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Technická 5
166 28 Prague 6 – Dejvice
IČO: 60461373 / VAT: CZ60461373

Czech Post certified digital mail code: sp4j9ch

Copyright: UCT Prague 2017
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The Department of Water Technology and Environmental Engineering (DWTEE) is a part of the Faculty of Environmental Technology of the University of Chemistry and Technology, Prague. The Department provides education in Czech and English and is active in the research field related to water technology.  Currently, there are approximately 40 master students, 30 PhD. students and 24 staff members at the department. Many of the research projects run at the department are done in cooperation with companies and other research institutions. The department is involved in two International Erasmus Mundus study programmes: The International Master of Science in Environmental Technology and Engineering (IMETE) and the PhD. program Enviromental technologies for contaminated solids, soils and sediments (ETeCoS3).

The Department of Water Technology and Environmental Engineering has 6 informal working groups covering all topics regarding water technology, chemistry, and biology: Anaerobic Technologies, Biological Wastewater Treatment, Hydrobiology and Microbiology, Physical-Chemical Wastewater Treatment, Aquatic Chemistry and Analytics, and Drinking Water Treatment. The research interests of these groups is often shared and they cooperate with each other on scientific work and education. The department cooperates with many institutions and companies from the Czech Republic as well as from other countries.

DWTEE has a long standing history of cooperation with various international professional associations. Professor Vladimir Madera, the Head of the Department at that time, was one of the founding fathers of IAWPRC, the predecessor of International Water Association (IWA). In 1988, Prof. Grau (Head of the Department after Prof. Madera) was elected IWA's Vice-President; in 1990-1994, he served as the Association's President. Members of the DWTEE are active in the following IWA specialist groups:  Anaerobic Digestion; Design, Operation and Costs of Large Wastewater Treatment Plants; Microbial Ecology; and Water Engineering (former Activated Sludge Population Dynamics). DWTEE also cooperates with the European Water Association (EWA), where Professor Jiri Wanner was President between 2005-2007.

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The Department of Water Technology and Environmental Engineering (DWTEE) provides education in both Czech and English. If you are interested in a short, intensive course, Athens is the best choice for you. If you want to spend one or two semesters during your bachelor or masters studies at our Department and you are from an EU country, the Erasmus programme is designed for you. For students from both EU and non-EU countries, there is an alternative option with our Erasmus mundus programmes: Imete or ETeCoS3

The International Master of Science in Environmental Technology and Engineering (IMETE) programme is an International Erasmus Mundus programme and is delivered by a consortium of universities consisting of UCT Prague (Czech Republic), Ghent University (Belgium) and the UNESCO-IHE Institute for Water Education (Delft, Netherlands).

DWTEE participates as an associated partner in the PhD. Erasmus Mundus programme Enviromental technologies for contaminated solids, soils and sediments (ETeCoS3). PhD. students can come with financial support from Erasmus, Erasmus Mundus, or other foundations. ETeCoS3 is provided by a consortium consisting of the University of Cassino (Italy)UNESCO-IHE Institute for Water Education (Netherlands), and Université Paris-Est (France).

If you are interested in our research and would like to cooperate with us or work at our department, feel free to contact the leaders of working groups or the Head of the Department (Prof. Pavel Jeníček).

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The Department of Water Technology and Environmental Engineering (DWTEE) is composed of 6 working groups. Scientific work covers all topics regarding water technology, chemistry, and biology. The working groups often cooperate on scientific work and education. The Department cooperates with many institutions and companies from the Czech Republic as well as from other countries.

 

⇒ Publications

 

⇒ Projects and Grants

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Members of the Department of Water Technology and Environmental Engineering (DWTEE) take part in organizing international study programmes and work in many national and international expert associations. We will be glad to collaborate on research projects within one of the research fields studied at the Department.


→ International Study Programmes

DWTEE cooperates in two Erasmus Mundus international study programmes. For further information, contact Prof. Pavel Jeníček or Dr. Jan Bartáček.

šířka 215pxThe International Master of Science in Environmental Technology and Engineering (IMETE) programme is an International Erasmus Mundus programme. It trains people to apply and develop environmental technologies, offering a wide range of optional study fields in an international environment. IMETE is offered by a consortium consisting of three leading Higher Education Institutes: Ghent University (UGhent, Ghent, Belgium), UNESCO-IHE Institute for Water Education (UNESCO-IHE,Delft, Netherlands), and University of Chemical Technology, Prague (UCT Prague, Czech Republic). Student mobility within Europe is an integral part of the programme, which contains 120 ECTS (2 years). During the programme, students study in Delft (Netherlands), Prague (Czech Republic) and Ghent (Belgium). Master thesis research is carried out in one of these locations or at one of the many associated partner institutions all over the world. Between the first and the second years, summer school is held. More information here.

 

šířka 215px

The Environmental Technology for Contaminated Solids, Soils and Sediments (ETeCoS3)  programme provides education and research at the PhD level, training its doctoral candidates to think globally and co-work in multidisciplinary research teams. It is delivered by three universities: University of Cassino (Italy)UNESCO-IHE Institute for Water Education (Netherlands), and Université Paris-Est (France). The programme is centered around three key topics in environmental pollution: Heavy metals, recalcitrant organic pollutants, and contaminated solids. The programme focuses on fundamental and applied aspects to treat and remove these pollutants as well as on the development of recovery and reuse technologies with market potential. There will be a close connection to practical problems, as e.g. hot spots in the Balkans, brown fields in the Czech Republic, and sediments and soils polluted by mining activities in Minais Gerais (Brazil). UCT Prague (represented by the Department of Water Technology and Environmental Engineering) is an associated partner of the consortium.


→ Expert Associations

šířka 215pxThe Czech Water Association (CzWA) was formed in 2009 from the previous Association of Wastewater Treatment Experts (ACE CR). The CzWA is an independent non-governmental and non-profit organization promoting the sustainable and improved management of the total water cycle. The CzWA is a national member for the Czech Republic in the European Water Association and in the International Water Association.

