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7/29/2019 Geothermal Institute Brochure
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The Geothermal Institute
www.geothermal.auckland.ac.nz
7/29/2019 Geothermal Institute Brochure
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The University o AucklandThe University o Auckland is New Zealands leading and largest universit y. It is
ranked in the top 100 o the QS World University Rankings and is the highest
ranked New Zealand University in the Times Higher Education and Shanghai Jiao
Tong Academic Ranking o World Universities. The University o Auckland is aninternational centre o learning and academic excellence. It is New Zealands
pre-eminent research-led institution and has key linkages with many o the worlds
top research intensive universities.
Based in the heart o New Zealands largest and most diverse city, The University o
Auckland has the most comprehensive range o courses in the country. The
Universitys mission is to be a research-led, international university, recognised or
excellence in teaching, learning, research, creative work and administration.
In a snapshot The University o Auckland:
ComprehensiveUniversitywithfullrangeofprofessionalschoolstoPhDlevel
41,000studentsand5,400staffincluding4,700internationalstudentsfrom
over 100 countries
2,750academicstaffineightFaculties
About10,700postgraduatestudentsincluding2,100atdoctorallevel
Morethan60researchunits,centresandinstitutes
Morethan6,500researcharticles,booksandconferencepaperspublished
annually
200activepatentfamiliesandabout630grantedpatentsorpendingpatent
applications globally.
ExternalresearchfundingofNZ$218millionpain2010.
The University actively seeks to work with government, energy companies, other
universities, research organisations and commercial consultancies in geothermal
research, development and education.
Geothermal New Zealand
Buildingonmorethan60yearsexperienceinidentifyingandutilisingitsown
geothermal resources, New Zealand has signicant expertise in the development
and sustainable management o geothermal elds and in the design, construction,
operation and maintenance o geothermal power plants. New Zealand has more
than25hightemperaturegeothermalsystemsandwithmanybeautifulnatural
geothermal springs. The Wairakei geothermal system was the rst liquid-dominated
high temperature geothermal system to be developed or power generation in
1958,andsincethenNewZealandhasbeenattheforefrontofgeothermal
research and training. New Zealand has also built up an excellent reputation in the
application o geothermal energy or direct use in Industry.
Geothermal New Zealand brings many strengths to the international geothermal
sector:
NewZealandwasapioneeringeothermalgenerationinthe1950sandhasan
outstanding reputation or its geothermal expertise around the world.
Domesticgeothermalcapacityisnowsome750MW,over12%oftheelectricity
generatedinNewZealand,andwillsoonreach1,000MWplacingthecountry
amongst the largest geothermal power producers globally.
NewZealandscienticandengineeringskillshavecontributedtoover1,000
MWofgeothermalpowerdevelopmentsinternationallyandtheidenticationof
ar greater potential resources.
NewZealandhasbuiltanumberofnewdomesticplantsinrecentyears;these
are recognised as representing worlds best practices rom the application o
exploration sciences, through easibility, design, construction and operation.
GeothermalplantsinNewZealandmeetthemostrigorousenvironmental
standardsunderNewZealandsResourceManagementActandGeothermal
New Zealand carries these commitments to all projects, domestic and
international.
7/29/2019 Geothermal Institute Brochure
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The Geothermal InstituteThe University o Auckland has specialised in geothermal energy or
over30years.TheGeothermalInstituteisTheUniversityofAuckland
centreforgeothermalresearchandtraining.Since1978ithasprovided
research and training or the New Zealand and internationalgeothermal industries. It is one o the premier geothermal research and
training centres in the world.
The Geothermal Institute provides a wide array o geothermal research,
technology, education, training and consultancy through expertise
spread across a number o aculties, institutes and centres.
Geothermal Research Expertise
Faculty o Engineering
TheDepartmentofEngineeringSciencefocusesongeothermal
reservoir engineering, environmental fuids research and on the
numerical simulations o geothermal reservoirs. The group is committed
to advancing understanding o fow phenomena through mathematical,
computational and experimental means. Other departments within the
FacultyofEngineeringfocuson:processcontrolsystems,modellingand
optimisation;andthepreventionofcorrosionandscalingofgeothermal
turbines, pipes and other geothermal equipment.
www.des.auckland.ac.nz/uoa/geothermal-energy-research
TheDepartmentofCivilandEnvironmentalEngineeringhas
geotechnical laboratory acilities or measuring compressibility and
strength properties o cores rom geothermal elds. Unique equipment
is available or measuring the compressibility o cores ranging romhard rock to sot soil-like materials. Recently this has been employed in
providing material property input to subsidence modelling at the
Wairakei and Tauhara elds in New Zealand.
