Presentation in Ivano-Frankivsk

WSP SWEDEN

03/01/2017

Agenda

Presentation of WSP

General

Wastewater Projects

Biogas and Waste Water Projects

Biogas and Waste Management Projects

Demo Environment financing

500 offices

Represented

on every

continent

32 000 employees

in 40

countries

WE ARE WSP GROUP AND

PARSONS BRINCKERHOFF

6700

6400

1150

5000

3850

2850

3650

1850

Africa, India,

Middle East

UK

Northern Europe

Asia

Australia,

New Zealand

South America

USA

Canada

550Central Europe

WSP SWEDEN

3 200

employeesStrong local

presence

In Sweden we have 3 200

employees in 40 offices

spread across the country.

Water & WWT and Waste & Biogas

International Expert Team (Water & WWT and Waste &

Biogas)

Thomas Lund, 30 y, experience in

Water and Waste Water

treatment. Membrane filter expert.

Dr Malovanyy, Waste Water

Treatment Expert, specialized on

biological nitrogen treatment.

Fluent in Ukrainian.

Marina Sosnovsky, 25

y, experience of Waste Water

Treatment, Waste Management

& Biogas digestion. Fluent in

Ukrainian.

Ivan Draco, 30 y, experience and

Waste Water Treatment, Waste

Management & Biogas digestion.

Fluent in Russian.

Dr Serti, > 15 y, experience and

expertise in international Waste

Management & Landfill and

biogas projects.

Ola Lloyd, 25 y, experience and

expertise in biogas cleaning,

upgrading and gas utilization projects.

Detailed design of >10 upgrading

plants.

Stefan Dahlgren, 15 y, experience

national and international waste

management and biogas projects.

Lars Mårtensson, 35 y,

experience in Water and Waste

Water treatment.

WSP Water and Waste Water Treatment & Biogas

All phases in Water, Waste Water Treatment, Waste Management and

biogas projects

Strategic Planning

Feasibility studies (Optimization, energy efficiency, capacity changes)

Conceptual design

Basic Design

Detailed design

Procurement doc.

Commissioning

Project Management

Permits

Financing

Legal issues

Water Treatment Plants

Municipal Waste Water Treatment

plants

Industriell Water and Waste Water

Treatment Plants

Industriell Water Recirculation

Systems

Landfill Waste Water Treatment

Drinking Water Treatment Plants

Biogas and biomethane

Biogas production and pre treatment:

Sewage sludge

Food waste

Manure

Industrial waste

Energy crop

Utilization of digestate…

Digestate treatment and recycling

…and biomethane:

Biogas cleaning

Upgrading biogas to biomethane

CHP utilization

Gas filling stations

Gas bus depot

LNG back-up plants

Gas distribution (grids and truck transport)

Waste Waster Projects (Selected references)

Future scenarios for Källby WWTP

The two main scenarios that were evaluated within the assignment were increasing the capacity of the sewage treatment works or closing it down, building pumping stations and 12

km pipelines to transfer the water to SjölundaWWTP

•The expansion scenario examined both the option of increasing pool volumes and treating the water with the same technology (activated sludge with denitrification) and the option of changing the process to a more advanced one (MBR, MBBR, aerobic granules)

•The shutdown scenario examined dimensioning of water transfer based on maximum flow that can occur by 2040. The second option was to dimension water transfer based on projected average flow by 2040 (7 times lower than the maximum flow) and to use a large storage reservoir to equalize the flow.

The load on the sewage works is constantly increasing and it will soon reach the

capacity limit. WSP was commissioned to examine the technical and economic

consequences of various options for dealing with the situation.

Strategic study concerning waste water treatment, VimmerbyWSP was commissioned to examine the consequences of a planned

increase in the production capacity at Arla and Åbro, as well as a

growing population in Vimmerby.

• Establish the consequences of a higher flow of water in the water treatment system.

• Investigate the possibilities of making changes within the manufacturing processes to make the flow of water and composition more stable.

• Identification of process stages which will be overloaded in conjunction with increased load.

• Comparison of existing process stages with cutting-edge technologies for watertreatment.

• Identification of possibilities for intensification of treatment, i.e. clean more water in existing volumes.

• Combination of the plants to produce increased separation of nitrogen and phosphorus.