 

šířka 215pxThe International Water Association (IWA) is a global reference point for water professionals, spanning the continuum between research and practice and covering all facets of the water cycle. Through its network of members and experts in research, practice, regulation, industry, consulting and manufacturing, IWA is in a better position than any other organisation to help water professionals create innovative, pragmatic and sustainable solutions to challenging global needs. Members of DWTEE are active in the following specialist groups of the association:  Anaerobic Digestion; Design, Operation and Costs of Large Wastewater Treatment Plants; Microbial Ecology; and Water Engineering (formerly Activated Sludge Population Dynamics).

šířka 215px

 

The European Water Association (EWA) today represent most European countries. The main goal of the association is to create a forum for the mutual information exchange in all aspects of water pollution control in general and of wastewater collection, treatment and disposal in particular. EWA provides professional service to the European Commission in matters dealing with water pollution control and consultancy of water legislation. The Czech Republic became a member of EWA in May 1997. The activities of EWA in the Czech Republic are organized and co-ordinated by the Czech Water Association (CzWA). Professor Jiri Wanner from DWTEE was EWA President between 2005-2007.

šířka 215pxThe World Toilet Organization (WTO) is a global non-profit organization committed to improving toilet and sanitation conditions worldwide. WTO is also one of the few organizations to focus on toilets instead of water, which receives more attention and resources under the common subject of sanitation. Founded in 2001 with 15 members, it now has 235 member organizations in 58 countries working towards eliminating the toilet taboo and delivering sustainable sanitation. Professor Jiri Wanner is a member of the WTO.

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Department Photogallery

šířka 215px

Department in News

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University of Chemistry and Technology, Prague 

Faculty of Environmental Technology
Department of Water Technology and Environmental Engineering
Technická 5   
166 28 Praha 6 - Dejvice
Czech Republic

Building B, Room No. 116

[ikona] => info [obrazek] => [ogobrazek] => [pozadi] => [obsah] =>

Contacts

Head of Department:

Bartáček Jan, prof.

Scientific Secretary:

Bindzar Jan, Ing., Ph.D.

Treasurer:

Sýkora Vladimír, doc. Ing., CSc.

Librarian:

Šmejkalová Pavla, Dr. Ing.

Administration:

Vymětalová Andrea

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Number Provider Title From To Contact person

FW06010567

TAČR

DIRE - Digital Twin of Water Recycling Technological Units

2023 2025 P. Dolejš
VB01000006 MV TWIN SKIN - Digital TWIN for Safety of Critical Infrastructure in water treatment plants 2022 2023 P. Dolejs
FW04020040 TAČR Digital Twin of a Wastewater Treatment Plant for Treatment Simulation and Optimization in Real Scale and Time 2022 2024 P. Dolejs
GAČR Unique ladderane phospholipids of anammox bacteria: potential valuable resource from sewage 2020 2022 V: Kouba
SS01020112 TAČR Technology for the removal of antibiotic resistance from sewage sludge applied in agriculture 2020 2023 J. Bartáček
Wider Uptake H2020

Achieving wider uptake of water-smart solutions

2020 2024 J. Wanner, M. Pečenka, I. Růžičková
SS01020210 TAČR

Use of cloud-computing and predictive wastewater analysis to reduce emissions to the aquatic ecosystem

2020 2023 J. Bartáček, P. Dolejš
FW01010142 TAČR Combination of advanced oxidation processes (AOP) and membrane separation for industrial wastewater treatment 2020 2022 J. Bindzar
shAMRock Norway fund shAMRock: shocking antimicrobial resistance 2020 2020 A. Milobedzka
REPARES H2020

Research platform on antibiotic resistance spread through wastewater treatment plants

2019 2022 J. Bartacek, D. Vejmelkova, P. Jenicek, A. Milobedzka, L. Pokorna
TJ02000139 TAČR Development of technology for elimination of micro-pollutants and antibiotic resistance genes in the environment and human organism 2019 2021 D. Vejmelkova, P. Smejkalova, V. Kouba, I. Karpisek, T. Pacholska
TH04030202 TAČR Nanotechnology for reducing phosphorus load on ecosystems 2019 2021 J. Wanner, M. Pečenka, I. Růžičková
TK01030051 TAČR Biomethanizace oxidu uhličitého na biomethan s využitím vodíku 2018 2023 D. Pokorná, J. Zábranská
TH03030080 TAČR

The use of treated wastewater in water management of cities of the future

2018 2020 J. Wanner, V. Janda, M. Pecenka, A. Benakova
TH03030408 TAČR

Modular technology for separate cleaning of grey water

2017 2020 J. Bartacek, B. Satkova
17-25781S GAČR

Physiological reaction of anammox microorganisms to cold shocks

2017 2019 V. Kouba, J. Bartacek
SuPER-W The Marie Skłodowska-Curie Action - European joint doctorate

Sustainable Product, Energy and Resource Recovery from Wastewater

2016 2020 J. Bartacek, P. Jenicek
REEF-2W EU-INTERREG

Increased renewable energy and energy efficiency by integrating, combining and empowering urban wastewater and organic waste management systems