www.cee.auckland.ac.nz/uoa/geotechnical-research
Research Centre or Surace and Materials Science
RCSMSisaUniversitybasedResearchCentrespecialisinginmaterials
characterisation, specically at the surace and near surace o materials.
www.ecm.auckland.ac.nz/uoa/home/about/our-research/
research-areas/suraceandmaterialsscience
Industrial Inormation and Control Centre (I2C2)
ICisajointcollaborationbetweenAUTandTheUniversityof
Aucklandandwasestablishedin2007.Itisamultidisciplinarygroupof
chemical,mechanical,andelectricalengineers.TheIChasspecic
expertise on multi-phase fow modelling and process simulation or
optimisation o pipelines and geothermal process plant operations and
iscurrentlyworkingonthedevelopmentofcontrolsystemsforORC
geothermal plants.
www.i2c2.auckland.ac.nz/uoa
Faculty o Science
The School o Environment has expertise in geothermal geology,
geochemistry and geophysics with particular interest in the processes
that produce and consume fuids in and on Earths crust, the timing and
scale o fuid-fow, the structures that transmit fuids, and the interaction
ofnaturaluidswiththebiosphere.OthergroupswithintheFacultyof
Science are working on increasing enthalpy extraction o geothermalpower plants reducing silica scaling and extraction o minerals rom
geothermal elds.
www.iese.co.nz/GeothermalProgram/GeologyGeochemistry.aspx
The Institute o Earth Science and Engineering (IESE)
IESE is The University o Auckland Institute which undertakes research
and provides commercial training and services. The Institute has a
range o geothermal expertise and capabilities particularly in
geophysics and geology. Its research is ocused on the interactions o
hydrothermal fuids, rocks, ractures, and tectonic stresses in the
accessible earth. Specically in regard to geothermal its activities are
around imaging subsurace reservoirs and racture systems, detecting,
locating and analysing microearthquakes, targeting geothermal wells,
and enhancing permeability o racture systems.
www.iese.co.nz
Business School
TheEnergyCentreisaninterdisciplinaryenergyresearchandeducation
centre,locatedintheEconomicsDepartmentatTheUniversityof
Aucklands Business School. Sta comprise economists, engineers and
engineering scientists. Research ocuses at energy (electricity and gas)
markets as well as other aspects o environmental, transport and
resource economics (including water allocation, carbon pricing, etc). In
the geothermal area, aspects o particular interest/expertise are:
integration in electricity markets, resource ownership and access,
resource consent and other regulatory aspects.
www.business.auckland.ac.nz/energy
All o this geothermal expertise is coordinated through
The Geothermal Institute.
www.geothermal.auckland.ac.nz
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Geothermal Education and
TrainingThe Geothermal Institute and The University o Auckland oer a wide
range o academic degrees and proessional development courses to
meet the needs o the geothermal sector. These range rom the
professionalPostgraduateCerticateinGeothermalEnergyTechnology,
MastersofEnergy,aswellasMastersandPhDsinarangeoftopics.In
addition there are a range o short public and tailored short courses
and expert consulting, coaching and mentoring.
Morethan850studentsfrommorethan50countieshavegraduated
rom the Geothermal Institute at the University o Auckland with an
internationally recognised qualication in Geothermal Energy rom
1978tothepresent;manyofourgraduatesarenowleadersinthe
geothermal industry world-wide. The Institute works closely with the
New Zealand geothermal industry to ensure that students obtain
maximum value rom their programmes.
Postgraduate Certifcate in Geothermal Energy
Technology (PGCert)
www.engineering.auckland.ac.nz/uoa/pgcertgeothermtech
ThePGCertisaone-semesterprogramingeothermalscienceand
engineering. Applicants must have a Bachelor o Engineering or
Bachelor o Science degree or have reached an equivalent level o
qualication in Science or Engineering.
Master o Energy
www.engineering.auckland.ac.nz/master-o-energy
This is a two semester (9 month) programme o specialist postgraduate
study in energy or Engineering, Science and Business and Economics
graduates who wish to enter the energy industry with specialist electives
ingeothermalenergy.TheMasterofEnergyDegreecanbecompleted
in one semester by students who have completed the requirements or
thePostgraduateCerticateinGeothermalEnergyTechnology.
