Renewable Collection (#13)

Power station in Sweden
Small power station, typical for a small town in Sweden, burning green products from the forests. Photographed in Vadstena district in Ostergotland in Sweden

Solar water heater, 19th century artwork
Solar water heater. 19th century artwork of a parabolic solar water heater (upper right) powering a steam engine (centre) driving a printing press (centre left)

Sunset reflection on solar panel, artwork
Sunset reflection on solar panel. Artwork of a solar panel with a reflection of the setting Sun. Solar panels are arrays of photovoltaic cells that convert the energy in sunlight into electricity

Environmentally friendly fuel, artwork
Environmentally friendly fuel, computer artwork. Butterfly with green oil barrels. This represents sustainable and renewable fuel production that has a reduced or minimal impact on the environment

Microgeneration power technology. Small-scale wind turbine, solar panels (arrays of photovoltaic cells) and solar heat collectors (centre of top row) on the roof of a building

Rooftop solar panels, Germany
Rooftop solar panels. Arrays of photovoltaic cells on the roof of an office building. Each array (or solar panel) converts the energy of sunlight into electrical power for use in the building below

Hydrogen fuel cell cars that have been developed as part of a research project. Hydrogen fuel cells combine hydrogen and oxygen (from the air) to create electricity

Solar technology, Germany
Solar technology. Solar heat collectors (black panels) on the roof of a building on the Braamwisch Ecological Housing Estate, part of the Karlshohe Solar Project, Hamburg, Germany

Geothermal vents, Italy
Geothermal vents. Steam rising from geothermal vents near Monterotondo, in the Larderello area of Tuscany, Italy. The Larderello geothermal area

Geothermal power station, Italy
Geothermal power station. Steam rising from the cooling towers of the Valle Scolo geothermal power station, in the Larderello area of Tuscany, Italy

Hydroelectric power station, Wales
Hydroelectric power station. This is the Dinorwig pumped-storage hydroelectric power station near Llanberis, Wales. The actual turbines generating electricity are inside the mountain

Hydrogen fuel cell car being refuelled at a hydrogen filling station as part of a research project. Hydrogen fuel cells combine hydrogen and oxygen (from the air) to create electricity

Hydrogen fuel cell car refuelling
Hydrogen fuel cell car being refuelled at a hydrogen filling station as part of a research project. Hydrogen fuel cells combine hydrogen and oxygen (from the air) to create electricity

Solar power technology, Germany
Solar power technology. Solar panels (arrays of photovoltaic cells) and solar heat collectors (upper centre) on the roof of a building

Solar powered street light, UK
Solar powered street light. Photographed near Appleby, Cumbria, UK

Silicon wafer, conceptual artwork. Image representing the production of a thin slice (wafer) of crystalline silicon. Wafers like this are used as semiconductors in solar (photovoltaic) cells

Hydrogen-powered bus. This bus is powered by a fuel cell that runs on hydrogen gas. Inside the proton exchange membrane (PEM) fuel cell, hydrogen is combined with air, without combustion

Domestic micro wind turbine. Vertical axis micro wind turbine on top of an apartment block. The triple helix shape enables it to catch the wind from any direction

Silicon wafer. Close-up of the surface of a thin slice (wafer) of crystalline silicon. Wafers like this are used as semiconductors in solar (photovoltaic) cells

Wind turbines and a lenticular cloud. Wind power is a renewable and clean source of energy for electricity production. The wind turns the blades, and this drives a turbine to generate electricity

Wind turbines at sunset. Wind power is a renewable and clean source of energy for electricity production. The wind turns the blades, and this drives a turbine to generate electricity

Chinas largest wind turbine farm near Urumqi, Xinjiang Province, China, Asia

The control panels for the biogas biolers at Daveyhulme wastewater treatment plant in Manchester, UK
Ashley Cooper / SpecialistStock

The biogas boilers at Daveyhulme wastewater treatment plant in Manchester, UK
Ashley Cooper / SpecialistStock

The odour suppresant plant at Daveyhulme wastewater treatment plant in Manchester, UK
Ashley Cooper / SpecialistStock

Waste water tanks at Daveyhulme wastewater treatment plant in Manchester, UK
Ashley Cooper / SpecialistStock

The control panels for the biogas boilers at Daveyhulme wastewater treatment plant in Manchester, UK
Ashley Cooper / SpecialistStock

The odour supressant plant at Daveyhulme wastewater treatment plant in Manchester, UK
Ashley Cooper / SpecialistStock

A control panel at Daveyhulme wastewater treatment plant in Manchester, UK
Ashley Cooper / SpecialistStock

United Utilities Daveyhulme plant processs all of Manchester sewage and deals with 714 million litres a day
Ashley Cooper / SpecialistStock

The motors that drive the oxygenating rotors at Daveyhulme wastewater treatment plant in Manchester, UK
Ashley Cooper / SpecialistStock

Bubbles on the oxygenated water at Daveyhulme wastewater treatment plant in Manchester, UK
Ashley Cooper / SpecialistStock

Pumps oxygenate the sewage water at Daveyhulme waste water treatment works in Manchester, UK
Ashley Cooper / SpecialistStock

A combined heat and power plant at Daveyhulme waste water treatment plant
Ashley Cooper / SpecialistStock

Biodigesters at United Utilities Daveyhulme plant which processs all of Manchester sewage
Ashley Cooper / SpecialistStock

Settling tanks at Daveyhulme wastewater treatment plant, or sewage works in Manchester UK
Ashley Cooper / SpecialistStock

A solar powered parking meter in the Grounds of the University of Cumbria, Ambleside Campus, Cumbria
Ashley Cooper / SpecialistStock

A gound source heat pump with Pipes coming up from 55 metres down in a house in Ambleside, Cumbria, UK
Ashley Cooper / SpecialistStock

Pipes coming up from 55 metres down for a ground source heat pump, in a house in Ambleside, Cumbria
Ashley Cooper / SpecialistStock

A Chinese family cooks on a stove fuelled by dried corn stalks and husks which not only cooks the food
Ashley Cooper / SpecialistStock

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"Embracing the Power of Renewables: A Sustainable Future Unveiled" Wind farm N090477: Harnessing the limitless potential of wind energy to power our world. Wind turbines: Majestic giants spinning gracefully, converting gusts into clean electricity. Solar panel with sun: Capturing sunlight's brilliance, illuminating a greener tomorrow. Scots Pine forest 62, S-E Arndt: Nature and renewables unite in harmony for a sustainable future. Aerial view, wind turbine near Wolnzach, Pfaffenhofen an der Ilm district, Hallertau hops growing area, Upper Bavaria, Bavaria, Germany, Europe: Combining green energy with agricultural landscapes for a thriving planet. Wind turbines at Pincher Creek: Transforming Alberta's winds into a renewable powerhouse. Wind turbine generating electricity: The elegant dance of blades producing clean and abundant power for all. Wind turbines on Bodmin Moor, near Bodmin, Cornwall, England United Kingdom Europe: Preserving Cornwall's beauty while harnessing its windy essence to fuel progress sustainably. Solar photovoltaic panels on roof Centre for Alternative Technology Machynlleth Wales UK: Pioneering solar solutions that empower communities towards self-sufficiency and resilience in Wales' scenic landscape. MALCOLM TURNBULL JOSH FRYDENBERG ENERGY PRESSER (caption not clear) Solar panels in the sun: Bathed in golden rays; capturing nature's gift to illuminate our lives sustainably Norway Sogn og Fjordane -Wind mill at KrAakenes : Norway embraces renewable energy amidst stunning fjords; forging a path towards sustainability.