Velkommen til

presentasjon av studieretning

Energi-, prosess- og strømningsteknikk

ved

Institutt for Energi- og prosessteknikk (EPT) 14. mars 2014

Prof. Trygve M. Eikevik e-mail: trygve.m.eikevik@ntnu.no

hjemmeside: http://folk.ntnu.no/tme

www.ntnu.no 2

Vindtunnel lab.

Termisk energi lav.

Vannkraftlaboratoriet

Institutt for Energi og prosessteknikk

www.ntnu.no 3

FAKTA • 160 ansatte (30 vitenskapelig ansatte) innen 5 faggrupper

– Termisk energi – Industriell prosessteknikk – Energiforsyning og klimatisering av bygninger – Strømningsteknikk – Industriell økologi

• 85 PhD-studenter • 70-115 MSc-studenter (115 i 2012)

LABORATORIER • 6000 m2 laboratorieareal i 3 bygninger • 20 ansatte i laboratorie/verksted

Institutt for Energi og prosessteknikk

Solar energy

Water power

Heat pump

Power production with CO2 capture

Ocean energy

Oil and gas transport Multiphase flow & LNG

CO2

H2

Bio refinery

Wind power

Storage in geo- logical layers

Oil Gas

Energy efficiency in buildings and industry

Refinery

Food Processing

Storage in oil/gas fields with increased oil recovery

“Energy efficiency offers the biggest scope for cutting emissions

End-use efficiency is the largest contributor to CO2 emissions abatement in 2030, accounting for more than half of total savings in the 450 Scenario, compared with the Reference Scenario.”

Ref: IEA WEO 2009

www.ntnu.no 6

Thermal Energy Group

Combustion Combustion, including processes and equipment Bio-energy Waste combustion Air pollution and gas cleaning

Turbo machinery and power generation Thermal turbo machinery, including gas turbines,

multiphase- and NG compressors Thermal power cycles including. CO2 capture High-temperature fuel cells

LCA and industrial ecology LCA – Life Cycle Analysis Value Chain Analysis Energy and Environment in developing countries Systems engineering

Multiphase pumps

NG power plant with CO2 capture

Combustion

Kontakt: Prof. Olav Bolland, olav.bolland@ntnu.no

www.ntnu.no 7

Industrial Process Technology Group Heating and cooling technology

Systems and components Energy analysis Process integration Heat pumping systems Power from low temperature surplus

heat

NG and Multiphase transport Multiphase transport NG processing Low temperature processes

Food engineering Cooling, freezing, thawing and tempering

of food Dewatering and drying Fluidized systems

Refrigeration and heating in cars

Offshore LNG

Cooling/freezing/dewatering

Components to industrial heating and cooling systems

Multiphase oil and gas pipes

Kontakt: Prof. Trygve M. Eikevik, trygve.m.eikevik@ntnu.no

www.ntnu.no 8

Energy and Indoor Environment Group

50 kW CO2 hot water heat pump, prototype

AluAqua-project. New concept for floor heating

Indoor environment in schools

Luftgardin over

bardisken

Tilluft i rensone bak bardisken

Avtrekk ute ipublikumsområdet

Fire safety and ventialtion in rock halls

Ventilation in restaurants and bars

Energy use and supply heating systems energy use and planning district heating

Building automation

system simulations facility management O&M

Indoor environment

building climatization sanitation and residential hygiene applied heat pump engineering

Ventilation engineering

HVAC systems industrial ventilation fire safety

Kontakt: Prof. Hans M. Mathisen, hans.m.mathisen@ntnu.no

www.ntnu.no 9

Fluid Engineering Group Fluid power and pneumatics

Turbine and pump design

System analysis Cavitations

Hydraulic fluid machines Components Control

Power-assisted mechanisms

Fluid flow engineering

Turbulence physics

Numeric fluid flow calculations

Fluid flow in micro media

Multiphase flow

Aero and hydro dynamics

Numerical computations of flow fields

Francis turbine

Pelton turbine

Aero dynamics Wind turbines

Kontakt: Prof. Lars Sætran, lars.satran@ntnu.no

www.ntnu.no 10

Industrial Ecology Group

Aktuelle tema for prosjekt- og masteroppgaver: • Livssyklusanalyse av e-bike • Livssyklusanalyse av flywheel til

energilagring • Utvikling av verktøy for miljøvurdering

innen oljeboring • «Urban mining» som ny råmaterialkilde • Livssyklusanalyse av CO2 fjerning fra

atmosfæren • Gjenbruk av stålstrukturer som

miljøstrategi • Analyse av globale verdikjeder for

forbruksbasert klimapolitikk

Grunnleggende emner • TEP4223 Livssyklusanalyse • TEP4220 Energi og miljøkonsekvensanalyse • TEP4285 Materialstrømsanalyse.