Master o Engineering (ME)
www.engineering.auckland.ac.nz/uoa/master-o-engineering
This is a two semester (9 month) all research degree oten extended to
almost12months.Topicsareavailableinmanybranchesofgeothermal
engineering.ThestandardrouteforadmissionintotheMEisby
completingaBachelorofEngineering,attainingatleastSecondClass
HonoursFirstDivision.Seethewebsiteforotherentryroutes.
Master o Science (MSc)
www.science.auckland.ac.nz/uoa/msc
Dependingonthesubjectmajororspecialisationbeingtaken,anMSc
degree may be purely research or teaching or a combination o both.
ThestandardrouteforadmissiontoaMScrequirescompletionofa
BachelorofScience(Honours)orPostgraduateDiplomainSciencewith
aB-averagein90points,atleast75ofwhichmustbeat700level.See
the website or other entry routes.
Master o Commerce
www.business.auckland.ac.nz/uoa/home/or/uture-
postgraduates/study-options-7/postgraduate-
programmes-1/mcom-quick-acts
TheMasterofCommercedegreeenablesthebeststudentstopursue
specialised knowledge through independent research, and is designed to
prepare them or specialist positions in the public and private sector. The
standardrouteforadmissionisaBComorequivalent,andamajorinthe
subject intended or this degree with an average grade o B or higher.
Doctor o Philosophy
www.auckland.ac.nz/uoa/p-doctoral-degrees#s3c1
Thisisa3to4yearresearchdegree.Thestandardentryrouteisby
completingaBachelororaMastersdegreeawardedwithminimumof
SecondClass(DivisionI)atTheUniversityofAuckland.Seethewebsite
or other entry routes.
Short Courses and Specialist Training
www.iese.co.nz/GeothermalProgramme/
QualicationsandShortCourses.aspx
The Geothermal Institute through IESE annually coordinates the delivery
o short courses on a range o geothermal topics. The course content is
typically designed or individuals already in the geothermal workorce,
and ocuses on resources, exploration, development and assessment.
IESE also provides specialist customised training to geothermal
companies and organisations both locally and internationally. Recently,
IESEhasruncoursesinChile,Indonesia,NewZealand,Australia,
Kenya,theCaribbeanandSingapore.
Short course topics include:
Geosciences
Geochemistry
Reservoirmodelling
Modelingandsimulationofmulti-phaseowinpipelinesandplant
Geothermalprocessplantcontrol&optimisation
Geothermalenergyinaction
Structuralcontrolsonuidow
The Geothermal Institute also convenes the annual New Zealand
Geothermal Workshop, which is the longest running energy conerence
in New Zealand.
Scholarships
Atotalof25ScholarshipsperannumareavailablefromtheNew
ZealandMinistryofForeignAffairs(MFAT)forstudents fromeligible
countries toattend postgraduate programmesatTheGeothermal
Institute.
Informationonthescholarshipschemes(NewZealandDevelopment
Scholarships,NewZealandPacicScholarships,NewZealandASEAN
Scholarsawards andCommonwealthScholarships)thatcanbe
accessedforthispurpose canbefoundonthewebsitewww.aid.govt.nz
Inaddition,contactsatrelevantdiplomaticpostscan also befoundonMFATswebsite
www.mat.govt.nz
7/29/2019 Geothermal Institute Brochure
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Geothermal Technology
InnovationsThe University o Auckland always seeks to bring new and improved
technologies and techniques to locating, developing and managing
geothermal energy. Recent innovations rom the Geothermal Institute
include:
Joint Geophysical Imaging
In the area o geothermal exploration, IESE oers a unique Joint
Geophysical Imaging (JGI) technology which involves combining data rom
seismographs and other geophysical instruments or analysis and
interpretation, and takes advantage o signal polarisation eects
produced by subsurace ractures. It is designed to signicantly lessen
development risks, and thereore costs, by locating optimum drilling
targets.Forexample,insomegeothermalelds,theJGIapproachhas
resultedindoublingnewwelloutputsbyndinghighpermeabilityzones.
The JGI method improves resolution o reservoir boundaries, upfow, ault,
andfracturezones,andfracturedensityandorientation.Fordevelopersit
oers a way to reduce the risk-against-returns in geothermal exploration.
