Estimating the Energy Content of Wastewater Using Combustion Calorimetry and Different Drying Processes

Estimating the Energy Content of Wastewater Using Combustion Calorimetry and Different Drying Processes

The energy content of wastewater is routinely assessed by chemical oxygen demand (COD) measurements that only provide an incomplete picture and the data fundament of other energy parameters remains scarce. The volumetric heat of combustion (ΔCH) of raw wastewater from a municipal wastewater treatmen...

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Main Authors: Benjamin Korth, Thomas Maskow, Susanne Günther, Falk Harnisch
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-09-01
Series:Frontiers in Energy Research
Subjects:
chemical oxygen demand
combustion calorimetry
heat of combustion
energy resources
wastewater analysis
wastewater treatment
Online Access:http://journal.frontiersin.org/article/10.3389/fenrg.2017.00023/full
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spelling doaj-ca37575f2e3d4a2fb2e043bffa5b3ca62020-11-24T23:53:25ZengFrontiers Media S.A.Frontiers in Energy Research2296-598X2017-09-01510.3389/fenrg.2017.00023292524Estimating the Energy Content of Wastewater Using Combustion Calorimetry and Different Drying ProcessesBenjamin Korth0Thomas Maskow1Susanne Günther2Falk Harnisch3Department of Environmental Microbiology, Helmholtz-Centre for Environmental Research, Leipzig, GermanyDepartment of Environmental Microbiology, Helmholtz-Centre for Environmental Research, Leipzig, GermanyDepartment of Environmental Microbiology, Helmholtz-Centre for Environmental Research, Leipzig, GermanyDepartment of Environmental Microbiology, Helmholtz-Centre for Environmental Research, Leipzig, GermanyThe energy content of wastewater is routinely assessed by chemical oxygen demand (COD) measurements that only provide an incomplete picture and the data fundament of other energy parameters remains scarce. The volumetric heat of combustion (ΔCH) of raw wastewater from a municipal wastewater treatment plant (WWTP) was assessed using oven drying method (ΔCHvol = −6.8 ± 4.3 kJ L−1, n = 20) and freeze drying method (ΔCHvol = −20.2 ± 9.7 kJ L−1, n = 6) illustrating the substantial loss during the oven drying approach. Normalizing ΔCH to COD of raw wastewater yielded −6.2 ± 3.5 kJ gCOD−1 for oven-dried samples (n = 14) and −13.0 ± 1.6 kJ gCOD−1 for freeze-dried samples (n = 3). A subsequent correlation analysis with further chemical wastewater parameters revealed a dependency of ΔCHvol on COD, total organic carbon (TOC), C:N ratio, and total sulfur content. To verify these correlations, wastewater of a second WWTP was sampled and analyzed. Only COD and TOC were in accordance with the data set from the first WWTP representing potential predictors for the chemical energy stored in wastewater for comparable WWTPs. Unfortunately, during the most practical method (oven drying), a certain loss of volatile compounds is inevitable so that the derived ΔCHvol systematically underestimates the total energetic potential of wastewater. Nevertheless, this work expands the, so far, little data fundament on the energy resource wastewater and implies the requirement for further long-term studies on different sites and different wastewater types with a highly standardized sample treatment protocol.http://journal.frontiersin.org/article/10.3389/fenrg.2017.00023/fullchemical oxygen demandcombustion calorimetryheat of combustionenergy resourceswastewater analysiswastewater treatment
collection DOAJ
language English
format Article
sources DOAJ
author Benjamin Korth
Thomas Maskow
Susanne Günther
Falk Harnisch
spellingShingle Benjamin Korth
Thomas Maskow
Susanne Günther
Falk Harnisch
Estimating the Energy Content of Wastewater Using Combustion Calorimetry and Different Drying Processes
Frontiers in Energy Research
chemical oxygen demand
combustion calorimetry
heat of combustion
energy resources
wastewater analysis
wastewater treatment
author_facet Benjamin Korth
Thomas Maskow
Susanne Günther
Falk Harnisch
author_sort Benjamin Korth
title Estimating the Energy Content of Wastewater Using Combustion Calorimetry and Different Drying Processes
title_short Estimating the Energy Content of Wastewater Using Combustion Calorimetry and Different Drying Processes
title_full Estimating the Energy Content of Wastewater Using Combustion Calorimetry and Different Drying Processes
title_fullStr Estimating the Energy Content of Wastewater Using Combustion Calorimetry and Different Drying Processes
title_full_unstemmed Estimating the Energy Content of Wastewater Using Combustion Calorimetry and Different Drying Processes
title_sort estimating the energy content of wastewater using combustion calorimetry and different drying processes
publisher Frontiers Media S.A.
series Frontiers in Energy Research
issn 2296-598X
publishDate 2017-09-01
description The energy content of wastewater is routinely assessed by chemical oxygen demand (COD) measurements that only provide an incomplete picture and the data fundament of other energy parameters remains scarce. The volumetric heat of combustion (ΔCH) of raw wastewater from a municipal wastewater treatment plant (WWTP) was assessed using oven drying method (ΔCHvol = −6.8 ± 4.3 kJ L−1, n = 20) and freeze drying method (ΔCHvol = −20.2 ± 9.7 kJ L−1, n = 6) illustrating the substantial loss during the oven drying approach. Normalizing ΔCH to COD of raw wastewater yielded −6.2 ± 3.5 kJ gCOD−1 for oven-dried samples (n = 14) and −13.0 ± 1.6 kJ gCOD−1 for freeze-dried samples (n = 3). A subsequent correlation analysis with further chemical wastewater parameters revealed a dependency of ΔCHvol on COD, total organic carbon (TOC), C:N ratio, and total sulfur content. To verify these correlations, wastewater of a second WWTP was sampled and analyzed. Only COD and TOC were in accordance with the data set from the first WWTP representing potential predictors for the chemical energy stored in wastewater for comparable WWTPs. Unfortunately, during the most practical method (oven drying), a certain loss of volatile compounds is inevitable so that the derived ΔCHvol systematically underestimates the total energetic potential of wastewater. Nevertheless, this work expands the, so far, little data fundament on the energy resource wastewater and implies the requirement for further long-term studies on different sites and different wastewater types with a highly standardized sample treatment protocol.
topic chemical oxygen demand
combustion calorimetry
heat of combustion
energy resources
wastewater analysis
wastewater treatment
url http://journal.frontiersin.org/article/10.3389/fenrg.2017.00023/full
work_keys_str_mv AT benjaminkorth estimatingtheenergycontentofwastewaterusingcombustioncalorimetryanddifferentdryingprocesses
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AT susannegunther estimatingtheenergycontentofwastewaterusingcombustioncalorimetryanddifferentdryingprocesses
AT falkharnisch estimatingtheenergycontentofwastewaterusingcombustioncalorimetryanddifferentdryingprocesses
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