OUR SERVICES

ENVIRONMENTAL & SOCIAL IMPACT ANALYSES •

SUSTAINABILITY • WATER MANAGEMENT • WASTE

MANAGEMENT • DESIGNATED & HAZARDOUS

SUBSTANCES MANAGEMENT

COURTICE WPCP - INTEGRATED

RESOURCE RECOVERY (IRR) PLAN

Client: Region of Durham

Location: Municipality of Clarington, Ontario

Value: $200,000

Wastewater Treatment Plant -

StudyMUNICIPAL

INFRASTRUCTURE

FEATURED PROJECT

Projects on Leachate treatment (heavy metals

removal)

Leachate at Löt landfill (Stockholm)

Contaminated stormwater at Högsbo

(Gothenburg)

Contaminated stormwater at Skräppekärrr

(Gothenburg)

Leachate at Fläskebo landfill (Gothenburg)

Leachate at Tagene landfill (Gothenburg)

Usual project stages:

Theoretic investigation with preliminary

choise of several techniques;

Laboratory and pilot testing

Detailed engineering design

Support during construction and start-up

Leachate treatment Projects

Boliden Mineral AB operates a metal melting plant in Rönnskär where metals are

recovered from ore and waste from the electronics industry are recirculated. Large

amounts of sea water (approx. 650 m3/h) is used in the process to quickly cool down

the material.

Existing treatment cannot satisfy the desired reduction of heavy metals and therefore WSP was commissioned to investigate what method could be used in a new wastewater treatment plant to ensure good reductions of metall.

The customer's high expectations called for a review of the well proven and new techniques for metal reduction. After the theoretical calculations of operational parameters were tested in pilot scale. Optimization of treatment process led to the requirements on emissions could be achieved for all metals. Together with the supplier of one of the processing steps did WSP engineering design of wastewater treatment plant and cost estimation of investments and operating costs. The projection was made in AutoCad Plant 3D which gave better visualization possibilities in the design stage that resulted in that the customer could have greater impact on the design of the treatment plant.

Feasibility study and detailed design of water treatment plant at Boliden Mineral AB

Primary sludge system at Henriksdal´s WWTP

WSP implemented a feasibility study with respect to primary sludge

treatment.

Conceptual proposal with financial calculation

and analysis of:

Strategy, method, control and selection of

machinery for withdrawal of primary sludge

from the primary sedimentation stage.

Dimensioning and installation of sludge

pipelines

Mechanical thickening of the primary sludge

Separation of ”rags” from the primary sludge

2-stage digestion

Norrtälje waste water treatment plant

WSP designed the winning proposal for expansion of Lindholmen waste

water treatment plant in Norrtälje.

• In-depth feasibility study, proposals for guiding principles for conversion/new construction with calculations

• Investigation of future treatment of sludge from septic tanks.

• Sewage disposal strategy, capacity analysis for Lindholmens WWTP

• Increased capacity from 32,000 persons

50,000 persons

Expansion of WWTP in Greater Stockholm

WSP has developed a proposal for a substantial expansion of two large waste

water treatment plants in Greater Stockholm: Käppalaverket on Lidingö and

Himmerfjärdsverket on Södertörn.

• Increased capacity requirement, 30-80%

• Increased purification requirement

• Process investigations, evaluation of

alternatives

• Proposals for guiding principles for

expansion of all intermediate stages in the

wastewater purification

• Costings

• Implementation plan

Optimization of sludge treatment, Karlstad WWTP

WSP has conducted a feasibility study to compare alternatives to increase

biogas production or build an additional digester.

• Detailed evaluation of methods to

increase biogas production at Sjöstad

purification plant. The methods are

evaluated according to technical

implementation, costs and expected

biogas yield.

• Preliminary construction design of

external sludge receiving station and

station for dewatering sludge.

New sludge treatment in Västerås

WSP is designing and implementing new sludge treatment at

Kungsängsverket in Västerås on behalf of Mälarenergi.

• Feasibility study and design of new

dewatering of sludge before the digester.

• Machine, process, construction

• Coordination

• Tender documentation and procurement

Strategic investigation of future sludge treatment

The main aim of the assignment was to examine how Borgholm Energi

can treat the sludge from the waste water treatment plants most

effectively.

Comparison of different sludge treatment

options for each purifying plant plus

description of short- and long-term

consequences.

The digested sludge's synergies

concerning future biogas plants, co-

incineration in CHP as well as its use as

landfill cover were examined.

What does the Environmental Code have

to say about the different options:

• registration

• permit application etc.

Picture

Biogas and Waste Water Projects (Selected references)

Current biogas projects at Henriksdal WWTP

Due to extensive process changes at the Henriksdal WWTP the client have commissioned WSP for several biogas projects.

