Årsberetning for VISTA
2013
Samarbeid om grunnforskning
mellom Det Norske Videnskaps-Akademi og Statoil
2
Bakgrunn
VISTA er et grunnforskningsprogram finansiert av Statoil som gjennomføres i samarbeid med Det Norske
Videnskaps-Akademi. VISTA-programmet ble startet 1985 og deler for tiden ut 20 millioner kroner årlig i
forskningsstøtte.
VISTAs mål er å utvikle et godt faglig og gjensidig samarbeid mellom Statoil og norske
grunnforskningsmiljøer ved:
- gjennom Akademiet, å sikre effektiv, tverrfaglig kommunikasjon mellom Statoil og norske
grunnforskningsmiljøer
- å stimulere og støtte norske forskere og grunnforskningsmiljøer innenfor prioriterte områder
- å sikre effektiv organisering og kvalifisert bemanning av grunnforskningsprosjekter
Gode miljøer ved universitetene i Norge kan to ganger i året søke om prosjektstøtte til doktorgrads-studier
eller postdoc kandidater. Gjennom VISTAs postdoc-program søker en å knytte gode norske og utenlandske
forskningsmiljøer tettere sammen ved utveksling av forskere. VISTA støtter også et professorat.
Satsingsområder 2013
VISTA spenner over følgende fem programområder:
-
Leting etter petroleumsressurser
-
Økt olje- og gassutvinning
-
Olje- og gassprosessering
-
Miljøaspekter relatert til olje- og gassutvinning
-
Bioteknologi i petroleumssammenheng
VISTA Drammensveien 78, NO-0271 OSLO
Tlf: 22 12 10 93
E-post: [email protected]
Nettsted: www.vista.no
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Innholdsfortegnelse
Innhold
VISTA ................................................................................................................................................................ 5
Styrets beretning ............................................................................................................................................. 5
Seminarer........................................................................................................................................................ 5
VISTA scholars meeting i Akademiet 11. juni 2013 ................................................................................. 5
Stipendiatdagen .......................................................................................................................................... 6
VISTA-dagen ............................................................................................................................................. 6
Prosjekter ............................................................................................................................................................ 8
Nøkkeltall 2010 - 2013 ....................................................................................................................................... 9
Hovedtall .......................................................................................................................................................... 10
Exploration ....................................................................................................................................................... 11
Biotechnology .................................................................................................................................................. 17
ORGANISASJONS- OG STYRINGSSTRUKTUR FOR VISTA 2013 ......................................................... 19
Årsrapporter fra VISTA prosjektene kan fås i eget vedlegg. Kontakt [email protected]
4
VISTA
Akademiets samarbeid med Statoil i form av VISTA-programmet startet i 1985. VISTA-modellen har høstet
anerkjennelse nasjonalt og internasjonalt og omfatter grunnforskningsprosjekter på områder som er
sentrale i sammenheng med oljevirksomhet: som leting, olje- og gassprosessering, økt utvinning, miljø og
bioteknologi.
I november 2008 ble en ny samarbeidsavtale mellom Statoil og Det Norske Videnskaps-Akademi inngått for
5 år. Kontraktsbeløpet er nå NOK 18,75 mill pr år og gjelder til 31. desember 2013.
Styrets beretning
Statoils styremedlemmer i 2013 har vært Leif Lømo og Bård Krokan. Det Norske Videnskaps-Akademi har
vært representert i styret ved professorene Nils Chr. Stenseth (UiO), Elisabeth Alve (UiO), Helge Holden
(NTNU), Tor Grande (NTNU) og Odd Stokke Gabrielsen (UiO). Anders Elverhøi (UiO) har vært styreleder.
VISTA programleder har vært Øivind Fevang fra Statoil.
VISTA-samarbeidet hadde i 2013 fem programområder:
 Leting (områdeleder Lasse Amundsen, Statoil)
 Økt utvinning (områdeleder Stein Børre Torp, Statoil)
 Olje- og gassprosessering (områdeleder Dag Schanke, Statoil)
 Miljø (områdeleder Christian Collin-Hansen, Statoil)
 Bioteknologi (områdeleder Hans Kristian Kotlar, Statoil)
VISTA-styrets årlige styretur ble avviklet 11.-12.september 2013 og gikk til NTNU. Formålet var å få en
oversikt over norsk og utenlandsk forskningsaktivitet i Trondheim for å vurdere en eventuell støtte av
forskningsprosjekter og for å gjøre VISTA mer kjent. Styret fikk en orientering av Karl Jonny Hersvik, Leder
Statoil RDI. Videre besøkte styret NTNU ved Institutt for kjemisk prosessteknologi, Institutt for kjemisk
prosessteknologi, Institutt for petroleumsteknologi og anvendt geofysikk, Institutt for petroleumsteknologi
og anvendt geofysikk. I tillegg var det orienteringer og omvisning på BIGCCS (FME) og SFIen Sustainable
Arctic Marine and Coastal Technology.
Styret vedtok i 2011 nye søknadsprosedyrer med åpen utlysning av VISTA-midler. Søknadsfrist settes to
ganger i året, ca. en måned i forkant av styremøter.
Seminarer
VISTA scholars meeting i Akademiet 11. juni 2013
Møtet ble avholdt på initiativ av VISTA stipendiatene. 10 av stipendiatene/postdocene deltok. Intensjonen
var å introdusere Akademiet og VISTA til nyansatte VISTA-stipendiater og utveksle erfaringer som VISTAstipendiat. Øivind Andersen innledet om Akademiet. Deretter ga VISTA styremedlem Anders Elverhøi
presentasjonen VISTA research: cooperation between the universities and across the division areas, mens
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styreleder Bård Krokan presenterte VISTA og Statoil. Ettermiddagen gikk med til en workshop om
forskningsformidling. Møtet ble avsluttet med en felles middag med stipendiatene og VISTA-styret.
Stipendiatdagen
Stipendiatdagen i 2013 ble avholdt 10. september på Statoil sitt forskningssenter på Rotvoll i Trondheim. Det
var i alt omkring 45 deltakere på arrangementet inkludert stipendiater, prosjektledere, administrasjon,
representanter fra VISTA-styret, Statoil og Det Norske Videnskaps-Akademi. Sjefsforsker Dag Schanke
innledet om Statoil og VISTA mens Vise-Preses Nils Chr. Stenseth presenterte Akademiet. I foajeen var det
posterpresentasjoner av VISTA-prosjekter. Første del av dagen inneholdt fem plenumsforedrag av
PhD/Postdoc kandidater i sluttfasen av sine prosjekter, fra hvert av de fem satsningsområdene. Deretter
presenterte ny VISTA professor, Jan Martin Nordbotten sine forskningsplaner. Videre var det parallelle
sesjoner med prosjektpresentasjoner før dagen ble avsluttet med felles middag på Rotvoll.
VISTA-dagen
Årets VISTA-dag ble arrangert 19. november 2013 i Det Norske Videnskaps-Akademi. Tema for dagen var
Energilandskap og nye energikilder. Diskusjonene dreide seg om hvilke konsekvenser et skifte fra
energilandskap mot et lavkarbonsystem kan få for forskning, utdanning og industri. En rekke ekspert- og
fagpersoner fra inn- og utland belyste temaet fra ulike perspektiver, ståsteder og erfaringer.
