Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 4 divisions: No. 1 operator worldwide No. 1 private operator No. 1 in Europe for energy services Veolia Environnement Global leader in environmental.

Published byJake Joyce Modified over 11 years ago

Similar presentations

Presentation on theme: "1 4 divisions: No. 1 operator worldwide No. 1 private operator No. 1 in Europe for energy services Veolia Environnement Global leader in environmental."— Presentation transcript:

1 1 4 divisions: No. 1 operator worldwide No. 1 private operator No. 1 in Europe for energy services Veolia Environnement Global leader in environmental solutions

2 2 Revenue per division

3 3 Key figures: 157 years of serving the environment 2009 revenue: 34.6 billion Operations in 72 countries around the world 336,000 employees worldwide 140 million invested in research 450 researchers with 450 field developers Veolia Environnement

4 Development of advanced solutions to meet future water challenges Dr Jean-Christophe Schrotter Membrane R&D Director

5 5 Advanced solutions : The outline Background Water treatment cycle Solutions to solve water scarcity issues Where are we now ? examples of current water treatment plants What to expect for the future ? examples of revolutionary processes

6 6 Key water facts Ref : Prüss-Üstün, A., Bos, R., Gore, F. et al. WHO, Geneva (2008)

7 7 Water availability issues

8 8 surface ground Other Irrigation Drinking water Common use Industry Wastewater treatment Drinking water plant Brackish or Sawater desalination Water treatment cycle Reuse water Reuse treatment

9 9 Water Reuse and Desalination Growth (m3/d) Ref : Global water market 2008, GWI

10 Desalination and Waste water reuse Plants Veolia references More than 150 reuse plants (>3.2M m3/d) Hundred desal plants (10M m3/d). More than 15% of the worlds desal installed capacity.

11 11 Membranes : a Great Evolution ! Membrane: key enabling technology for desalination, reuse treatment process that needs to deliver higher quality product waters from lower quality feed waters.

12 12 Microscopic view of a membrane surface Membrane pore diameter 0.2 m Cryptosporidium : 3 à 6 m

13 13 Pollutant removal by membrane processes Reverse Osmosis Nano- filtration Ultra- filtration Micro- filtration 0,0001 m 0,001 m 0,01 m 0,1 m 1 m 10 m 100 m. Membrane pores diameters Strepto 1 m Pseudomonas Diminuta 0,28 m Influenza Virus 0,1 m Pesticides 0,007 m Sodium 0,00037 m water 0,0002 m Giardia Lamblia and Cryptosporidium 3 à 6 m Increasing energy demand

14 14 Advanced solutions : The outline Background Water treatment cycle Solutions to solve water scarcity issues Where are we now ? examples of current water treatment plants What to expect for the future ? examples of revolutionary processes

15 Desalination and Waste water reuse Plants

16 Gold Coast Desalination Plant 125 000 m 3 /d in operation since 2009

17 17 Inlet Pumping Station Flocculation / Dual Media Filters Cartridge Filters RO 2 – stage 1 Post Treatment Drinking Water storage Offshore Pipe Shock Chlorination 13 ppm as Fe 2 (SO 4 ) 3 Booster Pumps 1 st RO Pass HP Pumps Network Final Disinfection RO 1 2 nd Pass RO HP Pumps Sodium Bisulphite 1.7 ppm antiscalant 0.1 ppm polymer NaOH (pH = 10) RO 2 – stage 2 2 ppm antiscalant Overall Plant train Lime Water & CO2

18 18 Gold Coast Desalination Project Intake Tunnel Layout 1 km off-shore 24 m total depth 4 m from the seabed

19 19 Western Corridor Water treatment Project 235,000 m 3 /d for industrial reuse (Power station, steel and paper plants) Household irrigation and indirect potable reuse being considered Treated water quality <250 mg/l TDS <1.2 mg/l N total <0.15 mg/l P total

20 20 AWTP Process

21 21 Treated Water Quality - Micropollutants About 200 parameters twice a week

22 22 moleculesNaturedetection limit ng/Lfeed ROpost ROpost UV+peroxyde hydrocodoneanalgesic180<1 Trimethoprimeantibiotic13842,95<1 acetaminopheneanalgesic10<10 Caffeine-10<10 Erythromycineantibiotic1298<1 Sulfamethoxazoleantibiotic18922,9<1 Fluoxethineantidepressant133<1 Pentoxifyllinevasodilator112<1 Meprobamateanxiolytic12921,5<1 Dilantineantiepileptic1144<1 TCEPchelatant10272<10 Carbamazepineantiepileptic12792,4<1 DEETpesticide5293<5 Atrazinepesticide11<1 Diazepameanxiolytic11<1 Oxybenzonepesticide521<5 Estriolsteroid514<5 Ethinylestradiolsteroid1<1 Estronesteroid1101<1 Estradiolsteroid118<1 Testoteronesteroid1<1 Progesteronesteroid1<1 Androstenedionesteroid15<1 Iopromideantineoplastic16321,4<1 Naproxenepainkiller12551,2<1 Ibuprofenepainkiller179<1 diclofenacpainkiller189<1 Triclosanpreservative13243,4<1 Gemfibrozil110221,3<1 concentrations in ng/L at different steps antihyperlipidemic Micropolluant removal with MF/RO/H2O2+UV by Samer Adham –MWH- AWA membranes Conference II, 21-23 Feb 2007, Melbourne Australia). atherosclerosis.