Engineered Geothermal Systems Modelling and
Monitoring
IESE researchers have been developing advanced, data based models
o the complex interactions o hot rocks and fuids, erratic fow
pathways, and the deormation eects o temperature and pressure
changes or Engineered Geothermal Systems (EGS). EGS, a high-
potential geothermal technology that has not been realised on an
industrial scale, is intended to work by creating turbine-turning steamthroughwatercontactwithhotrock. Theprocessrequiresenhancing
fow pathways in such rocks. The EGS process generates small seismic
events(inducedseismicity). Bydeployingaboreholeseismicnetwork
at such project sites, the location o these microearthquakes can be
readilydetectedandtheirmagnitudesmonitored. Thisvaluableseismic
data can be interpreted or accurate well targeting and ensur ing that
seismic saety measures are ollowed. IESE sta been involved in
monitoring3EGSprojects:Basel,Paralana,andNaknek.
Deep Borehole Observatories
With one o its industrial partners, IESE has co-developed a cableless,
downhole seismometer and data acquisition array. Since datarecording is within each sonde o the array, data losses due to
transmission noise are eliminated. This new tool is especially well
suited to the recording o the aintest o seismic signals, perhaps the
smallest ever detected in deep boreholes. In more standard
applications, IESEs microearthquake monitoring networks are being
used to assist in geothermal development and management by tracking
the locations o seismicity that relate to fuid production and injection.
Geothermal Modelling: Sophisticated Reservoir
Simulator Development
TheGeothermalInstitutemodellersintheDepartmentofEngineering
Science have developed sotware tools or geothermal well-boresimulation, automated well test analysis and tracking o geothermal
tracers. In particular, this group is running large complex models o
geothermal elds in New Zealand and overseas. In order to do this,
very ast solvers have been developed as part o the reservoir simulator
as well as a range o visualisation tools to show the simulation results.
PYTHONscriptingtoolshavealsobeendevelopedtoassistwithcomplex models such as that o the Lihir geothermal system where the
excavation o a gold mine has to be included in the model.
Automated Model Calibration
An important part o current research is geothermal reservoir model
calibration which involves the choice o suitable parameter values or
quantitiessuchaspermeabilityandporosityinthereservoir.Forthe
calibration o a large model o a whole reservoir where there may be
thousands o computational elements or blocks the problem is very
dicult. The modellers are using two innovative sophisticated
approaches to solve this problem.
Fluid Rock Interaction
The Geothermal Institute modelers are currently investigating several
topics involving fuid rock interaction. The rst o these is the modeling
subsidence in geothermal elds. Their method involves using a coupling
ofthereservoirmodelingsoftwareTOUGH2witharockmechanics
simulator called ABAQUS. Available geotechnical expertise provides
insight into the compressibility properties o geothermal strata or the
ABAQUS modeling. A second study is looking at the e ect o the
injection o cold water into a hot geothermal reservoir.
Reinjection o Geothermal Fields
The Geothermal Institute modelers have recently carr ied out a review o
experience worldwide o reinjection in geothermal systems and
complemented this with a modeling study to test ideas about where it is
best to reinject: either ineld close to the production wells or ar away
rom them. Their results show that ineld reinjection should not be
preerred or hot systems like Wairakei but is desirable or hot water
systems where pressure support is required.
Control Systems or ORC Geothermal Plants
AdynamicmodelofanORCplantisbeingcompletedandwillbeused
to look at the eectiveness o dierent control strategies. The aim is to
design a control system that takes multiple actors into account such asouling, plant maintenance, resource consent compliance, reservoir
status and the optimisation o a network o electricity generation plants
based on real-time market data.
7/29/2019 Geothermal Institute Brochure
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Geothermal Research ServicesThe Geothermal Institute provides a range o o erings in Applied
Research,Consulting,Services,TestingandEquipment.
