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DTSTART;TZID=Europe/Amsterdam:20230323T103000
DTEND;TZID=Europe/Amsterdam:20230323T160000
DESCRIPTION:E-Refinery\n\nThe energy transition has far-stretching implicat
 ions for chemical companies. The Delft e-Refinery institute brings researc
 hers and industrial partners together in order to develop the required tec
 hnologies and human capital. Researchers in the e-Refinery initiative focu
 s their research on the electrochemical conversion of sustainable electric
 ity\, water and air into fuels and chemical building blocks\, from the mol
 ecular scale to large-scale system integration. Implementing e-Refinery wi
 ll serve three important challenges that the society is facing: CO2 neutra
 l fuels\, seasonal energy storage and a defossilized chemical industry.\n\
 nBattolyser\n\nAbstract: To meet the demand for more sustainable energy mo
 re and more wind turbines and solar panels are being built and put into pl
 ace. When the sun is shining bright and there is a strong wind these syste
 ms produce a lot of electricity and at night or moments with less wind the
 se systems produce less to no energy. The challenge of this type of electr
 icity generation is therefore that it is not constantly available and that
  the electricity has to be used immediately. It is desirable to find means
  to store this electricity to match usage throughout the year. The researc
 h is developing a unique system in which sustainable electricity can be st
 ored for both the short- (day and night) and long-term (weekly & seasonal)
  usage.\nThe novel system consists of a Ni/Fe battery which can store rene
 wable energy for the short term use\, integrated with an alkaline electrol
 yser. The unique feature of this battery system is that when the battery i
 s fully charged the integrated system starts splitting water molecules int
 o H2 and O2 via electrolysis. The H2 can be stored and used for electricit
 y production on the longer terms.\nAdvanced tests of the system even have 
 shown that the integrated system performs better overall than the individu
 al battery and electrolysis functions separately. The materials used\, its
  efficiency and robustness\, and the fact that two applications are combin
 ed render the battolyser competitive with other electricity storage applic
 ations.\nCoordinator: Fokko Mulder\, TU Delft\n\nhttps://www.battolysersys
 tems.com/technology\nhttps://www.koolenindustries.com/post/the-battolyser-
 a-battery-that-also-produces-hydrogen-challenges-conventional-hydrogen-pro
 duction\n\n@3ME Labs\n\nLarge-Scale Energy Storage\n\nSubstantial implemen
 tation of fluctuating energy sources like solar and wind energy requires f
 acilities for long-term\, large-scale storage of power. The Large Scale En
 ergy Storage section aims to contribute to solving this problem by targeti
 ng its research and educational activities in three directions that can en
 able energy storage. The first is the electrocatalytic conversion of water
 \, CO 2and N 2 with renewable electricity into bulk chemicals that prefere
 ntially fit in our existing energy infrastructure\; substituting natural g
 as and fossil fuel based liquid fuels with high energy\ndensities. In this
  line of research the coupling with CO 2 produced by biomass gasification 
 is foreseen. The second line of research concerns the further electrificat
 ion of the process industry\, by coupling hydrogen produced via electrolys
 is with conventional chemical processes such as the Sabatier reaction. The
  third line of research is directed towards energy storage via the couplin
 g of biomass/waste with renewable energy sources based on the creation of 
 a synthesis gas platform realized by smart integration of novel biomass/wa
 ste gasifiers.\n\nEnergy Technology\n\nThe Energy Technology Section is pa
 rt of the Process and Energy Department of the Mechanical\, Maritime and M
 aterials Engineering (3mE) faculty at the Delft University of Technology. 
