Who is Organica Water?

Organica Water is a provider of cost and space efficient solutions for biological wastewater treatment

Organica Water has +18 years ofhistory and 100 references operating

or under construction up to80,000 m3/d

Organica Water provides facility design and specialty equipment

supply, enabling local companies to deliver projects

Organica Water pioneers the future standard “operating system” for municipal wastewater treatment

plants (WWTPs) in the 21st century

Interior of an Organica biological reactor area SouthPest WWTP – 80.000 m3/day

Who is Organica Water?An unique combination of…

ARCHITECTURENATUREPROCESS ENGINEERING

A new way of thinking in wastewater technology

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Organica Princeton Office, USA

Plans in Design & Build

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17

65

5

17

0-2 years 2-4 years 4-6 years

6-8 years 8+ years

Years in Operation

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191

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Organica Jakarta Office, Indonesia

Organica Shanghai

Office, ChinaOrganica New

Delhi Office, India

Organica

Budapest

Office, Europe

Organica Offices

Plants in Operation

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A Proven Solution: 109 Plants Operating or Under Construction Treating >836,000 m3/d

Environment and Climate change (2nd place, Verulam)(2018) The Institute of Municipal Engineering of Southern Africa (IMESA) and the Consulting Engineers of South Africa (CESA)

Paulson Prize for Sustainable Cities-Honorable Mention by Paulson Prize for Sustainable Cities

Water Reuse Gardens - Best Innovation (2018) by the Technical Committee of ALADYR Conference

China Water Industry Starlight Award 2017” (2017 水业星光奖 By China Water Association

Best Performer in Global Expansion (2017) IDinvest International Award

Best Practices Award for Global Biological Wastewater Treatment (2017) by Frost and Sullivan

Global Water Intelligence Industrial Water Project of the Year (2016) Nominee, MM2100 WWTP

Cleantech Connect Most Innovative Company (2016) by GP Bullhound, selected from over 150 companies by esteemed panel of judges from across the Cleantech Sector

Lux Research Top Ten Global Innovative Company (2015) Profiled 1200 companies across 20 sectors/selected 10 most innovative

Best Overall Innovation Winner (2013) by CIWEM West Midlands Institute of Water, Innovations Showcase

Global CleanTech “Company of the Year” - Europe & Israel (2013) by CleanTech Group

Global CleanTech TOP 100 (2013, 2014, 2015 and 2016) by CleanTech Group

Global Water Intelligence Wastewater Project of the Year (2013) Honorable Mention, South Pest WWTP

WEX Innovation Award (2013) Water and Energy Exchange Innovation Award recognizing significant achievement in the field of Water and Wastewater Management

European Business Awards for the Environment nomination (2010) by the Hungarian Jury for the EU Environmental Awards

The "Environment Award" (2004 and 2008) by the Association of Environmental Manufacturers and Service Providers

Frost & Sullivan Innovation Prize (2005) for the ORGANICA Technology wastewater treatment solution

Company of the Year (2004) by the Hungarian Venture Capital and Private Equity Association

Innovation Award (2004) by the Hungarian Innovation Foundation

History Of Awards & Recognition Demonstrates Organica’s Unique Solution

Strong Global & Local Network of Partners:

Organica cooperates with a global and local network of partners for the design, delivery, financing, and operation of wastewater infrastructure throughout the world.

Strong Partner Network Globally (sampling of partners)

Treatment 9%

Sewer Networking91%

Wastewater Management Costs

Treatment Sewer Networking

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If we can save 10% on network costs, treatment is ”free”

Sources: UN, GWI, World Bank7

Sewer Network Costs Greatly Outweigh Treatment Costs

Organica Wastewater Technology:Main Components of the Technology

Natural Plants

Odor Control Media

Root Zone

Patented Biofiber Media

Fine Bubble Aeration

Architecture

ProcessDesign

MechanicalEngineering

Civil Engineering

Odor control

Electrical Design

Control & Instrumentation

EFFICIENT PROCESSutilizing diverse biology

INTEGRATION OF DISCIPLINES including Architecture

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Organica Solution – The most advanced Fixed-Film Biofilm ProcessThe Core of the Solution: Organica Biomodule and Food Chain Reactor (FCR) process

Plants on the supporting mesh

Fine bubble aeration

Walkway and plant supporting rack

Root zone (1.5m) as fixed film carrier

Artificial supporting media as fixed film carrier

Organica BIOMODULE

Organica Solution – The most advanced Fixed-Film Biofilm ProcessThe Core of the Solution: Organica Biomodule and Food Chain Reactor (FCR) process

Organica BIOMODULE

Organica Food Chain Reactor (FCR)

Plant Roots and Organica Engineered Media creates a

much better habitat for biomass growth

1111

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Organica FCR (Food Chain Reactor)More biomass→ Smaller Reactors→ Less footprint→ Lower Total CAPEX

❑ Attached biomass in Organica Biomodule isequivalent to 8 – 10 kg/m3 of biomass (in ASthe concentration is 3 to 4 kg/m3).

