects on climate forcing and human health. One method of measuring these quantities is by measurement of aerosol light-absorption and scattering, which can be performed using an aethalometer and nephelometer, respectively. These instruments are widely deployed in the study of ambient air and are frequently used in air quality modeling and source apportionment studies. In this study, we will describe (1) a method for measuring primary BC and BrC emissions from two residential log-fired wood hydronic heaters and (2) the BC and BrC emission from these devices over a wide range of operating conditions, such as cold-starts, warm-starts, four different levels of output ranging from 15% to 100% maximum rated output, and periods of repeated cycling. The range in flue-gas BC concentrations, measured using an aethalometer at the 880 nanometer (nm) wavelength, were between 5.09 × 102 and 2.24 × 104 micrograms per cubic meter (µg/m3) while the scattering coefficient of the flue-gas, measured by a nephelometer at 880 nm, ranged between 2.20 × 103 and 8.56 × 105 inverse megameters (Mm-1). The BrC concentrations, measured using the 370 nm wavelength of an aethalometer, were between 9.10 × 101 and 3.56 × 104 µg/m3. The calculated Angstrom Absorption Exponent (AAE) of the flue-gas aerosol ranged between 1.54 and 3.63. Performing a comparison between the measured BC concentration and an external particulate matter (PM) concentration showed that overall BC makes up roughly a quarter of the PM emitted by either of the two appliances. Further for both appliances, the cold-start and the test phase immediately following it had the highest BC and BrC concentrations, the highest measured scattering coefficient, as well as a low AAE.Implications: In this work we provide information on the black and brown carbon emissions from outdoor cordwood-fired hydronic heaters. Aethalometer based black carbon measurements are common in atmospheric science, but are uncommonly used in laboratory studies. This work helps to bridge that gap. This data helps to inform the work of modelers and policy makers interested in hydronic heaters and source apportioning biomass combustion emissions.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Aerosols / analysis
  • Air Pollutants* / analysis
  • Carbon / analysis
  • Environmental Monitoring / methods
  • Humans
  • Particulate Matter / analysis
  • Soot / analysis

Substances

  • Aerosols
  • Air Pollutants
  • Particulate Matter
  • Soot
  • Carbon