Determination of the thermal properties of leaves by non-invasive contact‑free laser probing

•Simultaneous determination of specific heat capacity cp and thermal conductivity λ.•The rapid measurement is contact-free and non-invasive for plant leaves.•The measurement setup is simple and robust.•cp was 3661±323 for tobacco and 2253±285Jkg−1K−1 for N. benthamiana.•λ was 0.49±0.13 for tobacco a...

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Bibliographic Details
Published in:Journal of biotechnology 2016-01, Vol.217, p.100-108
Main Authors: Buyel, J.F., Gruchow, H.M., Tödter, N., Wehner, M.
Format: Article
Language:English
Subjects:
Heat capacity
Infrared Rays
Lasers
Models, Biological
Nicotiana - chemistry
Nicotiana - metabolism
NIR laser
Plant growth monitoring
Plant Leaves - chemistry
Plant Leaves - metabolism
Plant-derived biopharmaceuticals
Process optimization
Recombinant Proteins - chemistry
Temperature
Thermal Conductivity
Thermodynamics
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Summary:•Simultaneous determination of specific heat capacity cp and thermal conductivity λ.•The rapid measurement is contact-free and non-invasive for plant leaves.•The measurement setup is simple and robust.•cp was 3661±323 for tobacco and 2253±285Jkg−1K−1 for N. benthamiana.•λ was 0.49±0.13 for tobacco and 0.41±0.20Jm−1 s−1K−1 for N. benthamiana. The thermal properties of materials provide valuable data for quality monitoring and the rational design of process steps where heating is required. Here we report a rapid, simple and reliable technique that determines the most important thermal properties of leaves, i.e. the specific heat capacity (cp) and thermal conductivity (λ). Such data are useful when leaves are heated during processing, e.g. for the precipitation of host cell proteins during the extraction of high-value products such as recombinant proteins produced by molecular farming. The cp of tobacco (Nicotiana tabacum) and Nicotiana benthamiana leaves was determined by infrared measurement of the temperature increase caused by a near‑infrared laser pulse of defined length and intensity. We used the sample temperature profiles to calculate λ based on exponential fits of the temperature decline, taking convective heat transfer and thermal radiation into account. We found that the average cp was 3661±323Jkg−1 K−1 (n=19) for tobacco and 2253±285Jkg−1K−1 (n=25) for N. benthamiana, whereas the average λ was 0.49±0.13 (n=19) for tobacco and 0.41±0.20 (n=25) Jm−1 s−1K−1 for N. benthamiana. These values are similar to those established for other plant species by photothermal imaging and other methods. The cp and λ values of leaves can be determined easily using our non-invasive method, which is therefore suitable for the in-line or at-line monitoring of plants, e.g. during the highly regulated production of biopharmaceutical proteins.
ISSN:0168-1656
1873-4863
DOI:10.1016/j.jbiotec.2015.11.008