More biogas please! – Lessons from around the Globe

This paper discusses the range of options available to increase biogas production in wastewater treatment facilities incorporating anaerobic digestion. Based on a review of global applications, the key lessons and success factors are detailed. This information fits into an overall decision making framework design to ensure a holistic approach to investment in increasing biogas production is taken.

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BIOLOGICAL WASTEWATER TREATMENT IN CONTEXT OF CIRCULAR ECONOMY

WATER AND WATER PURIFICATION TECHNOLOGIES SCIENTIFIC AND TECHNICAL NEWS ◽

10.20535/2218-930012021232378 ◽

2021 ◽

Vol 29 (1) ◽

pp. 3-10

Author(s):

Yuliia Dzihora ◽

Hennadiy Stolyarenko

Keyword(s):

Wastewater Treatment ◽

Circular Economy ◽

Biological Treatment ◽

Membrane Separation ◽

Biogas Production ◽

Human Life ◽

Holistic Approach ◽

Long Time ◽

Treatment Facilities ◽

Resources Exploitation

With the beginning of Anthropocene epoch, nature is facing a lot of environmental problems that drastically increased in the last century. On the current rate of resource consumption, soon nature will lose the ability for self-restoration. In order to avoid inevitable consequences of resources exploitation, new approaches should be developed in all areas of human life. Linear economy concepts that were utilized for a long time and were based on use and disposal of each separate resource depending on the purpose is not sufficient anymore. More holistic approach should be applied to overcome the challenges that we are facing now. Application of circular economy concepts for wastewater treatment facilities has a great potential to enhance sustainability of water management. This paper will focus on circular economy concepts applied for modern pilot installation that combines biological treatment and membrane separation and discusses the potential for the full-scale implementation. Since, pilot plant was operated without any chemicals addition it eases the use of the waste sludge that is received as a by-product for different purposes as agricultural application and biogas production.

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Anaerobic digestion life cycle assessment (LCA)

Technium: Romanian Journal of Applied Sciences and Technology ◽

10.47577/technium.v2i5.1066 ◽

2020 ◽

Vol 2 (5) ◽

pp. 92-104

Author(s):

Farhad Sakhaee

Keyword(s):

Wastewater Treatment ◽

Life Cycle Assessment ◽

Life Cycle ◽

Anaerobic Digestion ◽

Training Center ◽

Treatment Facility ◽

Practical Solution ◽

Treatment Facilities ◽

Management Report

Abstract: Life cycle assessment (LCA) is a tool to evaluate environmental impacts based on products of a process. This research is a case study of wastewater treatment facilities of ERTC (Environmental Resources Training Center), SIUE University, based on available data for two semi-annual sludge quantities (year 2015) from sludge management report. The aim of this study is to compare set of possibilities for a wastewater treatment facility at ERTC. The simulation has been done through SimaPro model. Electricity and methane were considered and the cumulative weight of their impacts has been investigated. Total solids for two semi-annual sludge has been fed to the model in kilogram and different production (electricity and methane) configuration were investigated. The most plausible configuration based on the cumulative environmental impact proposed as best practical solution.

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Evaluation of Anaerobic Digestion of Dairy Wastewater in an Innovative Multi-Section Horizontal Flow Reactor

Energies ◽

10.3390/en13092392 ◽

2020 ◽

Vol 13 (9) ◽

pp. 2392 ◽

Cited By ~ 2

Author(s):

Marcin Dębowski ◽

Marcin Zieliński ◽

Marta Kisielewska ◽

Joanna Kazimierowicz

Keyword(s):