2017 2020 P. Jeníček
TA04020951 TAČR Biologická produkce methanolu z odpadního methanu  2015 2017 J. Bartáček
TH01021100 TAČR Recyklace energie ze splaškových odpadních vod v anaerobních membránových reaktorech v prostředí střední Evropy  2015 2017 J. Bartáček
CSM12 MŠMT Společná laboratoř pro výzkum nových procesů a technologií úpravy vlastností vody  2015 2015 V. Janda
TA04020217 TAČR Inovativní způsob čištění odpadních vod se zaměřením na zisk nutrientů v čisté formě  2014 2017 J. Wanner,
M. Pečenka,
I. Růžičková
TA04021421 TAČR Komplexní přístup k řešení snižování znečištění reaktivními formami fosforu a dusíku v hydrologicky vymezené části povodí vodárenské nádrže Švihov  2014 2017 J. Wanner,
M. Pečenka,
I. Růžičková
TA03021160 TAČR Využití modelovacího protokolu pro optimalizaci procesu na čistírnách odpadních vod a energetických úspor na nich  2013 2015 J. Wanner,
M. Pečenka
TA03021413 TAČR Využití biomembránových procesů pro odstraňování sulfanu z bioplynu pomocí biochemické oxidace  2013 2015 P. Jeníček
FR-TI4/254 MPO ČR Kontejnerová technologie pro čištění průmyslových odpadních vod  2012 2015 J.  Wanner
  NAKI Nové materiály a technologie pro konzervaci materiálů památkových objektů a preventivní památkovou péči 2011 2015 J. Říhová Ambrožová
TA01020798  TAČR Komplexní biotechnologie pro spojené odstraňování sulfanu z bioplynu a nutrientů z odpadních vod na čistírnách odpadních vod, bioplynových stanicích a podobných technologických celcích 2011 2014 D. Pokorná
TA01020592  TAČR Dopady na mikroklima, kvalitu ovzduší, ekosystémy vody a půdy v rámci hydrické rekultivace hnědouhelných lomů 2011 2014 J. Říhová Ambrožová
FR-TI1/327 MPO ČR Vývoj odsiřovacího biofiltru pro čištění bioplynu, doba řešení  2009 2013 J.  Zábranská
MSM 6046137308 MŠMT ČR Studium chemických a biologických procesů pro ochranu životního prostředí 2007 2013 P. Jeníček
ERG-2010-268417 European Comission Biofilms in Bioreactors for Advanced Nitrogen Removal from Wastewater 2010 2013 J. Bartáček
QI92A286 NAZV MZe ČR Zvýšení produkce bioplynu z rostlinné biomasy použitím anaerobních hub 2009 2012 M. Dohányos
IAAX00430802 GAČR Účinky výbojového plazmatu na chemické a biologické znečištění ve vodě 2008 2012 J. Říhová Ambrožová
203/09/1349 GAČR Stanovení a biologická rozložitelnost látek nebezpečných pro životní prostředí v hydrosféře 2009 2011 V. Sýkora
FI-IM5/183  MPO ČR Suchá fermentace biomasy a tříděného biodegradabilního odpadu s energetickým vyžitím bioplynu k výrobě elektrické energie 2008 2010 J. Zábranská
104-08-0435 GAČR  Inteligentně strukturované mesoporézní vrstvy TiO2 antibakteriálními a řízeně proměnnými smáčecími vlastnostmi 2008 2010 J. Říhová Ambrožová
MEIF-CT-2006-041896 European Comission Bioavailability of Heavy Metals in Anaerobic Granular Sludge 2008 2010 J. Bartáček
SP/3g4/129/07 MŽP ČR Intenzifikace produkce bioplynu 2007 2009 M. Dohányos
INGO LA279 MŠMT ČR Vedení Evropské asociace pro vodu (EWA) a organizace přenosu a výměny informací a znalostí 2006 2009 J. Wanner
FP6-018525 European Comission Reduction, modification and valorization of sludge 2006 2009 P. Jeníček
1M4531477201    Výzkumné centrum pro nanopovrchové inženýrství  2005 2009 J. Říhová Ambrožová
1H-PK2/42 MPO  Automatizovaná linka pro autotermní aerobní hygienizaci a stabilizaci kalů (ATAD) z komunálních čistíren odpadních vod – výzkum, vývoj, výroba a odzkoušení prototypu a návrh provozního zařízení 2005 2009 M. Pečenka
FT –TA2/066 MPO  Výzkum a vývoj systému dezintegrace vláknitých struktur v aktivovaném kalu 2005 2009 I. Růžičková
1G58052  NAZV MZe ČR  Výzkum řešení degradace jakosti pitné vody při její akumulaci 2005 2008 J. Říhová Ambrožová
CZ.04.3.07/ 3.2.01.3/3220   Centrum technického celoživotního vzdělávání při VŠCHT Praha, Mikrobiologie základních systémů. 2006 2008 J. Říhová Ambrožová
MEXT-CT-2003-509567 European Comission Novel Biological Engineering Processes for Heavy Metal Removal and Recovery 2004 2008 J. Bartáček
104/05/2501  GAČR  Studium biologických přeměn sloučenin síry pro využití v technologiích ochrany prostředí 2005 2007 J.  Zábranská
104/05/0798  GAČR  Anaerobní technologie pro zpracování odpadů s vysokými obsahy proteinů 2005 2007 J.  Zábranská
FT-TA/034 MPO  Ekologicky šetrná inhibice množení patogenních bakterií a řas v cirkulačních chladicích systémech jaderných elektráren a jiných podobných technologických zařízeních 2004 2006 J. Říhová Ambrožová
104/03/0408 GAČR  Nitritace a denitritace jako prostředek k racionalizaci biologického odstraňování dusíku z odpadních vod 2003 2005 P. Jeníček
203/03/0925 GAČR  Výzkum a využití reakce kovového železa s halogenovanými uhlovodíky ve vodě v environmentální chemii 2003 2005 V. Janda
104/03/0119 GAČR  Biomethanizace směsných odpadů a rostlinné biomasy 2003 2005 M. Dohányos
GA104/03/1550 GAČR Rezistence ekologicky významných alkylfenylpolyethylenglykoletherových povrchově aktivních látek a jejich intermediátů ve vodním prostředí 2003 2005 P. Pitter
203/03/0922 GAČR  Odstraňování těžkých kovů z vod použitím netradičních pevných sorbentů  2003 2005 N. Strnadová
