HYPERGRYD. This p ojec has ecei ed unding om he Eu opean Union’s Ho izon 2020 esea ch and
inno a ion p og amme unde g an ag eemen No 101036656
WP5 – TRL5 demons a ion in li ing labs and
i ual labs in LEC
Task 5.2 - Digi al Twins o componen s and
demons a o s
D5.3 - Digi al Twins o componen s and
Li ing Labs de elopmen , inal e sion
Re . A es(2025)2409169 - 25/03/2025
D5.3 - Digi al Twins o componen s and Li ing Labs de elopmen , inal e sion
2
DISCLAIMER
The opinion s a ed in his epo e lec s he opinion o he au ho s and no he opinion o he
Eu opean Commission.
All in ellec ual p ope y igh s a e owned by HYPERGRYD conso ium membe s and a e p o ec ed by
he applicable laws. Rep oduc ion is no au ho ised wi hou p io w i en ag eemen .
The comme cial use o any in o ma ion con ained in his documen may equi e a license om he
owne o ha in o ma ion.
ACKNOWLEDGEMENT
This p ojec has ecei ed unding om he Eu opean Union’s Ho izon 2020 esea ch and inno a ion
p og amme unde g an ag eemen Nº 101036656.
D5.3 - Digi al Twins o componen s and Li ing Labs de elopmen , inal e sion
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P ojec
P ojec Ac onym
HYPERGRYD
P ojec Ti le
Hyb id coupled ne wo ks o he mal-elec ic in eg a ed Sma Ene gy Dis ic s
G an Ag eemen
numbe
101036656
Call iden i ie
H2020-LC-GD-2020
Topic iden i ie
LC-GD-2-1-2020
Inno a i e land-
based and o sho e enewable ene gy echnologies and hei
in eg a ion in o he ene gy sys em
Funding Scheme
Resea ch and Inno a ion Ac ion
P ojec du a ion
42 mon hs (F om 1 Oc obe 2021)
Coo dina o
ARCbcn
Websi e
h p://HYPERGRYD.eu
Deli e able
Deli e able No.
D5.3
Deli e able i le
Digi al Twins o componen s and Li ing Labs de elopmen , inal e sion.
Desc ip ion
This deli e able highligh s he success ul in eg a ion o he BIM-GIS oolki wi h he
Gussing Ene gy Technologies Gmbh (GET) & Encoo d GmbH (ENCO) ools in o he
HYPERGRYD pla o m o DHC ne wo k piping and con igu a ion planning,
demons a ing i s applica ion in bo h SONNE and ENVI li ing labs. The BIM-GIS oolki
p o ides essen ial model inpu s o he GET and ENCO ools, enabling s eamlined
design and analysis o ene gy ne wo ks.
WP No.
WP5
Rela ed ask
Task 5.2 - Digi al Twins o componen s and demons a o s
Lead Bene icia y
9 - IDP
Au ho (s)
Jo ge Leao, Luis Ibañez Ad ian, Genis Ca illo, Mikel Bo as (IDP).