Wastewater Treatment ◽

Anaerobic Digestion ◽

Flow Reactor ◽

Biogas Production ◽

Oxygen Demand ◽

Methane Content ◽

Dairy Wastewater ◽

Horizontal Flow ◽

Organic Loading Rate ◽

Biogas Yield

The aim of this study was the performance evaluation of anaerobic digestion of dairy wastewater in a multi-section horizontal flow reactor (HFAR) equipped with microwave and ultrasonic generators to stimulate biochemical processes. The effects of increasing organic loading rate (OLR) ranging from 1.0 g chemical oxygen demand (COD)/L·d to 4.0 g COD/L·d on treatment performance, biogas production, and percentage of methane yield were determined. The highest organic compounds removals (about 85% as COD and total organic carbon—TOC) were obtained at OLR of 1.0–2.0 g COD/L·d. The highest biogas yield of 0.33 ± 0.03 L/g COD removed and methane content in biogas of 68.1 ± 5.8% were recorded at OLR of 1.0 g COD/L·d, while at OLR of 2.0 g COD/L·d it was 0.31 ± 0.02 L/COD removed and 66.3 ± 5.7%, respectively. Increasing of the OLR led to a reduction in biogas productivity as well as a decrease in methane content in biogas. The best technological effects were recorded in series with an operating mode of ultrasonic generators of 2 min work/28 min break. More intensive sonication reduced the efficiency of anaerobic digestion of dairy wastewater as well as biogas production. A low nutrient removal efficiency was observed in all tested series of the experiment, which ranged from 2.04 ± 0.38 to 4.59 ± 0.68% for phosphorus and from 9.67 ± 3.36 to 20.36 ± 0.32% for nitrogen. The effects obtained in the study (referring to the efficiency of wastewater treatment, biogas production, as well as to the results of economic analysis) proved that the HFAR can be competitive to existing industrial technologies for food wastewater treatment.

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Application of the IWA Anaerobic Digestion Model (ADM1) for simulating full-scale anaerobic sewage sludge digestion

Water Science & Technology ◽

10.2166/wst.2005.0557 ◽

2005 ◽

Vol 52 (1-2) ◽

pp. 487-492 ◽

Cited By ~ 21

Author(s):

Y. Shang ◽

B.R. Johnson ◽

R. Sieger

Keyword(s):

Wastewater Treatment ◽

Steady State ◽

Anaerobic Digestion ◽

Biogas Production ◽

Treatment Plant ◽

Biochemical Parameter ◽

Full Scale ◽

Anaerobic Digesters ◽

Biogas Yield ◽

Volatile Solids

A steady-state implementation of the IWA Anaerobic Digestion Model No. 1 (ADM1) has been applied to the anaerobic digesters in two wastewater treatment plants. The two plants have a wastewater treatment capacity of 76,000 and 820,000 m3/day, respectively, with approximately 12 and 205 dry metric tons sludge fed to digesters per day. The main purpose of this study is to compare the ADM1 model results with full-scale anaerobic digestion performance. For both plants, the prediction of the steady-state ADM1 implementation using the suggested physico-chemical and biochemical parameter values was able to reflect the results from the actual digester operations to a reasonable degree of accuracy on all parameters. The predicted total solids (TS) and volatile solids (VS) concentration in the digested biosolids, as well as the digester volatile solids destruction (VSD), biogas production and biogas yield are within 10% of the actual digester data. This study demonstrated that the ADM1 is a powerful tool for predicting the steady-state behaviour of anaerobic digesters treating sewage sludges. In addition, it showed that the use of a whole wastewater treatment plant simulator for fractionating the digester influent into the ADM1 input parameters was successful.

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Composition and uses of anaerobic digestion derived biogas from wastewater treatment facilities in North America

Waste Management & Research ◽

10.1177/0734242x15589781 ◽

2015 ◽

Vol 33 (8) ◽

pp. 767-771 ◽

Cited By ~ 6

Author(s):

Jillian C Lackey ◽

B Peppley ◽

P Champagne ◽

A Maier

Keyword(s):

Wastewater Treatment ◽

Anaerobic Digestion ◽

North America ◽

Treatment Facilities

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Potentials and limits of anaerobic digestion of sewage sludge: Energy self-sufficient municipal wastewater treatment plant?

Water Science & Technology ◽

10.2166/wst.2012.317 ◽

2012 ◽

Vol 66 (6) ◽

pp. 1277-1281 ◽

Cited By ~ 38

Author(s):

P. Jenicek ◽

J. Bartacek ◽

J. Kutil ◽

J. Zabranska ◽

M. Dohanyos

Keyword(s):

