INNOVATING
FOR A
SUSTAINABLE
FUTURE
Committed to excellence and innovation in the renewable energy and gas sector
Developments / Biomethane
By harnessing organic waste and converting it into useful energy, biomethane represents a crucial step towards a cleaner and more sustainable energy future.
By harnessing organic waste and converting it into useful energy, biomethane represents a crucial step towards a cleaner and more sustainable energy future.
What is
Biomethane?
Biomethane is a natural gaseous fuel obtained through anaerobic digestion, a process of organic matter decomposition.
This process converts organic waste into a renewable and sustainable gas, which can be used as an alternative to fossil fuels.
Biomehtane
Benefits
Biomethane offers multiple benefits that go beyond its use as an energy source:
• Promotion of the local and circular economy:
It fosters job creation in rural areas and contributes to sustainable development.
• Energy independence and sustainability:
It helps reduce dependence on fossil fuels and improves the country's energy security.
• Emission reductions:
It contributes to the reduction of greenhouse gases, supporting the fight against climate change.
• CO2 valorization:
The high-purity CO2 generated is used as a raw material for synthetic fuel plants, such as methanol or PBS.
Uses and Distribution
Biomethane can be distributed through the natural gas grid or transformed into electricity and heat in combined heat and power plants.
Applications include:
• Natural gas grid
• Electricity and heat generation
• Industrial applications
• Use in transportation
• Residential and commercial applications
At EXERA, we are committed to innovation and sustainability in the energy sector.
We believe in generating value by stabilizing populations in rural areas and promoting the local economy.
We are proud to announce that we have more than 10 projects in development, dedicated to the biomethanization of non-hazardous waste.
These projects not only offer a solution for the proper management of agricultural and livestock waste, but also contribute to the production of clean renewable energy and secondary products such as agricultural fertilizers or high-purity CO2 for the energy or food sector.
为可持续的未来而创新。
致力于可再生能源领域的卓越和创新。
开发 / 生物甲烷
通过利用有机废物并将其转化为有用的能源,
生物甲烷代表了迈向更清洁、更可持续的能源未来的关键一步。
什么是生物甲烷?
生物甲烷是一种天然气燃料,通过厌氧消化获得,厌氧消化是有机物的分解过程。
这个过程将有机废物转化为可再生和可持续的气体,可用作化石燃料的替代品
生物甲烷的好处
生物甲烷具有多种好处,而不仅仅是用作能源:
• 促进本地和循环经济:
它促进农村地区创造就业机会,并为可持续发展做出贡献。
• 能源独立和可持续性:
它有助于减少对化石燃料的依赖并改善该国的能源安全。
• 减排:
它有助于减少温室气体,支持应对气候变化。
• CO2 回收:
产生的高纯度 CO2 用作合成燃料工厂的原料,例如甲醇或 SAF。
分配和用途
生物甲烷可以通过天然气网分配,也可以在热电联产厂转化为电能和热能。
其应用包括:
• 天然气管网
• 发电和供热
• 行业应用
• 用于运输
• 住宅和商业应用
在 EXERA,我们致力于能源领域的创新和可持续发展。
我们相信通过固定农村地区的人口和促进当地经济来创造价值。
我们很自豪地宣布,我们有 10 多个项目正在开发中,致力于非危险废物的生物甲烷化。
这些项目不仅为正确管理农业和畜牧业废弃物提供了解决方案,还有助于生产可再生来源的清洁能源和二次产品、农业肥料或能源或食品行业的高纯度 CO2。