Con ibu o (s)
-
Type
OTHER
Dissemina ion
PU Public
Language
English – GB
Due
31/03/2025
Submission da e
31/03/2025
D5.3 - Digi al Twins o componen s and Li ing Labs de elopmen , inal e sion
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Table o Con en s
1 Execu i e Summa y ............................................................................................... 7
2 In oduc ion .......................................................................................................... 8
2.1 Scope ......................................................................................................................... 8
2.2 Audience ................................................................................................................... 8
2.3 De ini ions / Glossa y................................................................................................ 8
2.4 Abb e ia ions ............................................................................................................ 8
2.5 Con ibu ions o pa ne s ......................................................................................... 9
2.6 Baseline ..................................................................................................................... 9
2.7 Rela ion o o he ac i i ies ....................................................................................... 9
2.8 S uc u e ................................................................................................................... 9
3 LiLs BIM-GIS models .............................................................................................. 10
3.1 SONNENPLATZ LiL ................................................................................................... 17
3.2 ENVIPARK LIL ........................................................................................................... 28
4 Conclusions .......................................................................................................... 39
5 Re e ences ........................................................................................................... 40
D5.3 - Digi al Twins o componen s and Li ing Labs de elopmen , inal e sion
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Lis o Figu es
Figu e 1. Compa ison o an example ne wo k modelled by GET (le ) and by ENCO ( igh ) .............. 10
Figu e 2. Encoo d Tool: c ea ing an Encoo d ne wo k om a GET ne wo k. ..................................... 11
Figu e 3. Edi ing he node da a in he ENCO ne wo k model. ............................................................ 11
Figu e 4. C ea ing an ex e nal om a node in he ENCO ne wo k model on a he mal ne wo k. ..... 12
Figu e 5. Edi ing an ex e nal om an ENCO ne wo k model on a he mal ne wo k. ......................... 13
Figu e 6. C ea ing a new scena io o an ENCO ne wo k model. ........................................................ 14
Figu e 7. Consul ing he ENCO simula ion esul s o a he mal ne wo k. .......................................... 15
Figu e 8. Consul ing he ENCO simula ion esul s o a node o a he mal ne wo k. .......................... 16
Figu e 9. SONNE pilo in o ma ion. ..................................................................................................... 17
Figu e 10. SONNE in he wo ld map. ................................................................................................... 18
Figu e 11. SONNE BIM-GIS model. ...................................................................................................... 18
Figu e 12. SONNE buildings and nodes. .............................................................................................. 19
Figu e 13. SONNE hea ing g id desc ip ion. ........................................................................................ 19
Figu e 14. SONNE building de ails example. ....................................................................................... 20
Figu e 15. SONNE supplie de ails example. ....................................................................................... 20
Figu e 16. SONNE node de ails example. ............................................................................................ 21
Figu e 18. SONNE piping segmen de ails example. ........................................................................... 21
Figu e 19. SONNE downloadable GeoJSON ile opened in QGIS. ....................................................... 22
Figu e 20. SONNE lis o consume s in he hea ing g id. .................................................................... 23
Figu e 21. Simula ion da a o he he mal load o Cus ome 1 in he hea ing g id, in he SONNE LiL.
............................................................................................................................................................. 24
Figu e 22. Simula ion esul s in he hea ing g id. ............................................................................... 24
Figu e 23. Simula ion esul s o he node N1 in he hea ing g id. ...................................................... 25
Figu e 24. Simula ion esul s o he b anch TPI1 in he hea ing g id. ................................................. 26
Figu e 25. Simula ion esul s o he ex e nal HDEM1 in he hea ing g id. ......................................... 27
Figu e 26. Simula ion esul s o he ex e nal HSUP19 in he hea ing g id, co esponding o he only
supplie o he mal ene gy in he ne wo k. ........................................................................................ 27
Figu e 27. ENVI LiL in o ma ion. .......................................................................................................... 28
