Risk assessment methods for water resource recovery for the production of bio-composite materials: Literature review and future research directions

[1]  Z. Kapelan,et al.  Life cycle sustainability assessment framework for water sector resource recovery solutions: Strengths and weaknesses , 2022, Resources, Conservation and Recycling.

[2]  E. Carraro,et al.  Impact of wastewater treatment plants on microbiological contamination for evaluating the risks of wastewater reuse , 2022, Environmental Sciences Europe.

[3]  P. Roy,et al.  Human health risk assessment of heavy metal and pathogenic contamination in surface water of the Punnakayal estuary, South India , 2022, Chemosphere.

[4]  Jiyoung Lee,et al.  Fecal indicator bacteria along multiple environmental exposure pathways (water, food, and soil) and intestinal parasites among children in the rural northwest Ethiopia , 2022, BMC Gastroenterology.

[5]  Simin Ge,et al.  Multiphasic screening of priority chemical compounds in drinking water by process control and human health risk , 2022, Environmental Sciences Europe.

[6]  Anna Trubetskaya,et al.  A methodology for assessing and monitoring risk in the industrial wastewater sector , 2021 .

[7]  A. Turolla,et al.  Development of a quantitative chemical risk assessment (QCRA) procedure for contaminants of emerging concern in drinking water supply. , 2021, Water research.

[8]  H. Ngo,et al.  Recovery of resources from industrial wastewater employing electrochemical technologies: status, advancements and perspectives , 2021, Bioengineered.

[9]  Xiaochang C. Wang,et al.  Bioaerosol in a typical municipal wastewater treatment plant: concentration, size distribution, and health risk assessment. , 2020, Water science and technology : a journal of the International Association on Water Pollution Research.

[10]  Cheng Yan,et al.  Quantitative microbial risk assessment and sensitivity analysis for workers exposed to pathogenic bacterial bioaerosols under various aeration modes in two wastewater treatment plants , 2020, Science of The Total Environment.

[11]  T. Stenström,et al.  Impact of sludge bulking on receiving environment using quantitative microbial risk assessment (QMRA)-based management for full-scale wastewater treatment plants. , 2020, Journal of environmental management.

[12]  Jörg E. Drewes,et al.  Trends in conducting quantitative microbial risk assessments for water reuse systems: A review , 2020 .

[13]  M. V. van Loosdrecht,et al.  A critical review of resource recovery from municipal wastewater treatment plants – market supply potentials, technologies and bottlenecks , 2020, Environmental Science: Water Research & Technology.

[14]  K. Lam,et al.  Life cycle assessment of nutrient recycling from wastewater: A critical review. , 2020, Water research.

[15]  H. Safavi,et al.  Risk assessment of an industrial wastewater treatment and reclamation plant using the bow-tie method , 2019, Environmental Monitoring and Assessment.

[16]  C. Teodosiu,et al.  A review on wastewater sludge valorisation and its challenges in the context of circular economy , 2019, Journal of Cleaner Production.

[17]  M. V. van Loosdrecht,et al.  Resource recovery and wastewater treatment modelling , 2019, Environmental Science: Water Research & Technology.

[18]  Lin Li,et al.  Bioaerosols emission and exposure risk of a wastewater treatment plant with A2O treatment process. , 2019, Ecotoxicology and environmental safety.

[19]  H. Albrechtsen,et al.  Softening of drinking water by the pellet reactor - Effects of influent water composition on calcium carbonate pellet characteristics. , 2019, The Science of the total environment.

[20]  T. Stenström,et al.  Epidemiological Evidence and Health Risks Associated With Agricultural Reuse of Partially Treated and Untreated Wastewater: A Review , 2018, Front. Public Health.

[21]  J. P. van der Hoek,et al.  Nitrogen Recovery from Wastewater: Possibilities, Competition with Other Resources and Adaptation Pathways , 2018, Prime Archives in Sustainability.

[22]  L. Jacxsens,et al.  Quantitative microbial exposure modelling as a tool to evaluate the impact of contamination level of surface irrigation water and seasonality on fecal hygiene indicator E. coli in leafy green production. , 2018, Food microbiology.

[23]  H. A. van der Sloot,et al.  Release of heavy metals during long-term land application of sewage sludge compost: Percolation leaching tests with repeated additions of compost. , 2017, Chemosphere.

[24]  B. Evans,et al.  Assessment of potential risks associated with chemicals in wastewater used for irrigation in arid and semiarid zones: A review , 2016 .

[25]  Jan Peter van der Hoek,et al.  Wastewater as a resource: Strategies to recover resources from Amsterdam’s wastewater , 2016 .

[26]  S. Basavarajappa,et al.  Applications of biocomposite materials based on natural fibers from renewable resources: a review , 2016 .

[27]  O. Kramer,et al.  Circular economy in drinking water treatment: reuse of ground pellets as seeding material in the pellet softening process. , 2015, Water science and technology : a journal of the International Association on Water Pollution Research.

[28]  Kenneth M Persson,et al.  Estimating microbial risk in treated wastewater for reuse: a case study in Lund, Sweden , 2014 .

[29]  Srabayeeta Basu Roy,et al.  A Review on Bio-Composites: Fabrication,Properties and Applications , 2014 .

[30]  P. K. Marhavilas,et al.  Risk analysis and assessment methodologies in the work sites: On a review, classification and comparative study of the scientific literature of the period 2000–2009 , 2011 .

[31]  Xue-hong Zhang,et al.  Heavy metal contamination and risk assessment in water, paddy soil, and rice around an electroplating plant , 2011, Environmental science and pollution research international.

[32]  Nico Boon,et al.  Bacterial Colonization of Pellet Softening Reactors Used during Drinking Water Treatment , 2010, Applied and Environmental Microbiology.

[33]  Gertjan Medema,et al.  Quantitative microbial risk assessment of distributed drinking water using faecal indicator incidence and concentrations. , 2007, Journal of water and health.

[34]  J. Ham,et al.  Estimating the Microbial Risk of E. coli in Reclaimed Wastewater Irrigation on Paddy Field , 2007, Environmental monitoring and assessment.

[35]  D. Mara,et al.  Health risks in wastewater irrigation: comparing estimates from quantitative microbial risk analyses and epidemiological studies. , 2007, Journal of water and health.

[36]  M. El-din,et al.  Development of a quality-based irrigation water security index , 2022, Ain Shams Engineering Journal.

[37]  L. Belova,et al.  Treatment of electroplating wastewaters , 2020, E3S Web of Conferences.

[38]  Masoud Taheriyoun,et al.  Reliability analysis of a wastewater treatment plant using fault tree analysis and Monte Carlo simulation , 2014, Environmental Monitoring and Assessment.

[39]  M C M van Loosdrecht,et al.  Sieving wastewater--cellulose recovery, economic and energy evaluation. , 2013, Water research.

[40]  Lefayet Sultan Lipol Risk analysis method : FMEA / FMECA in the organizations , 2012 .