Kontakt: Prof. Edgar Hertwig, edgar.hertwig@ntnu.no

www.ntnu.no

STUDIEPROGRAM I PRODUKTUTVIKLING OG PRODUKSJON Studieretning: Energi-, prosess- og strømningsteknikk – 2. - 5. årskurs 2014/2015

Sem 7,5 Sp 7,5 Sp 7,5 Sp 7,5 Sp 10

V16 MASTEROPPGAVE (20 uker)

9 H15

KOMPLEMENTÆRT EMNE (se 7. semester)

TEP4520/TEP4525 INDUSTRIELL PROSESSTEKNIKK (Prof. Eikevik) TEP4510/TEP4515 TERMISK ENERGI (Prof. Bolland) TEP4530/TEP4535 ENERGIFORSYNING OG KLIMAT AV BYGNINGER (Prof. Mathisen) TEP4540/TEP4545 STRØMNINGSTEKNIKK (Prof. Sætran)

8 V15

EKSP I TEAM TV PROSJ

ING – annen studieretning/studieprogram

TEP4112 TURBULENT STRØMNING A TEP4160 AERODYNAMIKK A TEP4170 VARME/FORBRENNING A TEP4195 TURBOMASKINER A TEP4245 KLIMATEKNIKK A TEP4255 VARMEPUMP PROS/SYST A

TEP4200 KONSTR HYDRAUL STRM TEP4205 IND HYDRAULIKK (ikke i 2012/2013) TEP4220 ENERGI/MILJØKONSEKV TEP4250 FLERFASETEKNIKK TEP4260 VARMEPUMP BYGN KLIMA TEP4265 PROSESS AV BIOMAT TMR4280 FORBRENNINGSMOTORER TPK4110 KVALITETSLEDELSE TVM4145 VANNRENSEPROSESSER ANNET VALG

7 H14

TEP4156 VISKØSE STRØMNINGER A TEP4185 NATURGASSEKNOLOGI A TEP4212 GASSRENS/UTSL KONTR A TEP4235 ENERGIBRUK I BYGNINGER A Minst To av A emnene skal velges

Komplementært emne FI5205 CORP RESPONS ETHICS FRA0502 FRANSK II MFEL3010 MEDISIN SPA0502 SPANSK II SPRÅK4501 SCIENTIFIC COM TEPXXXX INDUSTRIELL ØKOLOGI TIØ4215 KONTR RETT FORHANDL TIØ4295 BEDRIFTSØKONOMI TMM4220 INNOVASJON TMM4225 ING SAMHANDLING TPD4142 DESIGN THINKING TYSK0502 TYSK II

TEP4156 VISKØSE STRØMNINGER A TEP4185 NATURGASSEKNOLOGI A TEP4212 GASSRENS/UTSL KONTR A TEP4235 ENERGIBRUK I BYGNINGER A Minst To av A emnene skal velges

TEP4165 NUM VARME/STRØMN TEK A TEP4175 ENERGI VIND/HAVSTRØM TEP4180 EKSP MET PROSESSTEKN A TEP4222 KRYSSL HANDEL MILJØ TEP4223 LIVSSYKLUSANALYSE TEP4240 SYSTEMSIMULERING A TEP4270 BIOENERGI TPK4120 IND SIKKERHET/PÅLIT ANNET VALG

6 V14

TTK4105 REGULERINGSTEKNIKK

TEP4125 TERMODYNAMIKK 2 A TKT4140 NUM BEREGN M/DATALAB A

TEP4130 VARME/MASSETRANSPORT

PUP 6 Dynamikk (2014) Miljøfag (2015)