Figu e 28. ENVIPARK LiL loca ion in he wo ld map. ........................................................................... 29
Figu e 29. ENVIPARK LiL. ..................................................................................................................... 29
Figu e 30. ENVIPARK elec ic ne wo k piping de ini ion. .................................................................... 30
Figu e 31. ENVIPARK he mal ne wo k de ini ion. .............................................................................. 30
Figu e 32. ENVI building de ail in o ma ion example. ........................................................................ 31
Figu e 33. ENVI supplie plan in o ma ion example. ......................................................................... 31
Figu e 34. ENVI downloadable GeoJSON ile opened in QGIS. ........................................................... 32
Figu e 35. Simula ion esul s in he he mal g id. ............................................................................... 33
Figu e 36. Simula ion esul s o he node TNO_32 in he he mal g id. ............................................. 33
Figu e 37. Simula ion esul s o he b anch TPI.TPI_31 in he he mal g id. ...................................... 34
Figu e 38. Simula ion esul s o he ex e nal HDEM1 in he he mal g id. ......................................... 35
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Figu e 39. Simula ion esul s o he ex e nal HSUP24 in he he mal g id, co esponding o he only
supplie o he mal ene gy in he ne wo k. ........................................................................................ 35
Figu e 40. Simula ion esul s in he elec ical g id. ............................................................................. 36
Figu e 41. Simula ion esul s o he node ENO_0 in he elec ical g id. ............................................. 36
Figu e 42. Simula ion esul s o he b anch LI.LI_0 in he elec ical g id. ........................................... 37
Figu e 43. Simula ion esul s o he ex e nal EDEM1 in he elec ical g id. ....................................... 38
Figu e 44. Simula ion esul s o he ex e nal PV12 in he elec ical g id, co esponding o he sola
gene a o ha p o ides ene gy o he elec ical g id. ........................................................................ 38
Figu e 45. Simula ion esul s o he ex e nal XGEN11 in he elec ical g id, co esponding o ano he
gene a o ha p o ides ene gy o he elec ical g id. ........................................................................ 39
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1 Execu i e Summa y
The goal o HYPERGRYD p ojec is he de elopmen o a se o eplicable and scalable cos -e ec i e
echnical solu ions o allow he in eg a ion o Renewable Ene gy Sou ces (RES) wi h di e en
dispa chabili y and in insic a iabili y inside The mal and Elec ical G ids. The p ojec includes he
de elopmen o inno a i e key componen s, in pa allel wi h inno a i e and in eg a ed ICT se ices
o med by a scalable sui e o ools o he p ope handling o he inc eased complexi y o he sys ems
om building o Local Ene gy Communi y (LEC) le els and beyond, and accele a e he sus ainable
ans o ma ion, planning and mode niza ion o Dis ic Hea ing and Cooling (DHC) owa ds 4 h and 5 h
gene a ion.
This epo ocuses on he success ul implemen a ion o a BIM-GIS oolki wi hin he HYPERGRYD
pla o m. This oolki is o planning he piping and layou o dis ic hea ing and cooling ne wo ks.
I has been used in wo eal-wo ld se ings: he Sonnenpla z G osschonau GMBH (SONNE) and Pa co
Scien i ico Tecnologico Pe Lambien e En i onmen Pa k To ino SPA (ENVI) li ing labs. The
expe iences in SONNE and ENVI li ing labs alida e he oolki ’s e ec i eness in eal-wo ld
scena ios.
In bo h SONNE and ENVI li ing labs, he BIM-GIS oolki de eloped by IDP Ingenie ia Y A qui ec u a
Ibe ia SL (IDP) wo ks in conjunc ion wi h he ools de eloped by Gussing Ene gy Technologies Gmbh
(GET) and Encoo d GmbH (ENCO). The BIM-GIS oolki p o ides he models which a e essen ial inpu s
o he GET and ENCO ools, enabling hem o pe o m hei speci ic calcula ions and simula ions. This
collabo a ion demons a es a s eamlined wo k low o designing and analysing ene gy ne wo ks.
• ENCO -> SAIn (Scena io Analysis In e ace o Ene gy Sys ems): Modelling and simula ion
so wa e designed o simula e he ope a ion o an in eg a ed ene gy sys em ha couples
hea ing and elec ici y ne wo ks.
• GET -> Exe goeconomic op imiza ion ool o 4 h and 5 h gene a ion o DHC: Exe gy-based
analysis and assessmen o ene gy-con e sion sys ems o dis ic hea ing and cooling.
This epo is p ima ily aimed a p o essionals such as dis ic hea ing ope a o s, ene gy supplie s,
and policymake s. I p o ides an o e iew o how he BIM-GIS oolki can suppo decision-making
and op imise he design o u u e dis ic hea ing ne wo ks.
On behal o Au ho s
Jo ge Leão (IDP)
Genis Ca illo (IDP)
D5.3 - Digi al Twins o componen s and Li ing Labs de elopmen , inal e sion
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2 In oduc ion
2.1 Scope
This deli e able p esen s an in-dep h o e iew o IDP's implemen a ion o he BIM-GIS oolki wi hin
he HYPERGRYD pla o m, speci ically ailo ed o DHC ne wo k piping and con igu a ion planning as
pa o Wo k Package 4. As a esul o T5.2 – “Digi al Twins o componen s and demons a o s,” i
de ails he implemen a ion o he Digi al Twin Pla o m as a se ice de eloped wi hin WP4 in he
HYPERGRYD Li ing Lab, based on he BIM-GIS pa ame ic model and planning oolbox. The BIM-GIS
oolki p o ides essen ial model inpu s o he GET and ENCO ools, enabling hem o pe o m hei
speci ic calcula ions and simula ions.