❑ A higher concentration and more specializedbiomass allows treating the samewastewater flow in less reactor volume.

❑ FCR reactors are typically 30% - 40%smaller than conventional activated sludgereactors for the same capacity.

Attached biomass in Organica Biomodule

Organica Solution – The most advanced Fixed-Film Biofilm ProcessOrganica FCR (Food Chain Reactor) arrangement

❑ The biological process takes place in a series of cascade reactors, with standard pretreatment at the beginning, and

phase separation (via Organica Disc Filters or Secondary Clarifiers) and final polishing at the end (if required).

❑ As water flows through from one reactor zone to the next, different ecologies will grow and adapt to the conditions in

each stage. This configuration allows the “food chain effect” to develop, as higher level organisms become predators

for the simpler organisms.

❑ The result is enhanced removal efficiency and resiliency, while utilizing less energy and producing less sludge.

Organica FCR (Food Chain Reactor)More biomass→ Smaller Reactors→ Less footprint→ Lower Total CAPEX

PHASE SEPARATION

11.550 m2

36.000 m2

Reactor Volume and Clarifiers: 21.300 m3 vs. 66.500 m3

Organica Food Chain Reactor Conventional Activated Sludge

Organica FCR (Food Chain Reactor)OPEX savings due to extremely efficient aeration in the reactor

0%

20%

40%

60%

80%

100%

120%

140%

Relative energy consumption in Organica FCRrelative to other technologies

Organica FCR: attached biofilmNo biomass in suspension (MLSS) in the reactor

Suspended solids concentration in the Organica FCR reactor → 200 – 300 mg/l

therefore:

Oxygen transfer efficiency (alpha-factor) in Organica FCR reactors is

extremely high (0,90 – 0,95)

Up to 30% OPEX savingsUp to 60% footprint savings

Botanical garden look-and-feelOdorless installations

The largest industrial park inIndonesia needed to doubleWWTP treatment capacitywhile preserving land value.

The new Organica plant wasdesigned with 2x EXISTINGCAPACITY WHILE OCCUPYING50% OF THE LAND. Thesolution allows the developerto sell the land adjacent to theOrganica plant including theplot occupied by the old CASplant.

Organica Reduces Footprint while Preserving Land ValueExample: MM2100 Organica WWTP. Bekasi, Jakarta (Indonesia) – Capacity: 45.000 m3/day

New Organica Plant - 45 MLD

Old CAS Plant - 22MLDHonda Factory

Organica Reduces Footprint while Preserving Land ValueExample: MM2100 Organica WWTP. Bekasi, Yakarta (Indonesia) – Capacity: 45.000 m3/day

Flexibility: Organica retrofits existing plants for Increased Capacity and QualityExample: South Pest Organica WWTP. Budapest (Hungary) – Capacity: 80.000 m3/day

BEFORE – Concrete Activated Sludge Reactors AFTER – UPGRADED TO ORGANICA FCR

Flexibility: Organica retrofits existing plants for Increased Capacity and QualityExample: South Pest Organica WWTP. Budapest (Hungary) – Capacity: 80.000 m3/day

Flexibility: Organica retrofits existing plants for Increased Capacity and QualityExample: South Pest Organica WWTP. Budapest (Hungary) – Capacity: 80.000 m3/day

Aesthetics: Organica WWTP – Botanical Gardens “Look-and-Feel”Example: Wusong WWTP. Shanghai (China) – Capacity: 40.000 m3/day

Inside the Clarification area

Aesthetics: Organica WWTP – Botanical Gardens “Look-and-Feel”Example: Wusong WWTP. Shanghai (China) – Capacity: 40.000 m3/day

Inside the FCR Reactor area

Environmental Impact: Organica WWTP are odorless. Residential areas closer than 50 mtExample: Hainan Island WWTP. Hainan (China) – Capacity: 7.000 m3/day

Organica plant design (top picture) and under construction (right picture) in a trafic circle.

Residential buildings around the future traffic circle are buing built in the background.

Environmental Impact: Organica WWTP are odorless. Residential areas closer than 50mExample: Hainan Island WWTP. Hainan (China) – Capacity: 7.000 m3/day

Organica real and operating plant!