Moving gas grids and gas storage at Henriksdal WWTP in Stockholm.

The project includes detailed design of new internal and external gas grids, compilation of procurement documentation and projectleadersupport during installations.

Updating flow sheets for the new biogas system

The project includes remarking of all components in the biogas system and complete update of all flow sheets for the biogas system.

New power generating gas motor for CHP production.

WSP are currently working with design and technical description for the turn-key procurement documentation for a new power generating system at Henriksdal.

Biogas to Biomethane upgrading plant in VAES, Oslo Norway Due to planned utilization changes from heating to vehicle fuel production WS P

was commissioned to investigate and design the new biogas utilization system.

The project included;

A feasibility study concerning the possibilities to convert from current use of biogas to production of vehicle fuel.

Evaluation of three possible location areas for the upgrading plant and filling station for vehicles.

Description and evaluation of different system solutions for the upgrading plant and filling station

Evaluation of environmental impact from biogas as vehicle fuel compared to fossil vehicle fuels for heavy and light vehicles

WSP later carried out a detailed feasibility study for one of the alternatives.

Basic design of the upgrading plant, the filling station and detailed design of the gas grids from the digester to the upgrading plant and prepared the technical specifications, tender documents and economical estimations together with the client.

Strategic investigation of biogas production, Vimmerby

WSP studied the potential to erect a large new plant for co-digestion of

manure and industrial waste from dairies and breweries.

WSP has implemented a feasibility studywhere the following questions are addressed:

• Survey and assess potential substrate for anaerobic digestion for principal stakeholders.

• Provide proposals for optimization of existing biogas plants and processes.

• Provide proposals for improved total utilisation of biogas produced.

• Examine and evaluate depositing options for both biogas and biomanure in surrounding area.

New 9000 m3 digester in Käppalaverket WWTP

WSP conducted a feasibility study and basic design for construction of

a new 9 000 m3 digester.

• The study demonstrated that extracting

the remaining biogas potential that is

left in the residual material after it has

passed through the digester is an

economically attractive solution.

• Feasibility study for a pretreatment

system for food waste (the BOA

project) which shall be co-digested with

sewage sludge.

• Basic design for the digester.

Picture

New AD:s at Port Darlington WPCP, Durham, Canada

WSP was retained by the Region of Durham to provide project

management and comprehensive engineering services for the

detailed design and construction of upgrades to the Port Darlington

WPCP. The Plant has a current rated capacity of 13,638 m³/d and

will expand to 27,276 m³/d.

Key components of the work

include:

upgrades to the existing raw

sewage pumping station,

new boiler building housing

three new boilers two of which

include dual-gas trains fuelled

by either natural or digester

gas,

upgrades to the solids

management facilities including

construction of one new primary

digester and conversion of one

secondary digester to primary

Detailed design and construction of upgrades to 6 AD,

Toronto, Canada.

WSP was retained by the City of Toronto to provide project management

and engineering services for the detailed design and construction of

upgrades to the Humber TP Digesters 1 to 6 to increase capacity to 400

MLD.

The scope of work included the

refurbishment of the 6

anaerobic digesters, upgrade of

the sludge recirculation system,

primary clarifiers and sludge

thickening facilities.

Construction of new scrubber

building, provision of new gas

compressors for confined gas

mixing in existing gas

compressor building. WSP was

the prime consultant and project

manager.

Project and construction management and design of AD at

Asbridge Bay, Toronto, Canada.

WSP was retained by the City of Toronto to provide project management,

condition assessment, engineering design and construction management

services for the upgrade and repairs of the anaerobic digesters at the

Ashbridges Bay Treatment Plant.

The scope of work includes:

Inspection and refurbishment of

existing gas mixers including

gas injectors;

Replacement of isolation valves;

replacement of entire gas

mixing assemblies

Concrete and mechanical

repairs; replacement of existing

gas proofing and subsequent

digester pressure testing.

Biogas and Waste Management Projects (Selected references)

Design, Technical descriptions for permits and Tender

documentations of new AD in Sobacken Waste

Management plant, Borås Sweden.

Borås Energi & Miljö AB is planning to establish an environmental centre

(Energi & Miljöcenter) at Sobacken in Borås where today there is an existing

biogas facility. Related to the biogas plant, WSP prepared the, design,

technical description for the permit and tender docs.

The project included:

A description of the planned

activity for permit application,

including process descriptions

Calculation and presentation of

future emissions to air and

water and of possible rest

products that could result from

the processes.