2.2 Audience
This epo a ge s he p o essional pa ies ha ing in e es on he applica ion o a BIM-GIS oolki o
DHC ne wo k piping and con igu a ion planning p o iding a decision suppo and gene a e op imized
ne wo k layou s and dimensioning pa ame e s o he planning o u u e-gene a ion dis ic hea ing
ne wo ks. Since he ex demands baseline unde s anding o he con ex , he e may be limi a ions
in unde s anding o ce ain in e es g oups such as gene al public and end-use s.
Ta ge g oups o he deli e able include:
- ESCOs (Ene gy Se ice Companies)
- DSOs (Dis ibu ion Sys em Ope a o s)
- DH (Dis ic Hea ing) ope a o s
- Ene gy p oduce s
- Municipali ies and policy make s
- Enginee ing p o essionals
- Ene gy communi y manage s, end-use s and he gene al public
2.3 De ini ions / Glossa y
BIM – Building In o ma ion Modelling, i is he i ual ep esen a ion o he physical and unc ional
cha ac e is ics o a acili y (Tang e al., 2017).
GIS – Geog aphic In o ma ion Sys em, i is a compu e sys em o cap u ing, s o ing, checking, and
displaying da a ela ed o posi ions on Ea h’s su ace (GIS (Geog aphic In o ma ion Sys em), n.d.).
2.4 Abb e ia ions
BIM: Building In o ma ion Modelling
GIS: Geog aphic In o ma ion Sys em
D5.3 - Digi al Twins o componen s and Li ing Labs de elopmen , inal e sion
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DHC: Dis ic Hea ing and Cooling
DSO: Dis ibu ion Sys em Ope a o
ESCO: Ene gy Se ice Company
ICT: In o ma ion and Communica ions Technology
PaaS: Pla o m as a Se ice
SaaS: So wa e as a Se ice
2.5 Con ibu ions o pa ne s
The IDP eam exclusi ely au ho ed his deli e able.
2.6 Baseline
This deli e able ocuses on IDP's implemen a ion o he BIM-GIS oolki wi hin he HYPERGRYD
pla o m o DHC ne wo k piping and con igu a ion planning. A key aspec is demons a ing he
oolki 's e ec i e communica ion and da a exchange wi h he GET and ENCO ools in he SONNE and
ENVIPARK li ing labs. This implemen a ion is buil upon he wo k de ailed in D4.5 – “Fully ope a ional
HYPERGRYD Pla o m and API wi h in eg a ed ools and se ices,” and is a esul o Task T4.5 –
“Wo k low managemen and end-use API de elopmen ”. T4.5 was speci ically conce ned wi h
in eg a ing he di e en ools and se ices (including GET, ENCO) wi hin he HYPERGRYD pla o m,
p o iding he necessa y amewo k o he BIM-GIS oolki o ope a e in conjunc ion wi h hem.
2.7 Rela ion o o he ac i i ies
Explain ela ions o o he ac i i ies in he HYPERGRYD p ojec :
• Inpu s: Bo h SONNE and ENVI pa ne s u ilized he BIM-GIS oolki use manual p esen ed in
D4.3 as hei p ima y guide o modelling hei espec i e buildings and he mal-elec ic piping
ne wo ks wi hin he HYPERGRYD pla o m.
• Ou pu s: The BIM-GIS oolki acili a es he c ea ion o models ha se e as essen ial inpu s
o he GET and ENCO ools, enabling hei speci ic calcula ions and simula ions. This
showcases he p ac ical implemen a ion o he wo k low managemen and ool in eg a ion
goals o Task T4.5. The success ul in e ac ion o hese ools also con ibu es o he ealiza ion
o he HYPERGRYD Pla o m and API as desc ibed in D4.5.
2.8 S uc u e
• Sec ion 1: Execu i e Summa y.
• Sec ion 2: LiLs BIM/GIS models.
• Sec ion 3: Conclusions.
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Figu e 8. Consul ing he ENCO simula ion esul s o a node o a he mal ne wo k.