QC 0244 NAZV MZe ČR Integrovaný přístup při návrhu rekonstrukcí a modernizací ČOV 2000 2004 I. Růžičková
202/02/1026 GAČR  Kombinovaný impulzní vysokonapěťový výboj pro čištění vody 2002 2004 V. Janda
203/01/D016 GAČR Studium biologických pěn na aktivačních čistírnách v ČR –charakterizace pěnotvorného potenciálu aktivovaného kalu a vliv detergentů 2002 2004 I. Růžičková
FF-P/080 MPO Výzkum a vývoj technologií termální aerobní stabilizace organického odpadu pro průmyslové využití 2002 2004 I. Růžičková
MSM 223200003 MŠMT ČR Studium chemicko-technologických procesů pro ochranu životního prostředí a zpracování paliv 1999 2004 M. Dohányos
QD 1069 NZVA MZe ČR Minimalizace množství produkovaných čistírenských kalů 2001 2004 M. Dohányos
QD 1003/2001 NZVA MZe ČR Výzkum efektu úpravy vody na její jakost při prodlužujícím se zdržení v rozvodné síti 2001 2004 J. Říhová Ambrožová
QD 1004/2001 NZVA MZe ČR Rekonstrukce a modernizace úpraven vod a vodovodů 2001 2004 J. Říhová Ambrožová
203/02/0303 GAČR  BDOC – nový parameter pro hodnocení biologické stability vody 2002 2004 N. Strnadová
203/02/P011 GAČR Biologická rozložitelnost látek ovlivňujících povrchové napětí vod 2002 2004 J. Bindzar
FF-P/080 MPO  Výzkum a vývoj technologií termální aerobní stabilizace organického odpadu pro průmyslové použití 2002 2004 M. Pečenka
  MVV SRN Foam and scum in biological wastewater treatment 2001 2003 J. Wanner
COST 624   Optimal wastewater management 1999 2003 J. Wanner
104/00/0867 GAČR Intenzifikace kalového hospodářství a možnosti potlačení pěnění na čistírnách odpadních vod pomocí radiační technologie 2000 2002 P. Jeníček
203/00/1207 GAČR Vedlejší produkty chlorace vody obsahující makromolekulární organické látky 2000 2002 V. Janda
  DBU a ATV-DVWK SRN Knowledge and technology transfer in wastewater and waste from Germany to the Czech Republic, Hungary ana Poland 2000 2002 J. Wanner
č. 0653 MŠMT, FRVŠ F1 Využití počítačů ve výuce předmětu Hydrochemie 2001 2001 P. Pitter
EP9346 NAZV MZe ČR Hygienizace čistírenských kalů 1999 2001 M. Dohányos
PL971185 EU INCO COPERNICUS Biotechnological procedures for sustainable water management 1998 2001 J. Wanner
203/99/1671 GAČR Odstraňování beryllia ze zdrojů pitné vody 1999  2001 N. Strnadová
202/99/0305 GAČR Generace chemicky aktivních látek elektrickými výboji ve vodě 1999  2001 V. Janda
EP 9259 NAZV MZe ČR  Využití poznatků z populační dynamiky aktivovaných kalů pro řešení provozních problémů systémů biologického odstraňování nutrientů 1999 2001 M. Pečenka
203/97/0701 GAČR Chemická struktura a biodegradabilita komplexotvorných látek 1997 1999 P. Pitter
EP 7209  NAZV MZe ČR Vyhodnocení technologií odstraňování nutrientů na čistírnách odpadních vod v České republice za účelem zpřesnění návrhových postupů a optimalizace provozu 1997 1999 J. Wanner
EP 7210  NAZV MZe ČR Národní přehled výskytu vláknitých mikroorganismů v aktivačních čistírnách v ČR a výzkum a ověření opatření ke snížení jejich negativního dopadu na funkci ČOV 1997 1999 J. Wanner
104/96/0449 GAČR Kombinované odstraňování organických látek a nutrientů z odpadních vod anaerobně-aerobním čištěním 1996 1998 P. Jeníček
203/96/0617 GAČR Vývoj instrumentace a metodologie nadkritické tekutinné extrakce vodných medií pro stanovení organických polutantů 1996 1998 V. Janda
202/96/0746 GAČR Impulzní koronové výboje pro plazmochemickou likvidaci organických příměsí ve vzduchu a ve vodě 1996 1998 V. Janda
  Körberova nadace Use of gene probes and microprobes in environment and medicine 1995 1998 J. Wanner
COST 686   Integrated wastewater management 1993 1998 J. Wanner
  MVV SRN Snižování zbytkového organického znečištění v odtocích biologických čistíren odpadních vod 1991 1998 J. Wanner
CIPA-CT94-0146 EU INCO COPERNICUS Supercritical fluid extraction methods and instrumentation development 1995 1997 V. Janda
MŠ OK 063 MŠMT ČR SFE PAH z vodných roztoků 1995 1997 V. Janda
FITA II Ghent University Development of novel technological principles for ecotoxicological bioassays 1995 1997 J. Říhová Ambrožová
203/95/0058 GAČR Kombinovaná metoda iontové výměny a biologické denitrifikace 1995 1997 N. Strnadová
206/94/1183 GAČR Řízení separačních vlastností aktivovaných kalů v systémech biologického odstraňování nutrientů z odpadních vod  1994 1996 J. Wanner
  EU ENVIRONMENT Řízení bytnění a biologických pěn v aktivačních čistírnách s biologickým odstraňováním nutrientů 1993 1996 J. Wanner
  MŠMT, FRVŠ Aplikace Granových titrací v analytice vody 1996 1996 P. Pitter
104/96/0449 GAČR Kombinované odstraňování organických látek a nutrientů z odpadních vod anaerobně-aerobním biologických čištěním 1996 1996 P. Šmejkalová
203/94/117 GAČR Minimalizace produkce tuhé fáze při chemickém srážení těžkých kovů 1994 1994 N. Strnadová
č. 001 Fond dynamického rozvoje vysokých škol Zavedení extrakce nadkritickou tekutinou do výuky 1994 1994 V. Janda
GA/520/93 MŽP Testování biologické rozložitelnosti výrobků, metody, interpretace výsledků a návrh limitů 1993 1993 P. Pitter