Outlet Water Quality – Complying with the most demanding limitsExample: He Yuan WWTP. He Yuan City, Hong Kong (China) – Capacity: 30.000 m3/day

Outlet Water Quality – Complying with the most demanding limitsExample: He Yuan WWTP. He Yuan City, Hong Kong (China) – Capacity: 30.000 m3/day

Parameter Limit

COD < 20 mg/l

BOD < 4 mg/l

TSS < 5 mg/l

NH4-N < 1 mg/l

TN < 10 mg/l

TP < 0,2 mg/l

Organica Installation – Community Engagement & Water Reclamation GardensExample: Sechelt WWTP. Sechelt (Canada) – Capacity: 4.000 m3/day

Organica Installations – Adapting to Local Environmental Conditions and ClimateExample: DIP WWTP. Dubai Investment Park, Dubai (UAE) – Capacity: 3. 500 m3/day

Organica Fast-track Delivery – Existing plant upgrade in less than 6 monthsExample: Anshun WWTP. Anshun, Guizhou (China) – Capacity: 50.000 m3/day

Lead – Feb 2016Contract – May 2016Delivery – Aug 2016

Commissioning – Sept 2016

Organica Installations Reliability – In operation since 2001

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Localized Wastewater Treatment - 2 MLD -> Bekasi Fajar, Indonesia

Localized Wastewater Treatment – 6MLD New Gwili Gwandreath

Localized Wastewater Treatment – 6.8 MLD New Gwili Gwandreath

Design Generator:

Engineering automation drives economies of scale.

Over 4,600 facility designs generated.

Continuous development that includes Artificial Intelligence to optimize the

architectural and civil design (minimize footprint) and Machine Learning for

process design.

Built on AWS services to gain infrastructure flexibility, speed of design runs, and infinite

scalability for improvements.

Produces an expanding variety of professional and complete preliminary engineering design outputs with limited

human input.

SaaS Licenses

Design Generator Engine

WWTPDesigns.com

WWTPs with proprietary engine, developed by software and engineering experts, allows Organica to produce infinite

designs/optimizations at minimal cost, and drives various forms of recurring revenue via Organica

Digital Services.

Organica’s Design Generator automates preliminary engineering of wastewater.

Design Generator Basic:

WWTPDesigns.com is a free, web based software for conventional activated sludge plants.

The software configures preliminary wastewater treatment engineering designs specific to locations and water quality needs.

Improving infrastructure effects, this tool can populate the following documents:

• Design Basis Document• Process Scheme• Technical Description• Piping & Instrumentation Diagram• Equipment List• Instrumentation List• OPEX Table• General Arrangement• Civil Bill of Quantities• Comparison Document

http://wwtpdesigns.com/

Design generator.

Design Generator Premium:

Once the user enters data, OCS validates the inputs based on extensive regional databases

and process validation algorithms

The tool is based on the Organica team’s hundreds of years experience designing

WWTPs all over the world

The tool improves organizational efficiency by having 24/7 access to designs in just 8 hours, while being able to adjust and re-design and

optimize designs whenever it is required

MANILA NORTH 50 MLD

Interface for entering Basic information

Design generator.

Design Generator Premium:

Interface for data entry, including commercial considerations and wastewater characteristics

(influent/effluent/temperature/flow)

One, clear user interface in the design generator dashboard.

Design Generator Premium:

The tool keeps track of all of the User’s designs andallows to re-run them any number of times.

Document outputs are fully customized with preliminary engineering designs.

Design Generator Premium:

Once the data is validated it is used for process sizing, simulation (365 days with diurnal flow),

and final equipment selection.

This ultimately generates key documents such as P&ID, Process Scheme, and Equipment

BOQs.

After equipment selection the Design Generator generates a detailed 3D CAD model

of the facility, which is ultimately used to produce the Civil Design with Layouts and

Sections.

The simulation tool and process models were built in cooperation with some of the leading

experts in the wastewater design and modeling field.

Document output examples: Process Scheme, P&ID, Technical Description.

Design Generator Premium:

Document output examples: Civil & Architectural Documents (3D view).

Design Generator Premium:

Site Plan

3D View

Sections

Document output examples: Equipment list and civil BOQ .

Design Generator Premium:

Bill of Quantities

Equipment list

Design generator premium licensing.

Software Licensing:

Takes full advantage of the Design Generator

Developed over the last 5 years

Unique engineering automation software

SaaS (Software as a Service)

Strategic inroads with long lasting revenue streams

Game changer for engineering-centric firms with significant manhour costs

Digital operations & maintenance.