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3.1 SONNENPLATZ LiL
The Sonnenpla z LiL unde wen modelling using IDP's BIM-GIS oolki designed o DHC ne wo k
piping and con igu a ion planning wi hin he HYPERGRYD p ojec . Le e aging his ad anced ICT ool,
pa ne s om Sonnenpla z e ec i ely modelled a ious buildings and pipeline ne wo ks associa ed
wi h he HYPERGRYD ini ia i e.
Figu e 9. SONNE pilo in o ma ion.
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Figu e 10. SONNE in he wo ld map.
The subsequen images p esen he comp ehensi e BIM-GIS model o he Sonnenpla z LiL,
comp ising 24 consume buildings, 1 supplie building, and hei he mal piping ne wo k.
Figu e 11. SONNE BIM-GIS model.
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Figu e 12. SONNE buildings and nodes.
The ollowing images depic he implemen ed de ini ion o he modelled he mal ne wo k piping
wi hin he amewo k o he modelling p ocess.
Figu e 13. SONNE hea ing g id desc ip ion.
The ollowing images illus a e examples o he s a ic in o ma ion s o ed om a ious consume and
supplie buildings wi hin he Sonnenpla z LiL. To sa egua d use p i acy, de ails such as he add ess
and cadas al code o he buildings ha e been obscu ed.
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Figu e 14. SONNE building de ails example.
Figu e 15. SONNE supplie de ails example.
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The subsequen images highligh examples o he s a ic in o ma ion s o ed om a ious nodes and
he mal piping segmen s wi hin he ne wo k, as p o ided by he BIM-GIS modelling oolki . This
c ucial in o ma ion is essen ial o bo h GET and ENCO o execu e hei espec i e calcula ions and
simula ions e ec i ely.
Figu e 16. SONNE node de ails example.
Figu e 17. SONNE piping segmen de ails example.
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The eadily downloadable GeoJSON ile om he HYPERGRYD PaaS/SaaS pla o m acili a es he
access o BIM-GIS modelled in o ma ion h ough a GIS so wa e such as QGIS, which is ee and open-
sou ce.
Figu e 18. SONNE downloadable GeoJSON ile opened in QGIS.
The Sonnenpla z LiL includes simula ion da a o he he mal g id ela ed o he consume s o he
ne wo k and o he di e en pipes ha cons i u e his ne wo k. This da a consis s on alues o 10
di e en a iables ( he mal load, low, low empe a u e, e u n empe a u e, pipe p essu e loss,
speci ic empe a u e loss, sum o p essu e loss, low a ge empe a u e a consume , exe gy
di e ence and hea losses) om he 1s o July o 2023 o he 1s o July o 2024, o he summe and
win e seasons, ep esen ed in a line cha oge he wi h wo la lines ha indica e he mean alue
o he a iable o each o he 2 seasons.
The simula ion da a, p o ided by GET, can be accessed om he “Simula ion” module in he GET ool.
On his module you i s need o selec he ype o da a you wan o consul on he “Simula ion
Sou ce” selec lis . This will load a lis wi h each o he consume s (i you a e consul ing he cos ume
consump ion da a) o a lis wi h each pipe (i you a e consul ing he pipes in o ma ion) on he hea ing
g id.
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Figu e 19. SONNE lis o consume s in he hea ing g id.
On hese lis s, you can check he simula ion da a o a consume o pipe by clicking on he g een
in o ma ion bu on, which will open a popup window displaying a able con aining in o ma ion abou
he consume o pipe wi h he alues o some a iables, and a selec lis . In he selec lis you can
selec be ween each o he a iables men ioned be o e o display i s alues oge he wi h i s mean
D5.3 - Digi al Twins o componen s and Li ing Labs de elopmen , inal e sion
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alue in a line cha . You can na iga e ho izon ally wi h he mouse cu so o e he cha o consul
he alues o he a iable o each season a a ce ain da e ime, hose alues will be displayed in a
popup o e he cha . The mean alue o he a iable du ing he whole in e al o ime ( om he 1s
o July o 2023 o he 1s o July o 2024) is displayed on he line cha legend. You can also zoom in
and ou in he line cha by using he mouse wheel. To close he popup window displaying he
simula ion in o ma ion simply click on he ed “Close” bu on.