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Provider: 

The Technology Agency of the Czech Republic

Call:

Duration:

2020-2022

Number/acronym:

FW01010142

Investigator/s:

  • Jan Bindzar, PhD

Partners:

  • ENVI-PUR, s.r.o.
[ikona] => [obrazek] => [obsah] =>

Project goal:

The project aims to assess various advanced oxidation processes (AOPs) for the treatment of difficult to treat industrial wastewater. Subsequently, the wastewater will be purified by means of a membrane biological reactor (MBR), which guarantees a high outflow quality. To carry out laboratory and operational tests, a pilot plant model with AOP and subsequent MBR will be installed (fitted) at the selected location. Several AOPs based on the use of UV radiation, ozone and hydrogen peroxide will be evaluated in the project. The long-term operation of the plant will evaluate the efficiency of AOPs, the efficiency of the biological process, the development of permeate quality, the economic and energy balance, and the utilization of purified waste water for recycling.

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Digital Twin of Water Recycling Technological Units

Provider

The Technology Agency of the Czech Republic

Program

6. public tender by Ministry of Industry and Trade - TREND

Duration

01/2023 – 12/2025

Investigators at UCT Prague

Project partners

  • Ústav pro hydrodynamiku AV ČR, v.v.i.
  • VDT Technology, a.s.
  • Mezinárodní bezpečnostní institut, z.ú.
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Project goals

The aim of the project is to develop and test a simulation tool for monitoring and control of reuse technologies using a digital twin for existing pilot-plant technological units for treated municipal wastewater reuse at WWTP Brno-Modřice. The innovation includes the implementation of advanced sensors, the creation of a digital twin of pilot-plant units, and the creation of variant self-learning algorithms for steady state and dynamic behavior simulation.By correlating the monitored variables, we will achieve create soft sensors for pollution monitoring and simulation of reuse efficiency, which will allow us to predict and minimize risks for reused water applications according to EU Regulation 2020/741. The output will be a digital twin module integrated into a comprehensive reuse technology solution

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Digital Twin of a Wastewater Treatment Plant for Treatment Simulation and Optimization in Real Scale and Time

 

Provider

The Technology Agency of the Czech Republic

Program

First public tender by Ministry of Industry and Trade - TREND

Duration

03/2022 – 06/2024

Investigators at UCT Prague

  • Petr Dolejš, Ph.D. – coordinator
  • Ing. Jan Bartáček, Ph.D.
  • Markéta Andreides
  • Vojtěch Kouba, Ph.D.

Project partners

  • Prague Advanced Technology and Research Innovation Center, a.s. - koordinátor
  • Vodohospodářský podnik, a.s.
  • Vodovody a kanalizace Beroun, a.s.
[ikona] => [obrazek] => [ogobrazek] => [pozadi] => [obsah] =>

Project goals

The main goal of the project is to ensure effective wastewater treatment by implementing new knowledge from the field of informatics, advanced technologies and principles of industry 4.0, with the possibility of real-time optimization based on simulations of technological measures in the digital twin of a wastewater treatment plant. Another goal is the integration of a new principle of documentation management using the digital twin, which, thanks to a database system in the object architecture, will enable automation of operational tasks, efficient management of operational data and continuous evaluation of defined performance indicators (KPIs).

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Digital TWIN for Safety of Critical Infrastructure in water treatment plants

Provider

Ministry of Interior of Czech Republic

Program

VB - Security Research Program of the Czech Republic 2021-2026: development, testing and evaluation of new security technologies (SECTECH) (2021 - 2026)

Duration

01/2022 – 12/2023

Investigators at UCT Prague

  • Petr Dolejš, Ph.D. (koordinátor projektu)
  • Dominik Andreides
  • Ing. Pavla Šmejkalová
  • Ing. Jan Bartáček, Ph.D.

Project partners

  • Ústav pro hydrodynamiku AV ČR, v.v.i.
  • VDT Technology, a.s.
  • Mezinárodní bezpečnostní institut, z.ú.
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Project goals

The project will implement the emerging digital twin of a water treatment plant (WTP) enabling the simulation of technological and process measures for various operating conditions, management of documentation, and especially the management of operational risks. Thanks to the 24-hour prediction of raw water quality input using the computational algorithm of neural networks, operational risks will be eliminated. This predictive knowledge of the input parameters to the water treatment process will increase, together with the expert simulation in a mathematical model, the robustness of the critical infrastructure system and ensure the supply of quality drinking water to the population. Simulations in the digital twin will be performed in real-time on the infrastructure of testing authorities.

 

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Provider: 

Czech Science Foundation

Title:

Unique ladderane phospholipids of anammox bacteria: potential valuable resource from sewage

Duration:

01/2020 - 12/2022

Investigator/s:

[ikona] => [obrazek] => 0003~~80lMSUktyi_Oz01VMAYA.png [ogobrazek] => [pozadi] => [obsah] =>

Hlavní cíle:

  • Isolation of ladderane phospholipids from wastewater treatment plants waste biomass
  • Characterization of ladderanes and their membranes
  • Research of ladderanes potential applications

Abstrakt:

Anammox bacteria are standardly applied in the wastewater treatment process for the removal of nitrogen. Their waste biomass and other sludge compose a great amount of waste from the treatment plants and its further utilization or recycling is often problematic. However, unlike other bacteria, anammox contain unique lipids in their membranes, the ladderanes, which characteristics are still not sufficiently explored. Therefore, this project is devoted to the cultivation of anammox bacteria, the isolation and characterization of ladderanes, and research on their possible applications in the chemical or pharmaceutical industry. The ultimate goal is to recover the waste anammox biomass and turn it into a high-value product, a source of ladderane phospholipids.