Feasibility study and system

design of a new digester for the

existing biogas plant.

Preparation of material for the

tender documents.

Dry digestion and biomethane production in Kungälv,

Sweden.

The Municipality owned company Kungälv Energi AB comissioned

WSP to investigate conditions and synergies of dry co-digestion of

manure from horses and household waste in an feasibility study.

The study included:

Inventory of substrate

Inventory of market for

biomethane and biofertilizer

Conceptual technical design

Gas production calculations

Investment costs, cash flow and

sensitivity analyses

NEW WASTE HANDLING PLANT IN KALMAR (Basic

design, detailed design and project management)

WSP was appointed by KSRR for basic design

and detailed design of the new waste treatment

plant. The assignment also consisted of project

management for the plant.

The assignment comprised the following

parts: Project management, Selection of

contract form, design etc. Preparation of

tender documents, selection of evaluation

criteria etc. Providing of technical expertise

during procurement, design and construction.

Construction management, control and

inspection. Economic evaluation of the project

Contract value: 11 MSEK. Project value 150

MSEK.

KSRR is a municipally owned company being responsible for the waste

handling in the Kalmar, Mörbylånga, Nybro and Torsås municipalities in

Sweden. KSRR has decided to build a new waste treatment plant. The

plant will consist of optical sorting, pre-treatment of collected household

food waste for slurry production, and sorting out of combustible waste

fractions to be incinerated.

New co-anaerobic digestion plant in Sundsvall

Feasibility study on the potential to build a large-scale anaerobic plant for

digestion of food waste, organic by-products from the local pulp and paper

industry and sewage sludge.

WSP has initiated in-depth investigations:

• Screening of available raw materials

• Administration of residues

• Additional anaerobic digestion trials

• Treatment of residual water

• Technology for optimal design of the plant

The feasibility study will constitute the basis for the continued design of the anaerobic digestion plant.

WSP has participated as advisor and has supported the project management with regard to the project overview.

NEW RECEPTION AND PRE-TREATMENT OF

HOUSEHOLD WASTE.

Falköping municipality co-digest household waste and sewage at

Hulesjöns WWTP. Due to increasing volumes of incoming waste a new

pre-treatment plant is needed.

WSP was commissioned by

to carry out a feasibilty study

for a new reception station

and a new pre-treatment

plant for household waste to

be co-digested with sewage

sludge

WSP was also

commissioned to do the

basic design of the plants

and compile procurement

documentation of the plants.

New waste pre treatment plant för NSR, Sweden.

NSR treat waste management for several different municipalities in

southern Sweden. Due to increased volumes of incoming waste a new

pre-treatment plant was needed.

WSP was commissioned to

perform a pre feasibility study

regarding technical alternativs and

economical conditions for a new

waste pre-treatment plant.

The study included:

A new waste reception station.

A new pre-treatment plant

Survey of alternative techncal

solutions.

Assessment of investment,

operational costs and efficiancy

Demo Environment Project

Demo Environment

Demo Environment connects companies, organizations and authorities to

share top knowledge and technology to improve living conditions and fight

climate change.

Demonstration Projects aim to make new and innovative technology

available to the partner countries. Projects also aim to increase knowledge

and know-how by demonstrating and adapting new and sustainable, pro-

poor technology.

Grant amount 50 000 – 180 000 euro, includes:

equipment purchases (substantial proportion, grant up to 50% of costs)

capacity building (grant up to 80% of costs)

services required to get the technology up and running (grant up to 80% of costs)

activities to communicate the project results and information about the

technology used (grant up to 80% of costs)

More information:

http://www.tillvaxtverket.se/sidhuvud/englishpages/demoenvironment.4.2f79a9231506ca113764580e.html

Previous project in Demo Environment (finalized 2012)

Project in Philippines

Waste weighing station

Covering the landfill

Simple but robust leachate treatment

Government in Philippines – end customer

We are the turnkey supplier

Investigation

Procurement

Supply of the equipment

Installation

Not actually any novel process

Application with Lvivvodokanal

We are the turnkey supplier

Investigation

Detailed design

Supply of the equipment

Installation

Evaluation after 1 year of operation

Feasibility of a full-scale plant

Possible project with Lviv

Grant financing scheme:

20 percent - after the technology has been ordered

60 percent - when the technology is in use and an onsite monitoring

inspection has been conducted

20 percent - after marketing and communication activities

Application call in Jan 2016 – idea submission

After passing the first selection complete application has to be submitted in

Feb 2016