5 H13

TMA4130 MATEMATIKK 4N

TIØ4258 TEKNOLOGILEDELSE

TEP4135 STRØMNINGSLÆRE 1

TPK4100 PRODUKSJONSLEDELSE

4 V13

TMA4245 STATISTIKK

TEP4100 FLUIDMEKANIKK

TMM4100 MATERIALTEKNIKK

TMM4121 PRODUKTUTVIKLING

3 H12

TMA4110 MATEMATIKK 3

TKT4122 MEKANIKK 2

TFY4104 FYSIKK

TEP4120 TERMODYNAMIKK 1

2 V13

TMA4105 MATEMATIKK 2

TKT4116 MEKANIKK 1

TMT4106 KJEMI

TPK4190 PRODUKSJONSTEKNOLOGI

1 H12

TMA4100 MATEMATIKK 1

TDT4105 INFORMASJONTEKN GK

EXPH0004 FILOSOFI VITEN TEORI (fra høst 2013)

TMM4115 PRODUKTMODELLERING

www.ntnu.no

New Double Degree Master Program in ”Sustainable Energy”

– one study, two degrees Study direction ”Sustainable Heat Pumping Processes and Systems”

• Research and Education Cooperation with Shanghai Jiao Tong University (SJTU) • Joint Research Center NTNU – SJTU within “Sustainable Energy, established in

2010 • Norwegian students

– follows their Master program at NTNU the 4th year (60 stp) – stay in Shanghai the 5th year ++ (90 stp) (3 semester - 18 months) – apply for the program in end of November 2013 (e-mails will come) – Require TEP4255 Heat Pumping Processes and Systems in 8th semester

• Get two degrees, one from NTNU and one from SJTU (two certificates) • Selected students from applications to enter the program (6 students in 2013,

4 from SJTU and 2 from NTNU) • The aim is 4-5 students from NTNU every year

• Two students have had their Master thesis in Shanghai spring semester (2012)

www.ntnu.no

www.ntnu.no 14

1. Combustion lab 2. Thermal energy Lab 3. Indoor environment lab 4. Refrigeration lab 5. Dewatering and food engineering lab 6. Multiphase flow lab 7. Wind tunnel lab 8. Water power lab

Laboratories

www.ntnu.no 15

Laboratory based training

www.ntnu.no 16

Laboratory based training

www.ntnu.no 17

…….. and communication

www.ntnu.no 18

Combustion Technology Lab Combustion Engineering lab Performance of fuels in boilers, furnaces and

combustors. Fundamental and practical combustion

studies Large scale testing of low-NOX gas/oil burners

Laser Diagnostic lab Oriented towards the understanding of

combustion at the local scale Interaction between turbulence, species

formation, acoustics, etc.

www.ntnu.no 19

Thermal Engineering Lab Pyrolysis, gasification and com-bustion of

biomass and waste Wood stove and fireplace testing facility Fluid bed combustion Gas cleaning Heat exchangers Fuel characterization Gas diagnostics

www.ntnu.no 20

Refrigeration Engineering Lab Natural working fluids in Heat Pumping Processes and

Systems, no GWP, no ODP

Heat pump/air conditioning of cars with CO2

CO2 heat pump for domestic hot water prod.

Power from waste heat

Commercial refrigeration

Domestic heating with Propane

Heat pump systems for dryers

CO2-fluid diagnostics rig

Compact heat exchangers

Mini-LNG

Mini LNG

Air condition in cars

HP tap water heaters HP dryers CO2

www.ntnu.no 21

Dewatering and Food Engineering Lab

Modern equipment for R&D related to dewatering and food processing Heat pump dryers (natural refrigerants, CO2)

Vacuum freeze dryers

Super freeze and super shilling of food

Thawing and tempering systems

HP Fluid bed dryers combined with Micro wave or Infrared heating, Ultrasound or Mechanical vibration

Spray dryer

Sorption measurements

DSC, TC/Cp measuremnts

www.ntnu.no 22

Energy and Indoor Environment Lab

Climate room Full scale rig for testing of intake screen Sun simulator for sun collector systems District heating system Rig for testing of heat recovery Rig for filter testing

www.ntnu.no 23

Multiphase Flow Lab

Multiphase flow in sub-sea wells and pipelines Oil-water-gas flow Unstable fluid flow Pigging Gas lift

www.ntnu.no 24

Water Power Lab

Design of turbines and pumps Turbines for tide currents System analyses Cavitations Pressure pulsation Verification of numerical models

www.ntnu.no 25

Aerodynamic Lab 4 low speed wind tunnels

Test rig for pipe flow Water tunnel for particle and two-phase flow studies

Supersonic wind tunnel (M3)

Almost unlimited source of probes for velocity measurements

Suit for ski-jumpers Wind turbines Off-shore platforms

www.ntnu.no 26

World Class Laboratories