Technology

Geo
thermal.

The Earth's core reaches temperatures exceeding 5,000°C. Geothermal energy taps the heat that radiates outward through volcanic and tectonic zones, delivering continuous 24/7 baseload power with zero fuel cost and near-zero operational emissions. Countries like Iceland, Kenya, and New Zealand already generate more than 25% of their electricity from geothermal resources.

15,000+ MW

Global installed capacity

> 90%

Capacity factor (baseload)

24/7

Continuous generation

0 CO₂

Operational emissions

Plant Types

Matched to
Your Resource.

Dry Steam

Temp. Range

> 230°C

Global Share

~25%

The simplest and oldest form. Steam is piped directly from the reservoir to the turbine. Found in specific high-temperature fields such as The Geysers (California, USA) and Larderello (Italy).

Flash Steam

Temp. Range

180 – 230°C

Global Share

~60%

Hot, high-pressure water is 'flashed' into steam in a separator vessel. The steam drives the turbine; remaining liquid is re-injected. Most common geothermal plant type worldwide.

Binary Cycle (ORC)

Temp. Range

100 – 180°C

Global Share

~15%

Lower-temperature fluids heat a secondary working fluid (e.g. pentane or isobutane) with a lower boiling point, which then drives the turbine. Enables exploitation of moderate-temperature resources.

Development Process

From Geology
to the Grid.

Geothermal development requires highly specialised geological and drilling expertise. Helium Power Energy's team spans geoscientists, reservoir engineers, and power plant specialists, covering the entire project from exploration through to long-term O&M.

Resource Exploration

3D seismic surveys, magnetotelluric resistivity surveys, geochemical sampling, and exploratory well drilling to map subsurface heat reservoirs.

Well Drilling & Testing

Directional drilling to 1,000–4,000 m depth. Production and injection well field testing, reservoir temperature logging, and flow rate measurement.

Surface Plant Engineering

Power plant engineering (EPC), heat exchanger and separator design, turbine-generator package selection — tailored to the reservoir fluid characteristics.

Operations & Reinjection

Spent geothermal fluid is re-injected to sustain reservoir pressure and extend field life. Continuous monitoring maintains long-term productivity.

The Case For Geothermal

Key Advantages

True baseload renewable — unaffected by weather or seasonal variation

Small surface footprint: 1–10 km² per 100 MW

Extremely low life-cycle CO₂ intensity (~20 g CO₂/kWh)

Resource is essentially inexhaustible on human timescales

Local economic development in remote volcanic regions

Can supply both electricity and direct-use heating (district heat)

Exploring a geothermal resource?

Our geoscience and drilling specialists can assess your prospective field.

Get in Touch Biomass CHP

Geothermal.

Matched toYour Resource.

Dry Steam

Flash Steam

Binary Cycle (ORC)

From Geologyto the Grid.

Resource Exploration

Well Drilling & Testing

Surface Plant Engineering

Operations & Reinjection

Key Advantages

Exploring a geothermal resource?

Geo
thermal.

Matched to
Your Resource.

From Geology
to the Grid.