 Research and education focus on the design and modeling of thermal energy 
 conversion systems\, with a focus on renewable energy. Our lively group co
 nsists of around 35 scientific staff members (professors\, research associ
 ates and PhD students) and\, at any time\, approximately 40 M.Sc. students
 . We also manage excellent research facilities. The group has a long histo
 ry that\ndates back to the 1960's.\n2.12.0.0\n2.12.0.0\n2.12.0.0\n2.12.0.0
 \n2.12.0.0\n2.12.0.0\n2.12.0.0\n\nAgenda: \nTime – Duration – What - W
 ho\n\n10:45 – 15min - Welcome and Coffee (John Nijenhuis + Prof Wiebren 
 de Jong)\n11:15 – 15min - Introduction (John Nijenhuis)\n11:30 – 30min
  - Lab Tour @3ME (Prof Wiebren de Jong\, part 1)\n12:00 – 30min - lunch\
 n12:30 – 30min - intro e-Refinery – during lunch – 30 min (John Nije
 nhuis)\n13:00 – 30 min - Battolyser (Prof Fokko Mulder)\n13:30 - 30 min 
 - Ammonia & Nitrate (Prof Fokko Mulder)\n14:00 – 15min - Break\n14:15 
 – 30 min - CO2URAGE / indirect (Prof Wiebren de Jong)\n14:45 – 30 min 
 - Electrocatalysis (Dr Ruud Kortlever)\n15:15 - 30 min - Lab tour @3ME (Dr
  Ruud Kortlever\, part 2)\n15:45 – 15 min - Closure + Drinks\n16:00 End\
 n\nPresenters:\n\nJohn Nijenhuis\nEnergy Snack: Senior Technology Manager 
 TU Delft and Executive Board Member of e-Refinery. We can facilitate build
 ing new sustainable industries by bringing together scientists\, engineers
 \, equipment developers\, manufacturing industries and regional and (inter
 )national authorities. That is what we do at e-Refinery\; we co-develop it
 !\n\nProf.dr.ir. W. de Jong\nRather than CO2 being a waste product\, it is
  much more interesting to think of it as a reusable\, and thereby sustaina
 ble\, raw material.\n\nProf. Fokko Mulder\nThe focus of his research is th
 e fundamentals as well as practical aspects of energy storage and conversi
 on materials for renewable energy applications.\n\nDr Ruud Kortlever (assi
 stent professor)\nHis group is interested in electrochemical conversions t
 hat are relevant for renewable fuel production and the electrification of 
 the chemical industry. With the help of mechanistical insights\, modelling
  and theory predictions his group contributes to solving contemporary ener
 gy problems by developing new electrocatalytic systems and devices.\n\nPle
 ase Note for Registration: Participation is free of charge. Because of tim
 e constrains\, we will need members to send registration email to LMAG sec
 retary c.g.v.t.klooster@tue.nl no later than 16-March-2023\n\nLocation: Pr
 ocess & Energy Laboratory\,Building #34\, Leeghwaterstraat 39\, 2628 CB De
 lft\n\nBy Train:\nFrom Delft Station\, 12 minutes total: Bus line 40\, 69\
 , or 174 to Delft Mekelpark. It is a 6 minute walk from there.\n\nParking:
 \nIn front of the building : Process & Energy Laboratory\, Leeghwaterstraa
 t 39\, 2628 CB Delft\nTraveling from the south: E19 (A16) to A20 to either
  A4 or A13\nFrom North: A4 to A13or A12 to A13\n\n2.12.0.0\n2.12.0.0\n2.12
 .0.0\n2.12.0.0\n2.12.0.0\n2.12.0.0\n2.12.0.0\n\nBldg: Building #34\, TU-De
 lft - Process & Energy Laboratory\, Leeghwaterstraat 39\, 2628 CB Delft\, 
 Zuid-Holland\, Netherlands\, 2628 CB
LOCATION:Bldg: Building #34\, TU-Delft - Process & Energy Laboratory\, Leeg
 hwaterstraat 39\, 2628 CB Delft\, Zuid-Holland\, Netherlands\, 2628 CB
ORGANIZER:riodice@freedom.nl 
SEQUENCE:4
SUMMARY:TU-Delft en route to systainable Energy
URL;VALUE=URI:https://events.vtools.ieee.org/m/351192
X-ALT-DESC:Description: <br /><p><span style="text-decoration: underline\; 
 font-size: 18pt\;"><strong>E-Refinery</strong></span></p>\n<p>The energy t
 ransition has far-stretching implications for chemical companies. The Delf
 t e-Refinery institute brings researchers and industrial partners together
  in order to develop the required technologies and human capital. Research
 ers in the e-Refinery initiative focus their research on the electrochemic
 al conversion of sustainable electricity\, water and air into fuels and ch
 emical building blocks\, from the molecular scale to large-scale system in
 tegration. Implementing e-Refinery will serve three important challenges t