For students: join our scientific project, write to koubav@vscht.cz

 ◳ pipeline (png) → (šířka 450px)

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 ◳ Grafika medailonek projektu (jpg) → (originál)

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Grant ID
SS01020210
 
Launch
May 1, 2020
 
End
April 30, 2023
 
Provider
TACR, Environment for Life
 
Overall budget
CZK 19,928,841
 
Coordinator
UCT Prague
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 ◳ logo WST_v1 (png) → (výška 215px)The aim of the project is to create an intelligent algorithm for predicting the quality and quantity of wastewater flowing into the wastewater treatment plant. Prediction of these data in the order of hours to days will allow proposing operational measures to reduce the risk of pollution emissions, including simulation scenarios and risk analysis at WWTPs, or at relief chambers. The algorithm will use cloud-computing and machine learning. Based on an in-depth analysis of available wastewater data (qualitative and quantitative data, recurring events, ie days of the week, seasons, etc. together with precipitation forecasting), a neural network capable of predicting the quality of inflowing wastewater will be created. This knowledge will make it possible to create a database of scenarios of operational measures at WWTPs, to simulate the effect of their implementation and thus eliminate the risk of non-compliance with emission limits to aquatic ecosystems.

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Precious metals or oil no longer pay for the most valuable commodity, but data (information) and water. The ability to obtain and process relevant data on water infrastructure is therefore essential for the sustainable development of society. The project is based on the principle of digitization of water management infrastructure (Smart Metering). Industry 4.0, ie the now culminating fourth industrial revolution, requires a modern approach to the management of water management infrastructure of cities and municipalities. The use of artificial intelligence to obtain predictive data on water quality in practice is a completely new concept, but based on already functioning digital tools (cloud platform with high computing power, machine learning method with Big Data).

[ikona] => megafon [obrazek] => [ogobrazek] => [pozadi] => [obsah] =>
The project responds to the need for water management data, defined in the methodology of the Ministry of Regional Development - Smart Cities Concept (2015) as a basic knowledge pillar for data-driven urban development, adaptation measures to climate change, and protection of natural resources.
 
The current state of knowledge in the operational practice of sewerage and treatment is based on dynamic models of sewer networks (water quantity - hydrological and hydraulic models) or on correlation relationships between directly and indirectly measured physicochemical indicators (water quality). However, existing applications do not make it possible to predict the future state of wastewater quality (and quantity). The WST project builds on the use of the latest knowledge from IT, ie in-depth data analysis and neural network creation, and at the same time applies technical knowledge of sewerage and WWTP operation.
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Water Scan Toolbox (WST)

  • cloud-based application that uses predictive knowledge of the quantity and quality of incoming wastewater to assess the load on a wastewater treatment plant (WTP)
  • digital tool for automated operational and technological measures of WWTPs

The tool is based on three pillars: a predictive model of the quantity and quality of wastewater, a database of event scenarios for various operating conditions with the assumed load of the WWTP, and a decision matrix for the selection of operational and technological measures for various events. The purpose of WST is to reduce operational risks, especially during periods of torrential rains, and to increase the efficiency of water treatment by allowing WWTPs to prepare early.

The Water Scan Toolbox is now available for wastewater treatment plant operators and managers worldwide.

More information will be provided:

Mgr. Michal Janovský - head of the communications department
Tel.: 220 444 159, mobil: 733 690 543
E-mail: michal.janovsky@vscht.cz

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Wider uptake

Provider: 

European Commission

Call:

The project has received funding from the European Union’s Horizon 2020 research and innovation programme under grant agreement No. 869283

Duration:

2020-2024

Investigator/s:

  • Prof. Ing. Jiří Wanner, DrSc.
  • Ing. Iveta Růžičková, Ph.D.
  • Ing. Martin Pečenka, Ph.D.
  • Ing. Adéla Puškáčová (Ph.D. student)
  • Solomon Ofori, MSc. (Ph.D. student)
  • Ing. Daniel Pliska (Ph.D. student)
  • Ing. Dominik Matýsek (Ph.D. student)

Partners:

  • Czech Technical University
  • PVS

a5 (výška 215px) a6 (výška 215px)

[ikona] => [obrazek] => 0001~~CyhKLU7NK0ksyczPM1QwAgA.jpg [ogobrazek] => [pozadi] => [obsah] =>

Project Objective

The overall objective is to facilitate industrial symbiosis by co-development of a roadmap towards wider uptake of water-smart solutions for wastewater reuse and resource recovery.

Specific objectives

To demonstrate innovative technical solutions that optimize water reuse and resource recovery in selected industry settings by:

  1. Demonstrating safe use of treated effluent for irrigation purposes in grey-green solutions for urban development with reasonable water transportation expenses.
  2. Developing and applying monitoring and control schemes to adequately manage the health and quality risks associated with reuse of treated wastewater and recovered resources.
  3. Optimization of the value chains to quantify the improved resource efficiency and economic benefits, also with respect to future applications.

Abstract

WIDER UPTAKE will demonstrate innovative solutions for wastewater reuse and resource recovery where market utilization of the recovered resource(s) (water, nutrients, materials, energy) is achieved through a symbiosis between the utility and industry. WIDER UPTAKE will apply a case study approach that will provide applied knowledge on the operationalization of the solutions in a range of socio-economic, environmental and climatic conditions. The case study approach will cover different situations with regards to the availability of water resources and what type of resources e.g. nutrients, biosolids, energy that are in focus for recovery. The scale and maturity in the development of the water-smart symbiotic solutions will also differ between the case studies allowing for the sharing of knowledge and identifying best practices at different stages of implementation.

a2 (šířka 450px)

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Provider: 

Technology Agency of the Czech Republic

Call:

Duration:

2018 - 2020

Investigator/s:

  • Prof. Ing. Jiří Wanner, DrSc.
  • Prof. Ing. Václav Janda, CSc.
  • Ing. Martin Pečenka, Ph.D.
  • Ing. Andrea Benáková, Ph.D.
  • Ing. Eliška Peterková (Ph.D. student)
  • Ing. Adéla Puškáčová (Ph.D. student)

Partners:

  • PVK, a.s.