Geothermal GeosciencesGeothermalexploration
Dataintegrationandprocessing
Welltargeting
Seismictomography
Geologicalandgeochemicalsurveying
Reservoircomplexityandmodelling
ElectromagneticTEMandMTinterpretation
Jointgeophysicalimaging
Electromagnetic Profling
MT,TEM,andCSAMTproling
Leadingequipment-PhoenixGeophysicsOver1000soundingsconductedworld-wide
Jointinterpretation
Geological Mapping and Geochemical Analysis
Fieldmappingandsamplecollection
Fluidinclusionanalysis
Petrographicmicroscopy
Scanningelectronmicroscopy
X-RayPowderDiffraction
GeneralAreaDiffractionDetectionSystem
Micro-seismic Monitoring NetworksPermanentandtemporaryinstallations
Boreholeandsurface
Radiotelemetryandautomaticeventdetection
Mobilerentalnetworkforfastdeployments
Advancedandbasicdataanalysis
Custom Borehole Instrumentation
Verydeepboreholeinstrumentation
Highpressureandhightemperature
Highreliabilityusingpassivesensors
Seismology
Seismicarrayoptimisation
Boreholeseismology
Fracturedistributionanalysis
Geothermal Engineering
Reservoirmodelling
Geothermalwell-testanalysissoftware
Subsidencemodelling
Laboratorytestingofcoresfromgeothermalstratatomeasure
compressibility and other geotechnical properties
Geothermal Process Engineering
Multi-phaseowmodelling
Pipelinemodelling
Geothermalplantmodelling
Plantoptimisation
Materials Characterisation
Mineralandorganicfoulinganalysis
Fractureanalysis
Identicationofcorrosionproducts/scalingproducts
Contaminantparticlesidentication
Segregationofalloyingelementsatmetalgrainboundaries
Crystalorientationduringdeformationprocesses
Phasespresentinasample
Roughnessmeasurementsofsmoothsurfaces
Frictionalpropertiesofsurfaces
Economic Analysis
Investmentanalysis
Governancearrangementsfordevelopment&utilisation
Public Policy Analysis
Economicmodellingofdevelopment
Marketintegration
Environmental and Ecological Analysis
Assessmentofgeothermalecosystems
Environmentalimpactsofdevelopment
7/29/2019 Geothermal Institute Brochure
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Geothermal Project ExamplesThe Geothermal Institute through its aliated research groups has
undertaken a number o geothermal projects both in New Zealand and
internationally in recent years. These projects include:
Geothermal Exploration and Development
Island o Nevis, Caribbean - greeneld exploration involving a
combination o geoscientic data (geological and geophysical mapping)
led to the drilling o several successul exploration wells and the
discovery o an economically exploitable high temperature resource.
Montserrat - A geophysical survey involving two types o
electromagneticsounding(MT&CSAMT)methodswereemployedto
establish the structure and distribution o potential fuid resource on
thisvolcanicisland.Azoneofapparenthighpermeabilitywasfound
near Saint Georges Hill. This site has now become the ocus o a
potential high temperature geothermal power development.
Sumatra, Indonesia - Joint Geophysical Imaging (JGI using
electromagnetic and seismic data) o greeneld geothermal sites in
Sumatra was completed to determine drilling targets or a geothermal
power development. A seismic survey was conducted using a
combination o surace and borehole instruments, with emphasis
placedonS-wavesplittingassociatedwithzonesofaligned,high
permeability,fractures.ExistingMTdatawasanalysedforpreviously
ignoredpolarisationeffectrelatedtoorientedfractures.Followingthe
JGI data analysis, and in combination with geological data, several
potential drilling targets were identied.
Utah & Nevada, USA - geophysical and geological data acquisitionand analysis at the geothermal eld at Box Elder, Utah, and at Nye
County,Nevada.
Rwanda-Completedgeologicalandgeophysicalsurveysfor
geothermal potential and determining drilling target in Rwanda.
Olkaria, Kenya-aUNEPfundedprojecttopioneerJointGeophysical
Imaging (JGI). Beore the survey, the target area had an average
productivityof2MW/well.ByusingJGI,thedeveloperrealisedan
increaseinaverageproductivityto5MW/well.
Krafa Volcanic Field, Iceland - deployment o a network o
boreholeandsurfaceseismometers,andelectromagnetic(MTandTEM)
soundings. The integrated model o the eld provided optimum drilling
targets, and subsequent drilling yielded one o the most productive
wells in the eld.
Seismic Monitoring o Geothermal Fields
Wairakei Geothermal Field, New Zealand - installed a world-class
borehole seismic array in the oldest operating geothermal eld in New
Zealand, providing real-time date about the microearthquake activity in
theeld.Dataisusedtomonitor,manageandpossiblyexpandfuture
operations.
Montserrat, Caribbean-4boreholeseismometersandstring
metersforactivevolcanicmonitoringat250kms.
Muara Laboh, Indonesia-3boreholeand6surfacegeothermal
monitoring stations.
Coso geothermal elds, Caliornia, USA-12stationborehole
networks in 100 metre boreholes. Installation, operation, and analysis
oftheCosoGeothermalFieldseismicnetwork,leadingtothe
development o S-wave splitting tomography or locating ractures as
drilling targets. Subsequent electromagnetic and drilling studies
conrmedthelocationsandsizesofpotentialhighpermeabilityzones.
Puna, Hawaii, USA geothermal elds-8stationborehole
networks at 100 metres.