 hat the society is facing: CO2 neutral fuels\, seasonal energy storage and
  a defossilized chemical industry.</p>\n<p><br /><span style="text-decorat
 ion: underline\;"><span style="font-size: 18pt\;"><strong>Battolyser</stro
 ng></span></span></p>\n<p><br /><em><strong>Abstract: </strong></em>To mee
 t the demand for more sustainable energy more and more wind turbines and s
 olar panels are being built and put into place. When the sun is shining br
 ight and there is a strong wind these systems produce a lot of electricity
  and at night or moments with less wind these systems produce less to no e
 nergy. The challenge of this type of electricity generation is therefore t
 hat it is not constantly available and that the electricity has to be used
  immediately. It is desirable to find means to store this electricity to m
 atch usage throughout the year. The research is developing a unique system
  in which sustainable electricity can be stored for both the short- (day a
 nd night) and long-term (weekly &amp\; seasonal) usage.<br />The novel sys
 tem consists of a Ni/Fe battery which can store renewable energy for the s
 hort term use\, integrated with an alkaline electrolyser. The unique featu
 re of this battery system is that when the battery is fully charged the in
 tegrated system starts splitting water molecules into H2 and O2 via electr
 olysis. The H2 can be stored and used for electricity production on the lo
 nger terms.<br />Advanced tests of the system even have shown that the int
 egrated system performs better overall than the individual battery and ele
 ctrolysis functions separately. The materials used\, its efficiency and ro
 bustness\, and the fact that two applications are combined render the batt
 olyser competitive with other electricity storage applications.<br /><em><
 strong>Coordinator:</strong></em> Fokko Mulder\, TU Delft</p>\n<p>https://
 www.battolysersystems.com/technology<br />https://www.koolenindustries.com
 /post/the-battolyser-a-battery-that-also-produces-hydrogen-challenges-conv
 entional-hydrogen-production</p>\n<p><span style="text-decoration: underli
 ne\; font-size: 18pt\;"><strong>@3ME Labs</strong></span></p>\n<p><span st
 yle="text-decoration: underline\;"><strong>Large-Scale Energy Storage</str
 ong></span></p>\n<p>Substantial implementation of fluctuating energy sourc
 es like solar and wind energy requires facilities for long-term\, large-sc
 ale storage of power. The Large Scale Energy Storage section aims to contr
 ibute to solving this problem by targeting its research and educational ac
 tivities in three directions that can enable energy storage. The first is 
 the electrocatalytic conversion of water\, CO 2and N 2 with renewable elec
 tricity into bulk chemicals that preferentially fit in our existing energy
  infrastructure\; substituting natural gas and fossil fuel based liquid fu
 els with high energy<br />densities. In this line of research the coupling
  with CO 2 produced by biomass gasification is foreseen. The second line o
 f research concerns the further electrification of the process industry\, 
 by coupling hydrogen produced via electrolysis with conventional chemical 
 processes such as the Sabatier reaction. The third line of research is dir
 ected towards energy storage via the coupling of biomass/waste with renewa
 ble energy sources based on the creation of a synthesis gas platform reali
 zed by smart integration of novel biomass/waste gasifiers.</p>\n<p><br /><
 span style="text-decoration: underline\;"><strong>Energy Technology</stron
 g></span></p>\n<p><br />The Energy Technology Section is part of the Proce
 ss and Energy Department of the Mechanical\, Maritime and Materials Engine
 ering (3mE) faculty at the Delft University of Technology. Research and ed
 ucation focus on the design and modeling of thermal energy conversion syst
 ems\, with a focus on renewable energy. Our lively group consists of aroun
 d 35 scientific staff members (professors\, research associates and PhD st
 udents) and\, at any time\, approximately 40 M.Sc. students. We also manag
 e excellent research facilities. The group has a long history that<br />da