 2 (šířka 215px)

[ikona] => [obrazek] => 0001~~M1TQMNQEAA.jpg [pozadi] => [obsah] =>

Project objectives:

The aim of the project is to create chemical and technological conditions for the recycling and reuse of purified urban wastewater and where it is possible to replace so far usage of expensive drinking water for non-drinking purposes. The reused water will be utilized mainly for agricultural and other irrigation, irrigation for lawns of sports grounds (golf, football, etc.), urban greenery, service water for maintaining the cleanness of towns and municipalities. After measurements in the laboratory, proposed operations and their combinations are tested at the pilot scale in the form of a module, treating the effluent from the current water line in the Central Wastewater treatment plant in Prague.

Specific objectives:

The specific aim was a proposal of the composition of laboratory devices for testing of the technological arrangement of the water treatment line, treating the effluent from CWWTP to water suitable for irrigation, and realization of testing the particular variations of technological arrangements in pilot scale. The economic intention is to produce cheaper service water than potable water, often used for these activities. The non-economic aim is the conservation of natural sources – i.e. the raw groundwater and surface water resources used for potable water production.

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Provider: 

Technology Agency of the Czech Republic

Call:

The project has received funding from the innovation programme for support applied research and experimental development - EPSILON, under grant agreement TH04030202.

Duration:

2019 - 2021

Investigator/s:

  • Prof. Ing. Jiří Wanner, DrSc.
  • Ing. Iveta Růžičková, Ph.D.
  • Ing. Martin Pečenka, Ph.D.
  • Ing. Lenka Miklíková (Ph.D. student)

Partners:

 

[ikona] => [obrazek] => 0002~~S0xMTAQA.jpg [pozadi] => [obsah] =>

Motivation:

In recent years, eutrophication has proven to be a serious threat to water bodies. Excess of nutrients in surface water causes increased growth of cyanobacteria, which further causes a reduction of dissolved oxygen, death of fish due to suffocation and complicates processes of water treatment for further use. The deteriorating quality of water resources is directly related to human activities. One of the main sources of nutrients in water is effluent from municipal wastewater treatment plants. Therefore, it is necessary to pay attention to this problem and try to develop new or improve existing methods of nutrient removal in municipal wastewater treatment plants, especially forms of phosphorus, and thus work to improve the quality of water resources.

Project Objective:

The main objective of the Project is the introduction of environmental technologies into the wastewater treatment processes (WWTP) with the aim of reducing the hazardous phosphorus impact on the environment especially in the water protection sphere, and/or minimizing the risks of the negative influences of this pollutant on living organisms including human health. It is specifically, research and development of technologies focused on the tertiary treatment of wastewaters using the nanofibers technology. The main goal of this Project is obtaining a utility model – MEMFOS system and functional sample. The MEMFOS system will find the application at wastewater treatment plants whose outflows will be required to show total phosphorus concentrations in micrograms.

Specific objectives:

In the area of tertiary wastewater treatment, the Czech Republic does not use technology that would ensure microgram values of phosphorus in effluent neither technology using nanomaterial. Due to the planned changes in the law, will be required a reduction of concentration of phosphorus in the effluent from WWTP. It is necessary to respond to this requirement, i.e. find a solution and thus be prepared for the emerging market in the water sector. The solution procedure includes the following points:

  1. Laboratory testing of the behavior of existing nanomaterials by using the effluent from wastewater treatment plants with subsequent modification of the material so that that material can be used as a main functional element for the MEMFOS pilot plant.
  2. Design of the MEMFOS pilot plant.
  3. Construction of the MEMFOS pilot plant.
  4. Testing of the MEMFOS pilot plant.
  5. Optimization of operations of MEMFOS pilot plant.

Keywords:

filtering nanofibers material; tertiary treatment; wastewater; wastewater treatment plant; phosphorus; environmental technology

aaa (šířka 450px)

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Provider: 

The Technology Agency of the Czech Republic

Call:

THÉTA Programme for applied research, experimental development, and innovations

Duration:

09/2018 - 08/2023

Investigator/s at UCT Prague:

  • Dr. Dana Pokorná
  • prof. Jana Zábranská
  • MSc. Zdeněk Varga
[ikona] => [obrazek] => 0001~~Sy7OjQ9OzsjMSYl3yszPTS3JSMyLN0lNM7JItDAwSgEA.jpg [obsah] =>

Project goal:

The goal of the project is finding of technological parameters and the bioreactor configuration for biological conversion of carbon dioxide to biomethane, which is transportable by the natural gas grid. The project comprises a determination of cultivation conditions of hydrogenotrophic methanogens, an introduction of hydrogen to the system, finding of bioconversion limits during hydrogen dosing to the external bioreactor or directly to the anaerobic fermenter. Further different possibilities of an application in the technology of biogas production will be evaluated. This approach enables to exploit existing technological and energetical infrastructures of biogas plants and wastewater treatment plants and the implementation could be very fast.

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Provider: 

The Technology Agency of the Czech Republic

Call:

ZÉTA - 2nd tender of the program for the support of applied research

Duration:

06/2019 - 05/2021

Number/acronym:

TJ02000139 / MICROGENEL

Investigator/s:

  • Dana Vejmelková, PhD.
  • Pavla Šmejkalová, PhD.
  • Vojtěch Kouba MSc.
  • Ivan Karpíšek, MSc.
  • Tamara Pacholská, MSc.
  • Stanislav Gajdoš, MSc.

Partners:

[ikona] => [obrazek] => [obsah] =>

Main goals:

Design a unit for removing micropollutants and antibiotic resistance genes from small water sources of drinking and wastewater.