Det Norske Videnskaps-Akademi og Statoil fornyet også sitt samarbeid ved å signere en 5-årig VISTA-avtale.
Avtalen ble undertegnet av Bård Krokan fra Statoil, styreleder i VISTA, og Akademiets generalsekretær Øivind
Andersen.
Følgende foredrag stod på programmet:
 Statssekretær Kåre Fostervold, Olje- og energidepartementet,
Myndighetenes perspektiv på betydningen av forskning og utvikling for et energilandskap i endring
 Robert C. Armstrong, direktør MIT Energy Initiative,
The Future of Natural Gas
 Rainer Baake, direktør Agora Energiewende,
Challenges of a Power System Based on Wind and Solar - an introduction to the German
Energiewende
 Geir Axelsen, Head of Macroeconomic and Energy Market Analysis, Statoil
Statoils energiperspektiv
 Dag Rune Olsen, direktør UiB
Fremtidens energiutdanning
 Ole Petter Ottersen, rektor UiO
Universitetenes rolle i forståelse for og forming av energilandskapet
Bård Krokan, styreleder VISTA, oppsummerte dagens foredrag og innledet til paneldebatt med foredraget
Energilandskap og nye energikilder; en utfordring for forskning, utdanning og industri. I panelet satt David
William Nunn (direktør Strategy and Regulatory Support, Renewable Energy i Statoil), Fridtjof Unander
(divisjonsdirektør for energy, ressurser og miljø, Forskningsrådet), Anne Jorun Aas (styremedlem Energi21),
Dag Rune Olsen (rektor, UiB) og Ole Petter Ottersen (rektor, UiO). Dagen ble avsluttet med felles middag for
deltagerne.
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19. november signerte Det Norske Videnskaps-Akademi og Statoil en ny 5-års
avtale om VISTA samarbeidet om 20 millioner kroner i året til grunnforskning.
Avtalen ble signert av Akademiets generalsekretær Øivind Andersen og
Vice President Bård Krokan fra Statoil.
Statssekretær i Olje- og Energidepartementet Kåre Fostervold presenterer
myndighetenes perspektiv på betydningen av forskning og utvikling for et
energilandskap i endring.
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Prosjekter
I VISTA-programmet er Akademiet gjennom sine medlemmer i VISTA-styret med på å identifisere relevante
grunnforskningsmiljøer samtidig som det deltar i den overordnete faglige styringen. Akademiet har
arbeidsgiveransvar og forestår regnskap, regnskapskontroll, lønnsutbetaling og forsikring for VISTA-tilknyttet
personale, herunder stipendiater på PhD- og Postdoc-nivå. Akademiets sekretariat bidrar med administrativ
assistanse og koordinerer VISTA-programmet.
VISTA støttet til sammen 23 PhD og Postdoc prosjekter per 31. desember 2012. Som VISTA professor var
Bjørn Ursin engasjert i perioden 2008-2012. Han er tilknyttet NTNU, Department of Petroleum Engineering
and Applied Geophysics. Ursins engasjement utløp 31. desember 2012.
Bård Krokan
Tor Grande
Helge Holden
Nils Christian Stenseth
Elisabeth Alve
Anders Elverhøi
Leif Lømo
Øivind Fevang
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Nøkkeltall 2010 - 2013
(Regnskapstall MNOK)
INNSATSOMRÅDER
Prosentvis fordeling
2013
2012
2011
2010
Leting
( 27,4 % )
4.819
2.871
2.254
2.649
Økt oljeutvinning
( 24,3 % )
4.279
4.551
5.104
5.641
Olje- og gassforedling
( 5,8 % )
1.012
3.150
3.681
3.492
Miljø
( 25,6 % )
4.501
1.878
2.011
4.310
Professorater
( 1,7 % )
312
1.334
1.302
1.752
Bioteknologi
( 15,2 % )
2.672
4.294
4.806
4.305
1.701
1.701
1.701
1.701
394
346
617
544
19.690
20.125
21.476
24.394
18.750
18.750
15.000
15.000
0
0
0
3.750
71
101
101
5
-869
-1.355
-2.625
-5.639
19.690
20.125
21.476
24.394
100,00 %
ADMINISTRASJON
Akademiets adm. kostnader
VISTA seminarer/møter/reiser
Total
FINANSIERT VED
Årlig bevilgning fra Statoil
Gaveforsterkningsmidler
Diverse inntekter
Overført til/fra reserver
TOTAL
9
Hovedtall
Prosentvis totalt brukte midler fordelt på innsatsområdene 2013
Leting
Økt utvinning
Olje- og gassforedling
Miljø
Bioteknologi
Professorater
27 %
24 %
6%
26 %
15 %
2%
Fordeling av prosjektkostnader 2013
Lønn:
Overhead:
Drift:
Møter/Representasjon/Reiser:
68 %
18 %
10 %
4%
Stipendiater/post.docs 1985 – 2013
Avlagte dr.grader, fullfinansiert
Avlagte dr.grader, delfinansiert
Avlagte dr.grader, ekstern lønnsfinans.
støttet med driftsmidler
Avlagte post.docs.
Stipendiater i gang pr 31.12.2013
Post.docs i gang i pr 31.12.2013
SUM
85
12
63
69
8
10
247
VISTA Professorater: 7
Publikasjoner 1985 – 2013
Estimert antall publikasjoner i internasjonale tidsskrifter: ca. 948
Publikasjoner 2004 – 2013
2004: 7
2005: 13
2006: 29
2007: 27
2008: 33
2009: 15
2010: 22
2011: 27
2012: 32
2013: ca.30
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Exploration
by division head Lasse Amundsen
New discoveries of hydrocarbon reserves are of great national and international economic importance to fulfil rising
global energy demand and to maintain production levels. This is particularly the case on the Norwegian Continental
Shelf (NCS), where the average time from award of exploration licence to field development traditionally is 10-15
years - It is clear that a significant exploration effort on the NCS is needed to maintain national production levels
before existing producing fields are decommissioned. The ultimate goal of the VISTA-exploration programme is to
provide new knowledge and technology that will reduce the economical risk related to exploration of petroleum,
both on the NCS and globally.
Highlights from VISTA projects within the area “Exploration” in 2013:
Seven projects were supported during 2013, of which one completed and one started. The scholars published
four papers in international journals during 2012.
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Improved recovery
by division head Stein Børre Torp
The ultimate goal of the VISTA-IOR programme is to provide new knowledge and technology that will increase
ultimate oil and gas recovery and accelerate production. To achieve this, fundamental knowledge within
mathematical flow modelling, advanced thermodynamics, new recovery methods are all central. Likewise,
understanding the link between geology, geophysics, displacement mechanisms, and well solutions are of great
importance.
Both new discoveries of hydrocarbon reserves and increased oil recovery of existing fields are of great national and
international economic importance. This is particularly the case on the NCS, where small increases in the average
recovery factors will have large economic effects. It is clear that significant IOR efforts are needed on the NCS to
maintain national production levels and Statoil‘s recovery ambitions. Increased recovery and accelerated production
will require more wells at a reduced cost and with increased production efficiency.
In 2009 and 2010 the area committee gave particular focus on initiating projects with challenging thermodynamics in
the recovery methods, where the reservoir fluids have to be taken through a phase transition to be efficiently
produced. Two specific examples are naturally occurring gas hydrates and extra heavy oil. All of these projects were
completed in 2012 and 2013. In 2011 the focus was changed towards modelling techniques for complex reservoirs
and enhanced oil recovery (EOR) methods. In 2013 it was decided to include drilling and well solutions as target
topics for the Improved Recovery area.
There has been good progress for the candidates in 2013. Three of seven active projects have been completed and
one new was initiated.
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Highlights from VISTA projects within the area of “Improved Recovery” in 2013:
Seven projects were active in 2013 of which three completed and one started.