Figu e 20. Simula ion da a o he he mal load o Cus ome 1 in he hea ing g id, in he SONNE LiL.
Some he mal simula ions ha e been execu ed o he hea ing g id in he Sonnenpla z LiL, success ully
ob aining use ul esul s.
Figu e 21. Simula ion esul s in he hea ing g id.
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Figu e 22. Simula ion esul s o he node N1 in he hea ing g id.
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The eadily downloadable GeoJSON ile om he HYPERGRYD PaaS/SaaS pla o m acili a es he
access o BIM-GIS modelled in o ma ion h ough a GIS so wa e such as QGIS, which is ee and open-
sou ce.
Figu e 33. ENVI downloadable GeoJSON ile opened in QGIS.
Some he mal simula ions ha e been execu ed o he he mal g id in he En ipa k LiL, success ully
ob aining use ul esul s.
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Figu e 34. Simula ion esul s in he he mal g id.
Figu e 35. Simula ion esul s o he node TNO_32 in he he mal g id.
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Figu e 36. Simula ion esul s o he b anch TPI.TPI_31 in he he mal g id.
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Figu e 37. Simula ion esul s o he ex e nal HDEM1 in he he mal g id.
Figu e 38. Simula ion esul s o he ex e nal HSUP24 in he he mal g id, co esponding o he only supplie o he mal ene gy
in he ne wo k.
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En elec ic simula ion has been execu ed o he elec ical g id in he En ipa k LiL, success ully
ob aining use ul esul s.
Figu e 39. Simula ion esul s in he elec ical g id.
Figu e 40. Simula ion esul s o he node ENO_0 in he elec ical g id.
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Figu e 41. Simula ion esul s o he b anch LI.LI_0 in he elec ical g id.
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Figu e 42. Simula ion esul s o he ex e nal EDEM1 in he elec ical g id.
Figu e 43. Simula ion esul s o he ex e nal PV12 in he elec ical g id, co esponding o he sola gene a o ha p o ides
ene gy o he elec ical g id.
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Figu e 44. Simula ion esul s o he ex e nal XGEN11 in he elec ical g id, co esponding o ano he gene a o ha p o ides
ene gy o he elec ical g id.
4 Conclusions
The success ul modelling and de elopmen e o s ca ied ou o he Sonnenpla z and En ipa k li ing
labs wi hin he HYPERGRYD p ojec highligh he e ec i eness o IDP's BIM-GIS oolki o DHC
ne wo k piping and con igu a ion planning. U ilizing his ad anced ICT ool, pa ne s om bo h
Sonnenpla z and En ipa k me iculously c a ed models o a ious buildings and pipeline ne wo ks,
signi ican ly ad ancing he p ojec 's objec i es.
These models a e no jus a s a ic ep esen a ion; hey a e designed o be unc ional and
in e ope able. They play a c ucial ole in he implemen a ion o he GET and ENCO ools, acili a ing
hei espec i e ma hema ical calcula ions and simula ions wi hin he Sonnenpla z and En ipa k li ing
labs. The BIM-GIS oolki p o ides he models which a e essen ial inpu s o he GET and ENCO ools,
enabling hem o pe o m hei speci ic calcula ions and simula ions. This demons a es e ec i e
communica ion be ween he ools and a s eamlined wo k low o ene gy ne wo k design and
analysis. The ou comes o hese implemen a ions will be documen ed and epo ed in deli e ables
D5.5 – “Demons a ion and Valida ion o LECs coupled ne wo k models” and D5.6 – “Demons a ion
and Valida ion o HYPERGRYD ICT ools”.
D5.3 - Digi al Twins o componen s and Li ing Labs de elopmen , inal e sion
40
5 Re e ences
Geog aphic In o ma ion Sys em (GIS). (n.d.). Na ional Geog aphic Educa ion.
h ps://educa ion.na ionalgeog aphic.o g/ esou ce/geog aphic-in o ma ion-sys em-gis/
Tang, L., Chen, C., Tang, S., Wu, Z., & T o imo a, P. (2017). Building in o ma ion modeling and building
pe o mance op imiza ion. In Else ie eBooks (pp. 311–320). h ps://doi.o g/10.1016/b978-
0-12-409548-9.10200-3