Wastewater Treatment ◽

Energy Consumption ◽

Anaerobic Digestion ◽

Sewage Sludge ◽

Wastewater Treatment Plant ◽

Municipal Wastewater ◽

Biogas Production ◽

Treatment Plant ◽

Self Sufficiency ◽

Digestion Efficiency

Anaerobic digestion is the only energy-positive technology widely used in wastewater treatment. Full-scale data prove that the anaerobic digestion of sewage sludge can produce biogas that covers a substantial amount of the energy consumption of a wastewater treatment plant (WWTP). In this paper, we discuss possibilities for improving the digestion efficiency and biogas production from sewage sludge. Typical specific energy consumptions of municipal WWTPs per population equivalent are compared with the potential specific production of biogas to find the required/optimal digestion efficiency. Examples of technological measures to achieve such efficiency are presented. Our findings show that even a municipal WWTP with secondary biological treatment located in a moderate climate can come close to energy self-sufficiency. However, they also show that such self-sufficiency is dependent on: (i) the strict optimization of the total energy consumption of the plant, and (ii) an increase in the specific biogas production from sewage sludge to values around 600 L per kg of supplied volatile solids.

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Data on Biogas Production Quality: Evidence from the Wastewater Treatment Plant of Durrës

European Journal of Engineering and Technology Research ◽

10.24018/ejers.2021.6.4.2474 ◽

2021 ◽

Vol 6 (4) ◽

pp. 85-87

Author(s):

Stela Sefa ◽

Tania Floqi ◽

Julian Sefa

Keyword(s):

Wastewater Treatment ◽

Anaerobic Digestion ◽

Wastewater Treatment Plant ◽

Biogas Production ◽

Treatment Plant ◽

Production Quality ◽

Treatment Area ◽

Biochemical Processes ◽

Energy Grid

The wastewater treatment plant (WWTPD) located in Durrës, responsible for a treatment area of 205,000 inhabitants, employs the tertiary advanced wasterwater treatment to generate biogas from activated sludge for self use. The biogas collected from the anaerobic digestion tank feed the boiler and the co-generation unit which is then transformed to power its own energy grid. In order to evaluate the quality of biogas produced by anaerobic digestion of WWTPD’s sludge, is measured the percentage of CH4 and CO2 from the biogas production during a three years period (2016 – 2018). From the performed analyses has resulted a percentage of CH4 up to 75% and 25% CO2 in 2016. While the lowest percentage of CH4 in 2018 with respectively 70% CH4 and 30% CO2. Based on the value measurements, qualitative results of biogas parameters show that physicochemical and biochemical processes are performed under strict conditions and anaerobic digestion is performed according to standards.

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A NOVEL DECISION-MAKING FRAMEWORK BASED ON PROBABILISTIC LINGUISTIC TERM SET FOR SELECTING SUSTAINABLE SUPPLIER CONSIDERING SOCIAL CREDIT

Technological and Economic Development of Economy ◽

10.3846/tede.2021.15351 ◽

2021 ◽

Vol 0 (0) ◽

pp. 1-34

Author(s):

Yuanxiang Dong ◽

Xumei Zheng ◽

Zeshui Xu ◽

Weijie Chen ◽

Hongbo Shi ◽

...

Keyword(s):

Decision Making ◽

Success Factors ◽

Chinese Government ◽

Relative Importance ◽

Credit System ◽

Probabilistic Linguistic Term Set ◽

Social Credit ◽

Sustainable Supplier Selection ◽

Linguistic Term ◽

Decision Making Framework

Sustainable supplier selection (SSS) has become an essential task for decision-makers in competitive environments. We construct a new decision-making framework for SSS. First, classical SSS usually includes fixed factors in environmental, social and economic dimensions. Differently, we adopt new social factors from credit perspective with corporate social credit system being promoted vigorously by the Chinese government. Next, we employ probabilistic linguistic term sets (PLTSs) to collect experts’ judgments about interactive influence between factors. Third, we combine PLTSs with Decision Making Trial and Evaluation Laboratory (DEMATEL) method to identify critical success factors (CSFs) for improving decision-making efficiency. And we also give definition to relative importance degree, standard relative importance degree, deviation of importance degree and influence degree to reflect the interactive influence between factors. To eliminate subjective influence, we combine entropy weighting approach and DEMATEL to compute weights. Fourthly, we redefine dominance degree and apply it into TODIM method for SSS. Finally, the proposed decision-making framework’s effectiveness is verified by using the case study of a new energy vehicle (NEV) company. Based on this, sensitivity analysis and comparison of methods are conducted. The results verify that the decision-making framework is valid and effective for SSS.

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