Engineered Geothermal Projects (EGS)
Basel, Switzerlandconstructionofa6stationseismometerand
accelerometermonitoringnetwork,includinginstrumentsat1.2and
2.7kmdeep,followedbythecollaborativeanalysisofinduced
seismicity.
Paralana, Australiainstallationofanetworkof8boreholestations
atdepthof1.8kms.Thisseismicnetworkprovidesreal-timefeedbackon
theeldduringdrillingandhydrofracturing.
Reservoir Modelling
Wairakei, New Zealand-3Dmodellingsupportingmanagement
decisionsbytheeldoperator,ContactEnergyLtd.Alsoanimportant
partoftheapplicationsforresourceconsentsfortheTeMihiand
Tahara2projects.
Ohaaki, New Zealand - high concentrations o carbon dioxide gas
requireddifferenttechniques.Modelsarebeingusedtoplanforfuture
sustainable productivity.
Wayang Windu, Indonesia - a modelling study or the applicationo the expansion o generation capacity.
Other Geothermal Reservoir Modelling Sites-Mokaiand
Ngawha(NewZealand),Dieng,Darajat,Silangkitang,Namora
(Indonesia),Leyte,NorthernNegros,Bacman(Philippines),Olkaria
(Kenya),EastMesa(USA),Fushime,Kakkonda(Japan)andLosHumeros
(Mexico).
Geothermal Process Engineering
Kawerau, New ZealandModellingofawholegeothermalprocess
plantwithdifferentprocesscongurationstooptimizeenergyand
removal o non condensable gases.
Ngawha, New ZealandModellingofageothermalpipelineand
processplanttooptimizeplantoperatingscenariostooptimizeenergy
recovery.
7/29/2019 Geothermal Institute Brochure
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For more inormation on the Geothermal Institute contact
Gary Putt
ExecutiveDirectorGeothermalInstitute
DirectorBusinessDevelopmentUniServices
Phone:+6499238206
Email:gary.putt@auckland.ac.nz
Auckland UniServices LimitedLevel 10, UniServices House
70SymondsStreet,Auckland
Or
PrivateBag92019AMC,
Auckland1142,NewZealand.
Proessor Mike OSullivan
GeothermalInstituteAcademicDirector
Phone:+6493737599ext.88393
Email:m.osullivan@auckland.ac.nz
Level3,UniServicesHouse
70SymondsStreet,AucklandOr
PrivateBag92019AMC,
Auckland1142,NewZealand.
Website:www.geothermal.auckland.ac.nz Email:geothermalinstitute@auckland.ac.nz
Auckland UniServices LimitedAuckland UniServices Limited is the largest research and development
company o its kind in the Australasia and a wholly owned company o
The University o Auckland. UniServices provides world-class scientic,
industrial and educational solutions or businesses and governments.
ClientshaveaccesstoTheUniversityofAucklandsleadingcommunity
o researchers to work on a variety o industry related issues or
problem solving and end-to-end solutions.
UniServices manages all o The Universitys intellectual property
and is responsible or all research-based consultancy partnerships,
commercialisationoftechnologywithover300licencesfor
intellectual property as well as contracted education programmes.
UniServcieshaslaunchedmorethan30NewZealandbusinesses
fromUniversityresearchandcurrentlyhasmorethan2,000
projectsin36countriesaroundtheworld.
Its easy to do business with UniServices. Experienced Business
Managerscanhelpnavigatedifcultmarkets,supportR&Dand
commercialisation, and access government unding.
UniServicescantranslatebusinessR&Dneedstopulltogetherateam
o world class experts to create a solution. Whether its a single
contract or an on-going permanent supplier relationship, UniServices is
fexible enough to accommodate a businesss specic requirements.
Their priority is to help a company achieve their goals. Their services
are designed to meet businesses short and long term needs through
building strong partnerships with the University and business.
UniServicesworksincollaborationwithbusinesses.R&Dwith
UniServices is:
Yours,youownit
Valueadded
ResponsiveManageable
Focussed
Tailored
Accessible
Engagement with UniServices is tailored to what you need:
Consulting
Contractresearch
Technologylicensing
Testing
Facilities
GaryPutt,DirectorBusinessDevelopment
Phone:+6499238206
Emails:gary.putt@auckland.ac.nzorgeothermal@uniservices.co.nz
Auckland UniServices Limited,
Level10,UniServicesHouse,70SymondsStreet,Auckland.
PrivateBag92019AMC,Auckland1142,NewZealand.
www.uniservices.co.nz
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