 tes back to the 1960's.</p>\n<div id="sconnect-is-installed" style="displa
 y: none\;">2.12.0.0</div>\n<div id="sconnect-is-installed" style="display:
  none\;">2.12.0.0</div>\n<div id="sconnect-is-installed" style="display: n
 one\;">2.12.0.0</div>\n<div id="sconnect-is-installed" style="display: non
 e\;">2.12.0.0</div>\n<div id="sconnect-is-installed" style="display: none\
 ;">2.12.0.0</div>\n<div id="sconnect-is-installed" style="display: none\;"
 >2.12.0.0</div>\n<div id="sconnect-is-installed" style="display: none\;">2
 .12.0.0</div><br /><br />Agenda: <br /><p>Time &ndash\; Duration &ndash\; 
 What - Who</p>\n<p><br />10:45 &ndash\; 15min - Welcome and Coffee (John N
 ijenhuis + Prof Wiebren de Jong)<br />11:15 &ndash\; 15min - Introduction 
 (John Nijenhuis)<br />11:30 &ndash\; 30min - Lab Tour @3ME (Prof Wiebren d
 e Jong\, part 1)<br />12:00 &ndash\; 30min - lunch<br />12:30 &ndash\; 30m
 in - intro e-Refinery &ndash\; during lunch &ndash\; 30 min (John Nijenhui
 s)<br />13:00 &ndash\; 30 min - Battolyser (Prof Fokko Mulder)<br />13:30 
 - 30 min - Ammonia &amp\; Nitrate (Prof Fokko Mulder)<br />14:00 &ndash\; 
 15min - Break<br />14:15 &ndash\; 30 min - CO2URAGE / indirect (Prof Wiebr
 en de Jong)<br />14:45 &ndash\; 30 min - Electrocatalysis (Dr Ruud Kortlev
 er)<br />15:15 - 30 min - Lab tour @3ME (Dr Ruud Kortlever\, part 2)<br />
 15:45 &ndash\; 15 min - Closure + Drinks<br />16:00 End</p>\n<p><strong>Pr
 esenters:</strong></p>\n<p><br /><strong><em>John Nijenhuis</em></strong><
 br />Energy Snack: Senior Technology Manager TU Delft and Executive Board 
 Member of e-Refinery. We can facilitate building new sustainable industrie
 s by bringing together scientists\, engineers\, equipment developers\, man
 ufacturing industries and regional and (inter)national authorities. That i
 s what we do at e-Refinery\; we co-develop it!</p>\n<p><br /><em><strong>P
 rof.dr.ir. W. de Jong</strong></em><br />Rather than CO2 being a waste pro
 duct\, it is much more interesting to think of it as a reusable\, and ther
 eby sustainable\, raw material.</p>\n<p><br /><em><strong>Prof. Fokko Muld
 er</strong></em><br />The focus of his research is the fundamentals as wel
 l as practical aspects of energy storage and conversion materials for rene
 wable energy applications.</p>\n<p><br /><em><strong>Dr Ruud Kortlever (as
 sistent professor)</strong></em><br />His group is interested in electroch
 emical conversions that are relevant for renewable fuel production and the
  electrification of the chemical industry. With the help of mechanistical 
 insights\, modelling and theory predictions his group contributes to solvi
 ng contemporary energy problems by developing new electrocatalytic systems
  and devices.</p>\n<p><strong>Please Note for Registration</strong>: Parti
 cipation is free of charge. Because of time constrains\, we will need memb
 ers to send registration email to LMAG secretary c.g.v.t.klooster@tue.nl <
 span style="color: #e03e2d\;">no later than 16-March-2023</span></p>\n<p><
 strong>Location</strong>: Process &amp\; Energy Laboratory\,Building #34\,
  Leeghwaterstraat 39\, 2628 CB Delft</p>\n<p><strong>By Train:</strong><br
  />From Delft Station\, 12 minutes total: Bus line 40\, 69\, or 174 to Del
 ft Mekelpark. It is a 6 minute walk from there.</p>\n<p><strong>Parking:</
 strong><br />In front of the building : Process &amp\; Energy Laboratory\,
  Leeghwaterstraat 39\, 2628 CB Delft<br />Traveling from the south: E19 (A
 16) to A20 to either A4 or A13<br />From North: A4 to A13or A12 to A13</p>
 \n<p>&nbsp\;</p>\n<p>&nbsp\;</p>\n<div id="sconnect-is-installed" style="d
 isplay: none\;">2.12.0.0</div>\n<div id="sconnect-is-installed" style="dis
 play: none\;">2.12.0.0</div>\n<div id="sconnect-is-installed" style="displ
 ay: none\;">2.12.0.0</div>\n<div id="sconnect-is-installed" style="display
 : none\;">2.12.0.0</div>\n<div id="sconnect-is-installed" style="display: 
 none\;">2.12.0.0</div>\n<div id="sconnect-is-installed" style="display: no
 ne\;">2.12.0.0</div>\n<div id="sconnect-is-installed" style="display: none
 \;">2.12.0.0</div>
END:VEVENT
END:VCALENDAR