23 23 Concentrate Waste treatment Simplicity No reaction No by-products Limited chemicals Product quantity Fouling Advantages Membrane for desal and Reuse application Disadvantages intensive energetically and operationally Flexibility Modular design Product Quality Selective removal of Pollutants according to needs

24 24 Membrane treatment plant Raw water in water resource Intake pumping Liquid effluents Potable water delivered to users DisinfectionDistributionClarificationFiltrationMembrane processes Sludge treatment Liquid effluents Electricity, heat chemicals, spare parts Electricity, chemicals Electricity, chemicalsElectricity Electricity, chemicals Liquid effluents Electricity Water treatment Complex process train are currently used to minimize membrane fouling Chemically, energetically and operationally intensive

25 25 Main drawbacks of current treatment trains Desalination : Energetically and chemically intensive Reuse : Operationally and Chemically intensive Concentrate treatment Public acceptance

26 26 Advanced solutions : The outline Background Water treatment cycle Solutions to solve water scarcity issues Where are we now ? examples of current water treatment plants What to expect for the future ? examples of revolutionary processes

27 27 Water transport in nature : aquaporins

28 28 Unique Selling Points Absolute Pure Water ~ 100% ( ~ 99.999995 % salt rejection, being approx. 10.000 times better than todays best reverse osmosis membranes have ever shown) Reduced energy costs by ~ 80% ( ~ Estimated 5 x energy reduction; or 5 x increase in water flux rate) 10.02.2014 28 http://nobelprize.org/nobel_prizes/ chemistry/laureates/2003/chemanim1.mpg

29 29 |------ ~10 nm-------| EU projects www.nano4water.euwww.nano4water.eu : Membaq project

30 30 NanoH2O company : incorporating nanoparticle in polymer matrix Higher flux, fouling resistance membrane

31 31 Water Price trends ($/m3) Ref : Global water market 2008, GWI

32 32 Conclusion Desalination and reuse with membrane is a reality Water quality meets stringent regulations Barriers operating up to expectations reliable, safe and secure technology Futures Challenges 1.Improve operations of current treatment trains Reduce energy, chemicals demand Water quality: monitoring, regulations Environmental impact: RO Concentrate 2.Disruptive technologies : aquaporins, CNT, …

Download ppt "1 4 divisions: No. 1 operator worldwide No. 1 private operator No. 1 in Europe for energy services Veolia Environnement Global leader in environmental."

Similar presentations

TWO STEP EQUATIONS 1. SOLVE FOR X 2. DO THE ADDITION STEP FIRST

TWO STEP EQUATIONS 1. SOLVE FOR X 2. DO THE ADDITION STEP FIRST
Advanced Wastewater Treatment Plants.

Advanced Wastewater Treatment Plants.
High performance; from 1 metric ton to 100 metric tons instant purification facility per hour, 2400tons per day Low energy consumption (25 kw/h – 38 kw/h)

High performance; from 1 metric ton to 100 metric tons instant purification facility per hour, 2400tons per day Low energy consumption (25 kw/h – 38 kw/h)
Jubail Industrial City A $45 Billion Super Project

Jubail Industrial City A $45 Billion Super Project
JOINT EVALUATION UNIT – April 2009 1. Why are Result & Impact Indicators Needed? To better understand the positive/negative results of EC aid. The main.

JOINT EVALUATION UNIT – April Why are Result & Impact Indicators Needed? To better understand the positive/negative results of EC aid. The main.
Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13

Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13
Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13

Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13
0 - 0.

0 - 0.
Addition Facts 1 - 20.

Addition Facts
Water Purification Comparison

Water Purification Comparison
Drinking Water Treatment Seminar Leesville Middle School

Drinking Water Treatment Seminar Leesville Middle School
Module 2, Part 1: Introduction and treatment Slide 1 of 23 WHO - EDM Water for Pharmaceutical Use Water for Pharmaceutical Use Part 1: Introduction and.

Module 2, Part 1: Introduction and treatment Slide 1 of 23 WHO - EDM Water for Pharmaceutical Use Water for Pharmaceutical Use Part 1: Introduction and.
Water in the West: Current Use and Future Challenges Christopher Goemans, Ph.D. Agricultural and Resource Economics 13 th Annual Farmers Cooperatives Conference.

Water in the West: Current Use and Future Challenges Christopher Goemans, Ph.D. Agricultural and Resource Economics 13 th Annual Farmers Cooperatives Conference.
FIU Cuban Research Institute

FIU Cuban Research Institute
Is our water future sustainable? Competition for scarce water resources Jeff Fulgham CSO Banyan Water.

Is our water future sustainable? Competition for scarce water resources Jeff Fulgham CSO Banyan Water.
1. About HYSEO HYSEO is a French company, created in 2008, located in Toulouse and dedicated to the development of innovative projects aiming at the self.

1. About HYSEO HYSEO is a French company, created in 2008, located in Toulouse and dedicated to the development of innovative projects aiming at the self.
Meniv Rishon Ltd. The municipal water, drainage & waste water company.

Meniv Rishon Ltd. The municipal water, drainage & waste water company.
Chlorine-Resistant RO & NF Membranes Benny D. Freeman University of Texas at Austin.

Chlorine-Resistant RO & NF Membranes Benny D. Freeman University of Texas at Austin.
Australian water filter.

Australian water filter.
Harnessing the energy of the sun to provide safe drinking water for the world. www.sunshineworks.com.

Harnessing the energy of the sun to provide safe drinking water for the world.

Similar presentations

Ads by Google