Case Studies

Real energy planning projects across districts, campuses, utilities, and city-scale strategies.

Selected case studies
Green hydrogen production facility, illustrative photo Hydrogen feasibility
BG Engineers

Green hydrogen production and sector coupling

A coupled industrial-and-residential green-hydrogen feasibility study — six Pareto-optimal variants in under 10 minutes.

CO₂ −60% vs fossil baseline · Cost −26% life-cycle cost vs reference
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Aerial view of Chur, Switzerland Utility strategy
IBC Energie Wasser Chur

City-wide energy supply strategy toward 2050

Three city-wide scenarios confirmed a CO₂-free supply by 2035 is achievable at similar life-cycle costs to today's fossil-based system.

CO₂ Net-zero by 2035
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Empa NEST research building in Dubendorf, Switzerland Campus decarbonisation
Empa

Climate-neutral research campus by 2030

A 10% CO₂ reduction already achieved in the current state, with a further 25% modelled in the planned state toward 2030 climate neutrality.

CO₂ −35% (−10% current + −25% planned)
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Basel's modern skyline along the Rhine River, site of the Port of Switzerland solar energy strategy Solar development strategy
IWB · Port of Switzerland

Solar development strategy for the Port of Switzerland

Up to 20–25% cost reduction at the port, with regulatory change identified as the dominant risk and interlinking the buildings as the lowest-risk strategy.

CO₂ Full 6,000 kWp PV potential exploited · Cost −20 to −25% vs status quo
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Aerial view of the Neuhof campus, Switzerland Self-sufficient campus
Neuhof

A self-sufficient campus energy concept

100% renewable, self-sufficient design across nine facilities — Agri-PV with a biodigester, methane and hydrogen storage.

CO₂ 100% renewable supply
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Insel-Holligen district in Bern, Switzerland District concept
Energie Wasser Bern · Eicher+Pauli

Strategic energy concept for the Insel-Holligen district

A low-temperature thermal network supplied by river and groundwater, stress-tested against more than 30 future price and demand scenarios.

CO₂ Pareto from cost-min to CO₂-min
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Aerial view of a Swiss residential village Residential quarter
Lauber IWISA

Residential energy concept for a new housing quarter

Air-source HPs, groundwater HPs and biomass compared on cost, CO₂ and autarky for a new 16-building Swiss residential quartier.

CO₂ Pareto compared across 3 variants
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Place Pestalozzi in Yverdon-les-Bains, Switzerland Eco-quartier planning
Yverdon-les-Bains

Eco-quartier energy concepts and decarbonisation roadmap

Three decarbonisation pathways to 2040 — and a mid-way solution that adds only ~6% in life-cycle cost over cost-optimal.

CO₂ −83% by 2040 · Cost +6% LCC for mid-way (vs cost-optimal)
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Sommerau commercial development site, Gossau, Switzerland (Photo: Stadt Gossau) Commercial site net-zero design
Gossau Commercial Park

Net-zero commercial park — 75% CO₂ reduction

A net-zero commercial site at 20% lower lifecycle cost than the conventional reference design.

CO₂ −75% · Cost −20% lifecycle cost vs reference
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Aerial view of Swiss residential neighbourhood with tiled rooftops, illustrating buildings connected to a district heating network District heating expansion
Primeo Energie

Optimal expansion strategy for a district heating network

Five candidate network segments, three plants, four scenarios — and three of four scenarios profitable with the 80% renewable threshold exceeded.

CO₂ 80%+ renewable heat supply
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