[{"data":1,"prerenderedAt":135},["ShallowReactive",2],{"customer-story:\u002Fen\u002Fcustomer-stories\u002Fgeoimpact":3},{"id":4,"title":5,"body":6,"description":75,"extension":82,"footerCta":83,"hero":90,"locale":98,"meta":99,"navigation":100,"path":101,"seo":102,"sidebar":106,"slug":122,"stats":123,"stem":133,"__hash__":134},"customer_stories\u002Fen\u002Fcustomer-stories\u002Fgeoimpact.md","Geoimpact",{"type":7,"value":8,"toc":74},"minimark",[9,14,18,22,25,41,44,48,51,54,58,61,70],[10,11,13],"h2",{"id":12},"company-details","Company details",[15,16,17],"p",{},"Geoimpact AG is a Swiss territorial energy planning specialist providing\ncomprehensive solutions from analysis through implementation across Bern,\nZürich, and Basel regions.",[10,19,21],{"id":20},"the-challenge","The challenge",[15,23,24],{},"The commune of Haute-Sorne faced the complex challenge of bringing\nsustainability to its heating system across a diverse building portfolio.\nWith 103 GWh of annual energy demand distributed across nearly one million\nsquare meters of heated space, the municipality needed a data-driven\napproach to:",[26,27,28,32,35,38],"ul",{},[29,30,31],"li",{},"Identify optimal district heating network locations across diverse\nbuilding typologies",[29,33,34],{},"Quantify potential CO₂ emission reductions",[29,36,37],{},"Evaluate economic feasibility of different heating technologies and\nscenarios",[29,39,40],{},"Prioritize investments for maximum CO₂ emissions reduction impact",[15,42,43],{},"Traditional heating solution planning lacked the granular analysis needed\nto optimize network topology and technology selection at territorial scale.",[10,45,47],{"id":46},"the-solution","The solution",[15,49,50],{},"Geoimpact deployed TESSA clustering technology to conduct comprehensive\ngeospatial energy analysis of Haute-Sorne's building stock, prioritizing\nthe sustainable heating solution to buildings with the highest emissions.",[15,52,53],{},"The methodology combined advanced clustering analysis, archetype-based\ndemand modelling, and scenario comparison to identify five optimal network\nzones.",[10,55,57],{"id":56},"the-results","The results",[15,59,60],{},"The solution demonstrated that targeted district heating networks can\ndeliver emission reductions of up to 91% while connecting 184 buildings\nacross the commune — a result that conventional planning approaches were\nunable to surface.",[62,63,67],"quote",{"attribution":64,"logo":65,"role":66},"Geoimpact AG","\u002Fimg\u002Flogos\u002FGEOIMPACT.png","Energy planning specialist",[15,68,69],{},"TESSA gave us the clustering granularity we needed to compare scenarios at municipal scale without losing per-building precision.",[71,72],"footer-cta-banner",{"heading":73},"Deploy sustainable building's heating solutions like Geoimpact",{"title":75,"searchDepth":76,"depth":76,"links":77},"",2,[78,79,80,81],{"id":12,"depth":76,"text":13},{"id":20,"depth":76,"text":21},{"id":46,"depth":76,"text":47},{"id":56,"depth":76,"text":57},"md",{"heading":84,"primary":85,"secondary":88},"Ready to plan your next decarbonisation project?",{"label":86,"to":87},"Get a demo","\u002Fproduct-demo",{"label":89,"to":87},"Contact us",{"heading":91,"subhead":92,"image":93},"Haute-Sorne: Building Sustainable Shallow Geothermal Heating Solutions to transform a Municipality","A comprehensive energy planning initiative to transform the commune of Haute-Sorne's heating infrastructure, achieving a 91% reduction in CO₂ emissions through strategic deployment of sustainable building heating solutions and advanced geospatial analysis.",{"src":94,"alt":95,"width":96,"height":97},"\u002Fimg\u002Fcustomer-stories\u002Fgeoimpact-detail\u002Fmethodology.png","Geoimpact methodology visualisation",602,515,"en",{},true,"\u002Fen\u002Fcustomer-stories\u002Fgeoimpact",{"title":103,"description":104,"ogImage":105},"Building Sustainable Heating Solution with Geoimpact - Planeto","Planeto helped Geoimpact building sustainable shallow geothermal heating solution to the municipality of Haute-Sorne with advanced analysis.","\u002Fimg\u002Fog\u002Fcustomer-stories\u002Fgeoimpact.jpg",{"logo":65,"items":107},[108,110,113,116,119],{"label":109,"value":64},"Partner",{"label":111,"value":112},"Project","184 buildings",{"label":114,"value":115},"Heated Surface Area","857,162 m²",{"label":117,"value":118},"Annual Energy Demand","103 GWh\u002Fyear",{"label":120,"value":121},"Location","Haute-Sorne, Switzerland","geoimpact",[124,127,130],{"value":125,"label":126},"91%","CO₂ Emission Reduction",{"value":128,"label":129},"80%","Coverage Efficiency",{"value":131,"label":132},"184","Buildings Connected","en\u002Fcustomer-stories\u002Fgeoimpact","FwdB85XjyE6-pMIy8nDnp_4GkJjc9pz-6bcHxMnpiAE",1782290865502]