Impact of Fault Envelope Architecture on Reservoir Fluid Flow (Completed 2013):
The main project objective was to study fluid flow behaviour in fault zones using reservoir
models that captured explicit fault envelope architecture and properties. The study
investigated the potential of these models by focusing on key issues related to the employment
of explicit fault architectures in reservoir models including up-scaling of these models for
simulation purposes, and how to employ the methods in scenarios involving intersecting faults.
The project results are in line with the objectives. Most progress has been made in providing
more reliable statistical descriptions of fault features and parameters. The impact of fault
architecture structures on reservoir fluid flow was studied and a comparison with existing
methods for statistical description of fault related features were carried out. The project has
supplied improved tools, workflows and methods for handling fault features in reservoir
models. Project results have been presented in seven papers and four conference
contributions.

Near-well simulations in 3D (completed 2013):
Accurate and efficient simulation of multiphase flow in the near-well region are recognized to
be a challenging task due to, among others; complex gridding, difference in scale between wellbore radius and reservoir extent, logarithmic pressure behaviour, and permeability
heterogeneity and anisotropy. This project has investigated gridding and discretization schemes
for simulation on general grids in 3D, with focus on near-well grids. The aim has been to
provide guidelines for selecting numerical schemes.
The project has produced two papers on the comparison of the methods investigated, and has
presented a list of potential future research topics.