Abstract:

The project responds to two global problems: the spread of antibiotic resistance genes (ARGs) and the general pollution of the environment by micropollutants (drug and pesticide residues). The growth of antibiotic resistance is a complex problem and these days it is one of the greatest civilization threat. Many micropollutants have already been shown to have negative effects on aquatic and soil organisms that can significantly disrupt the affected ecosystem. This contamination can have a direct and indirect impact on human health. The micropollutants are commonly found in wastewaters, however, wastewater treatment plants (WWTPs) were not designed to remove them. Treated wastewater is a potential source of water for further application, but care must be taken to avoid the spread and accumulation of ARGs and micropollutants, e.g. by using contaminated water for crop watering. The Czech Republic will have to adapt in the near future to new Regulation of the European Parliament and of the Council on minimum requirements for water reuse, which is currently under preparation. The main objective of this Regulation is to mitigate the causes and consequences of water scarcity throughout the EU. This project focuses on the treatment of wastewater from smaller local sources, such as a small WWTP or recreational facility with a domestic treatment plant, with the aim of potential reuse of these waters for utility purposes. Furthermore, the system will be optimized for the recovery of local underground sources of drinking water contaminated with pesticides from agricultural activities. This enables to use it in areas with a lack of (high-)quality water for housing, recreation, and services.

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Provider: 

The Ministry of Finance – National Focal Point for the EEA and Norway Grants in the Czech Republic

Call:

Grant applications for bilateral initiatives under the Fund for Bilateral Relations within the framework of the EEA and Norway Grants 2014-2021 (2nd Call)

Duration:

01/2020 - 07/2020

Investigator/s:

 EEA-and-Norway_grants (výška 215px)

[ikona] => [obrazek] => 0004~~88svKk-sVCgoys9KTS5RMAIA.jpg [pozadi] => [obsah] =>

Main goals:

  • building knowledge capacity of Czech and Norwegian partners
  • training Norwegian researchers in MinION sequencing
  • training Czech researchers in  public engagement, science communication, and successful grant writing
  • short term internships for Czech student
  • involving society in the discussion on the spread of antibiotic resistance during informal meetings - Café Scientifique
  • raising Czech scientific and non-scientific societies awareness in the field defined by the initiative
  • promoting EEA and Norway grants


Abstract:

The shAMRock bilateral initiative aims to raise social awareness of the antimicrobial resistance (AMR) problem, share knowledge obtained during bilateral workshops and information from the monitoring of Czech and Norwegian wastewater treatment plants (WWTPs) using culture-dependent and molecular methods. Both institutions involved in the initiative have a mutual interest with the aim to raise social awareness of AMR in WWTPs. The initiative will increase understanding between the Czech Republic and Norway.

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News

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Provider: 

The Technology Agency of the Czech Republic

Call:

Program to support applied research and experimental development EPSILON

Duration:

01/2017 - 12/2020

Investigator/s:

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Main goals:

  • Design of alternative solutions for gray waters recycling .
  • Determination of health risks and risks to the environment.
  • Use of Internet of Things (IoT) technologies.


Abstract:

The most common objection to the gray waters recycling is that these waters contain harmful substances or the environment and may affect health or the environment. In practice, integration into technical building equipment (TZB) as well as integration into the public water supply and sewerage system (disputes concerning the payment of sewerage and connection to the water supply network from which the water used) has not yet been resolved or is not verified in practice.
The aim is to design and verify several solutions for recycling gray waters, to identify health risks and risks to the environment. Based on the results, propose suitable solutions with respect to the purpose of use. Furthermore, technically solve the objection, connection to public water supply and sewerage, using the Internet of things (IoT) technology.

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  • Calendar

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repares_logo_dlouhé_Kreslicí plátno 1 (edited 19.9.19 14:01:03) (šířka 450px)

TU Delft (výška 215px) AAU (výška 215px) UCT (výška 215px) UCP (výška 215px) Wetsus (výška 215px)

EU high (výška 215px)

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Development and proliferation of antibiotic resistance are classified among major global threats by the World Health Organization. Sanitation of the water cycle is essential to sustain environmental and human health. Within urban water systems, public and governmental perception is rising on the role of wastewater treatment plants (WWTPs) and their microbiomes as putative hotspots for the proliferation of antibiotic resistance, and the need for new quality criteria and installation upgrades.

However, because of methodological biases, our knowledge remains limited on the emission, fate and possible amplification or removal of antibiotic-resistant bacteria (ARB) and antibiotic resistance genes (ARGs) across WWTPs. There is an urgent need to develop standardized methods and database for the accurate identification, characterization, and quantification of antibiotic resistance in such complex water matrices.

REPARES brings excellence in research on spread of antibiotic resistance in WWTPs through establishing cooperation of UCT with leading European innovators and internationally-renowned expert of the water-related antibiotic resistance field: UCP will share its expert leadership in wastewater-mediated antibiotic resistance; TUDelft will deliver methods to successfully apply for international projects; Wetsus will propel cooperation with the non-academic sector; AAU will integrate the REPARES database within the world-accepted MiDAS database.

Goal

REPARES aims at advancing the European community‘s know-how on antibiotic resistance across sanitation waterways, which in the future will bring society to closer achieve Sustainable Development Goal of the United Nations. REPARES will act as an essential vector to disseminate information on antimicrobial resistance spread within European WWTPs beyond science and technology in order to reach the non-academic community by means of open events, popularization publications, and operation of the REPARES web platform

Duration

1 October 2019 - 30 September 2022

The relevance of research on antibiotic resistance

  • Antibiotics are one of the common contaminants in wastewater.
  • The increased bacterial antibiotic resistance is the result of the spread of antibiotic-resistant bacteria and the transfer of resistance genes.
  • Antibiotic resistance can be acquired through random genes mutations and/or by horizontal gene transfer.
  • The World Health Organization qualified antibiotic resistance development to the major global threats to society.
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