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Exploring the Differences Between Total Kjeldahl Nitrogen (TKN) and Total Nitrogen (TN)
Total Kjeldahl Nitrogen (TKN) and Total Nitrogen (TN) are two different parameters, both performed for the quantitative determination of Nitrogen. Discover their differences and when to use the one rather than the other, depending on the type of sample, the purpose of the analysis, and the different substances to be determined.
NitrogenĀ is a fundamentally important element for all living organisms, entering, along with carbon, hydrogen, oxygen and sulfur, into the composition ofĀ proteinsĀ and, along with the aforementioned elements and phosphorus, into the constitution of nucleic acids.Ā
In order to better perform you analysis, it is helpful to understand the different forms of nitrogen and the parameters to be determined to get the best results.
In order to better perform you analysis, it is helpful to understand the different forms of nitrogen and the parameters to be determined to get the best results.
Total Kjeldahl Nitrogen (TKN)
TheĀ Kjeldahl analysisĀ is a highly versatile method, as it can handle an extensive range of samples from food & feed, beverages, environmental, and agriculture to chemical and pharmaceutical industries.
Also known asĀ Total Kjeldahl NitrogenĀ (TKN), it is used for theĀ quantitative determinationĀ ofĀ organic nitrogenĀ plus ammonia (NH3), and ammonium (NH4+) in the chemical analysis of a compound.Ā Other forms of inorganic nitrogen such as nitrite-nitrogen and nitrate-nitrogen, are not included in this measurement.
The TKN analysis is typically used as a surrogate forĀ proteinĀ in food, feed and beverage samples. The conversion from TKN to protein depends on the type of protein present in the sample and what fraction of the protein is composed of nitrogenous amino acids.
Even if TKN might not be the fastest method to use, since it requires numerous steps, thanks to its high reliability will always give satisfactory results if performed correctly and following the correct standard.
Also known asĀ Total Kjeldahl NitrogenĀ (TKN), it is used for theĀ quantitative determinationĀ ofĀ organic nitrogenĀ plus ammonia (NH3), and ammonium (NH4+) in the chemical analysis of a compound.Ā Other forms of inorganic nitrogen such as nitrite-nitrogen and nitrate-nitrogen, are not included in this measurement.
The TKN analysis is typically used as a surrogate forĀ proteinĀ in food, feed and beverage samples. The conversion from TKN to protein depends on the type of protein present in the sample and what fraction of the protein is composed of nitrogenous amino acids.
Even if TKN might not be the fastest method to use, since it requires numerous steps, thanks to its high reliability will always give satisfactory results if performed correctly and following the correct standard.
Total Nitrogen TN)
The Kjeldahl method doesnāt measure, or partially measures, some nitrogen compounds such as azides, azocompounds, hydrazones, hydrazine and hydroxylamine, nitrite, and nitrate.
By contrast,Ā Total NitrogenĀ is the sum of the nitrate-nitrogen (NO3-N), nitrite-nitrogen (NO2-N), ammonia-nitrogen (NH3-N) and organic bounded nitrogen structures: it is determined in those samples where the presence ofĀ inorganic nitrogenĀ is relevant.
Knowing the composition and nitrogen compounds is essential forĀ waterĀ andĀ wastewaterĀ treatment plants, where organic nitrogen is converted into inorganic nitrogen. To determine the total nitrogen inĀ soilĀ and inĀ sludgesĀ from wastewater treatment plants for agricultural uses, the value of ammonia, nitrite, nitrate, urea and organic nitrogen has to be summed.Ā
In these cases, theĀ Dumas combustion methodĀ is a strong alternative to theĀ Kjeldahl analysis, as it offers more accurate results – usually a little bit higher.Ā
By contrast,Ā Total NitrogenĀ is the sum of the nitrate-nitrogen (NO3-N), nitrite-nitrogen (NO2-N), ammonia-nitrogen (NH3-N) and organic bounded nitrogen structures: it is determined in those samples where the presence ofĀ inorganic nitrogenĀ is relevant.
Knowing the composition and nitrogen compounds is essential forĀ waterĀ andĀ wastewaterĀ treatment plants, where organic nitrogen is converted into inorganic nitrogen. To determine the total nitrogen inĀ soilĀ and inĀ sludgesĀ from wastewater treatment plants for agricultural uses, the value of ammonia, nitrite, nitrate, urea and organic nitrogen has to be summed.Ā
In these cases, theĀ Dumas combustion methodĀ is a strong alternative to theĀ Kjeldahl analysis, as it offers more accurate results – usually a little bit higher.Ā
TKN vs TN
Kjeldahlās methodĀ gives reliable results if the sought value is the sum of organic nitrogen (proteins, nucleic acids, urea, synthetic organic chemicals) and ammonia nitrogen while other nitrogen compounds are not present.
For the determination of total nitrogen in samples when the most relevant substances are ammonium, organic nitrogen, nitrate and nitrite, depending on the standard and the purpose of the determination, anĀ elemental analyzerĀ is needed.Ā
Therefore, depending on the type of sample, the purpose of the analysis and the different substances, the following values are analyzed:
For the determination of total nitrogen in samples when the most relevant substances are ammonium, organic nitrogen, nitrate and nitrite, depending on the standard and the purpose of the determination, anĀ elemental analyzerĀ is needed.Ā
Therefore, depending on the type of sample, the purpose of the analysis and the different substances, the following values are analyzed:
- TKNĀ (Total Kjeldahl Nitrogen) = Total organic nitrogen + ammonium
- Total organic nitrogenĀ = TKN – ammonium
- Total inorganic nitrogenĀ = (nitrate + nitrite) + ammonium
- TNĀ (Total Nitrogen)Ā = TKN + Nitrate + Nitrite
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