Phase Behaviour and Related Properties of Mixtures of Solvents and Heavy Oil
(Completed 2013): Final report missing.
The project objective was to determine the phase behaviour of bitumen when diluted.
Understanding the phase boundaries is important both to develop better recovery processes
and ease of transporting the bitumen, which in turn may give more efficient and
environmentally friendly ways of bitumen production.

Reservoir Simulation in Challenging Reservoirs (Started 2013):
The overall objective is to identify and resolve some of the main challenges of reservoir
simulation for challenging reservoirs on the Norwegian Continental Shelf in an applied
mathematics perspective. One aim is to study the effect of capillary and viscous forces, and
examine which of these dominate at different flow rates. A second task is to evaluate hydraulic
fracturing techniques for well stimulation.
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Oil and gas processing
by division head Dag Schanke
The goal of the Oil and Gas Processing program is to develop new or improved processes or increase our
understanding of fundamental aspects of oil and gas processing, through experimental or theoretical studies.
The main strategy and interest within the Oil and Gas processing area has been adjusted somewhat to focus more on
upstream crude oil and gas processing and reducing the effort within other areas, such as natural gas conversion and
biofuels. This has stimulated interest from new research communities and has resulted in several new applications in
2013, with one project already started up and others in the pipeline to start-up in 2014.
Highlights from VISTA projects within the area “oil and gas processing” in 2013:


Two projects have been finalised in 2013. Both projects are on the interface between gas
conversion or processing and materials technology:
- The project ‘Advanced Catalysis in Methane Decomposition’ at NTNU has demonstrated
preparation of aligned carbon nano-fibers with new applications within energy storage
- The project ‘Functionalization and applications of zirconium-containing metal organic
framework’ at UiO has studied the synthesis and characterisation of a new classe of
materials, with a focus on improving the thermal stability. The results from the VISTA
project has resulted in new projects with funding (from CLIMIT and NANO2021) of research
activities directed towards applications within CO2 capture and use.
A new project within conversion of kerogen has started up at NTNU. Fundamental studies of
reaction kinetics are aiming to provide valuable insight into unlocking this vast and largely untapped
global resource.
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Environment
by division head Christian Collin-Hansen
The Environment area within VISTA aims at increasing the knowledge of the environments in which Statoil operates,
or considers moving into, as well as strengthening the company’s environmental technology portfolio. These goals
are being sought through applying in-depth scientific and technical knowledge to challenges of high relevance for the
company’s own R&D activities. It is an objective to utilise the results to support and strengthen other R&D activities
undertaken by Statoil, other oil companies and the Norwegian Research Council.
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Highlights from VISTA projects within the area “Environment” in 2013:
One new project was initiated in 2013 under VISTA-Environment, for a total of 5 projects running as of
Dec. 31.

A method has been developed for remote assessment and mapping of pollination, one of the
key ecosystem services. The model, which quantifies pollination delivery, can be applied to any
parcel of land in the world.

Two models describing the population dynamic of cod and haddock, two ecologically and
economically important fish species in the North-Eastern Atlantic Ocean, have been successfully
developed. The models will become valuable for exploring scenarios related to hypothetical oil
spills which could affect early life stages of these species. The models take into account several
factors modulating the effects on the population, such as compensation due to densitydependent survival, mortality due to fishing, and environmental conditions.

The candidate working on developing more sensitive methods for determining nitramines and
nitrosoamines in water and soil, has submitted a review article on available analytical methods
for nitramines. Nitramines and nitrosoamines are two classes of chemicals which may be
formed as a result of amine emissions from CO2 capture plants. The review article covers
methods for identifying individual nitramines, as well as quantitative methods.

Preliminary analyses of data on diving behavior and space-use by ringed seals show very
interesting differences between the two time periods studied (2002-2003 versus 2010-2012).
The summer ice extent in the Barents Sea changed considerably between the two time periods,
and the observed behavioral changes in ringed seals are likely caused by these alterations in the
seals’ habitat, alterations which again are caused by climate change.
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Biotechnology
by Christian Collin-Hansen
VISTA Biotech supports the use of biotechnology throughout the value chain of Statoil. The ambitions are to provide
new solutions and new technologies in bio-based sustainable and renewable energy, biofuels, bioconversion in
increased oil recovery and extraction of heavy oil, using biotechnological methods. Biotechnology will give new
knowledge and gain competitive advantages for Statoil in existing areas, but also in entering into new business areas.
Main activities in 2013 have been the following projects:
1: “Characterization and directed evolution of carbohydrate-binding modules (CBMs) for biomass conversion.” This
PhD project focuses on so-called CBM33 proteins, which are oxidative enzymes that boost the enzymatic
depolymerisation of chitin, a crystalline polysaccharide found in insects and crustaceans. Certain CBM33 family
members also boost the enzymatic conversion of other polymers including cellulose. These findings suggest CBM33
proteins could become valuable in a number of industrial applications, including conversion of biomass and
production of green chemicals and biofuels. The PhD candidate has carried out detailed characterization of the
structure and oxidative catalytic mechanism of the CBM33 enzymes, as well as studies of the catalytic efficiencies on
various substrates and metal dependencies.
2: “Better handling of microbial influenced corrosion during operation.” Microbial influenced corrosion
(biocorrosion) of metal surfaces can occur by a variety of mechanisms, reflecting the numerous physiological
activities carried out by different types of microorganisms. This project aims to identify microbial genes involved in
biocorrosion. The work to date has been focused on a nitrate-reducing Arcobacter species which has been isolated
and its DNA sequenced using state-if-the-art DNA sequencing technology. Ongoing work will provide new knowledge
on the growth requirements of this Arcobacter species. Differential expression of genes when the bacterium is grown
17
under corrosive vs. non-corrosive conditions will provide insight into microbial activities involved in metal
deterioration.
3: “Novel biocatalysts for innovative oil industrial bioprocesses by bioprospecting of oil reservoir metagenomes.”
Oil reservoirs represent a very interesting source of microbial enzymes that are robust to high temperature, high
pressure and high concentrations of organic and inorganic toxins. This project aims to discover new enzymes for
removal of “problem components” in oil by searching existing DNA libraries of microorganisms harvested from oil
reservoirs. One year into the project, bioinformatic data mining has revealed three putative laccase genes and four
putative alkyl succinate synthase genes. These genes are now being synthesized and expressed in order to study the
activities of these enzymes towards long chain alkanes and polyaromatic hydrocarbons, two classes of undesired oil
components.
Highlights from VISTA projects within the area Biotechnology in 2013:
One new project was initiated in 2013 under VISTA-Biotechnology, for a total of 4 projects
running as of Dec. 31.