Digital Trends

• The water sector is only starting to discoverthat data-driven insights can offer. The roadahead is long, but the opportunity huge: Data-driven business intelligence has the potentialto radically transform the way water and waterinfrastructure is understood, managed andused.*

• Digital water-management tools represent aparadigm shift for the water industry frombeing reactive to being proactive andoptimized. This shift is analogous to theadoption of customer relationshipmanagement (CRM) technology within retailindustries such as banking and mobilephones**

• Increased pressure on operators to be morereliable & efficient

• Stricter compliance with more complexinfluent water qualities

• Maintain or reduced OPEX of WWTPs

• Need to innovate and implementautomation with Digital tools (IoT)

• Public private partnerships to achieve goalswhile managing risk and increasing capitalspend

Industry Drivers

*Deloitte Water Tight 2.0 **McKinsey

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Wastewater Digital Services: Overview

At a global level, around 80% of wastewater produced is discharged

into the environment untreated, causing widespread water

pollution.

850 billion gallons untreated waste and storm water

discharged annually

While 2.1 billion people gained access to improved sanitation facilities since 1990, 2.4 billion

still do not have access to improved sanitation and nearly 1

billion people worldwide still practice open defecation.

Only 26% of urban and 34% of rural sanitation and wastewater

services effectively prevent human contact with excreta

along the entire sanitation chain and can therefore be considered

safely managed.

Possibilities to accelerate change in the in water infrastructure through the use of software, hardware and global expertise. Identification of the local problem is where we start.

Wastewater Digital Services: Overview

Storm Water Mgmt.

Smart BillingLeak Detection

Utility Planning

Real time Water Quality Mgmt.

Pressure Mgmt.

Demand Forecasting

Wastewater treatment

Drinking water treatment

Digital Service Solutions

Urban Infrastructure under increasing demand

River monitoring.

Organica WaterDigital Services:

Measure River Health Index

• Determine where pollution discharges from and how to properly treat it.

• Discover problems in river’s health &have them addressed quickly to decrease harm to environment and health risks.

• Healthy water provides better quality of life for plants, animals and people.

• Ensure water quality maintains proper pH levels.

“The River Rehabilitation Program takes into consideration the effects of water quality and quantity to the ecosystem. Under the program, the LLDA has organized River Basin Councils all over the Region.” – LLDA

River monitoring - Laguna Lake Development Authority

Expertise & Collaboration

Software & Analytics

Hardware & Sensors

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• Increase population connected to sanitation system

• Treatment plant and network resiliency

• Turn DATA into value

+

Digital saves 10-20% OPEX on average

CO

ST

TIME AS DIGITAL SERVICES ARE IMPLEMENTED

Chemicals

Energy

Sludge

Digital Services For Smarter Operations

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Data & Analytics PlatformOnline & Offline measurement

Ability to visualize and gain insight into the operations.Giving data the opportunity to create returns on investment

Other data Sources

Lab data

Features

TrendingAlarmingReportingCalculationsAnalyticsAsset healthData management

Services

Expert oversightOperational efficiency Support maintenance

Sensor Data

Hardware & Software

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• Systems for large monitoring applications (rivers, lakes, etc.)

• Interconnection of multiple s::can monitoring systems

• On-line & in-situ

• Automatic data transfer via GPRS/UMTS

• Automatized data handling on FTP server

• Display and evaluation of spectral data

• Visualization and control of data

• GIS-system

• Delta spectrometry

Internet

Central Database

River Location 1 River Location 2 River Location 3

Central Monitoring System

Mechanical Equipment

Room

SludgeStorage

Blowers

Disc Filters

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In a typical WWTP the inefficiencies are 15-40%

Software thus allows for operational efficiency

Fine Bubble Diffusers

Organica

Digital

Expert Team

& Software

DO Sensors

Outsourced dewatering and sludge

service

Control Room

Oxygen

optimization

saving

energy

Greenhouse or Shading Structure

TSS Sensors

Wastewater Digital Services: Digital Services Scope in a Typical WWTP

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1. Process control systems are designed to ensure stable process operation against varying disturbances

2. Main objectives are:

• Maintaining effluent quality

• Minimize energy consumption

• Reduce sludge production

• Minimize chemical consumption

3. Aeration accounts for ~50% of the energy consumption of a plant

• Ammonia-based aeration control could reduce energy consumption of the

aeration with 15-25% compared to DO-based aeration control

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Expertise – Advanced Process Contol

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Wastewater Plants Imperatives

1. Operations &Maintenance

2. Assurance of Compliance

3. Management &Oversight including budget

➢ Increased reliability of the wastewater infrastructure

➢ Improved, consistent effluent quality, assuring compliance

➢ Optimized infrastructure CAPEXspending

➢ Wastewater expertise to reduce Services OPEX

Digital Services Assist with

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Digitizing Wastewater