Detailed characterization has been carried out on the structure and mechanism of
proteins belonging to the LPMO and CBM33 families (Lytic Polysaccharide
Monooxygenases and Carbohydrate-Binding Module-33). These proteins may boost the
enzymatic conversion of large, insoluble sugar polymers including cellulose and chitin. A
range of experimental approaches and techniques have been applied to gain new
knowledge on the mechanisms by which these proteins act on such complex insoluble
substrates. This project represents a major step towards making LPMOs and CBM33
family members valuable tools in a number of industrial applications, including
conversion of biomass and production of green chemicals and biofuels.

Microbial influenced corrosion (biocorrosion) of metal surfaces can occur by a variety of
mechanisms, reflecting the numerous physiological activities carried out by different
types of microorganisms. Through a project aiming at identifying microbial genes
involved in biocorrosion, a nitrate-reducing Arcobacter species has been isolated and its
DNA sequenced using state-of-the-art DNA sequencing technology. Ongoing work will
provide new knowledge on the growth requirements of this Arcobacter species. Next,
differential expression of genes when the bacterium is grown under corrosive vs. noncorrosive conditions will provide insight into microbial activities involved in metal
deterioration.

Bioinformatic data mining has identified three putative laccase genes and four putative
alkyl succinate synthase genes that may be applied for removing long chain alkanes (wax)
and polyaromatic hydrocarbons (PAH), two classes of undesired oil components. These
genes, which were found by searching existing DNA libraries of microorganisms
harvested from oil reservoirs, are currently being synthesized and expressed in order to
study the activities of the resulting gene products (i.e. enzymes). Oil reservoirs represent
a very interesting source of microbial enzymes that are robust to high temperature, high
pressure and high concentrations of organic and inorganic toxins. Removal of “problem
components” in oil by enzymes could represent a cost-efficient and environmentally
friendly alternative to today’s technology.
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ORGANISASJONS- OG STYRINGSSTRUKTUR FOR VISTA 2013
STYRET
PROGRAMLEDELSE
Anders Elverhøi, DNVA/UIO, styreleder
Bård Krokan, Statoil
Leif Lømo, Statoil
Nils Chr. Stenseth, DNVA/UIO
Elisabeth Alve, DNVA/UIO
Tor Grande, DNVA/NTNU
Helge Holden, DNVA /NTNU
Odd Stokke Gabrielsen, DNVA/UIO
OMRÅDEKOMITE
for
Leting
Øivind Fevang programleder, Statoil
Trine Gerlyng, koordinator, DNVA
Richard Kvile, regnskapsfører, DNVA
OMRÅDEKOMITE
for
Økt utvinning
Lasse Amundsen,
Områdeleder, Statoil
Stein Børre Torp,
Områdeleder, Statoil
Anders Elverhøi, UIO
Helge Holden, NTNU
Ole Torsæter, NTNU
OMRÅDEKOMITE
for
Olje- og
gassprosessering
Dag Schanke,
Områdeleder, Statoil
Tor Grande, NTNU
Elisabeth Alve, UIO
OMRÅDEKOMITE
for
Bioteknologi
OMRÅDEKOMITE
for
Miljø
Hans Kristian Kotlar,
Områdeleder, Statoil
Christian Collin-Hansen
Områdeleder, Statoil
Odd Stokke Gabrielsen, UIO
Nils Christian Stenseth,
UIO
PROSJEKTER
 Dr.gradsstipendiater
 Postdoktorer
 Prosjektledere
 Faglige kontaktpersoner i Statoil
 VISTA-professorat
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Kontaktinformasjon:
VISTA
v/Det Norske Videnskaps-Akademi
Drammensveien 78
0271 Oslo
[email protected]
22 12 10 90
20