COSMOS EMS Technology: Energy Optimisation and Sustainability in Horticulture
COSMOS EMS Technology: Energy Optimisation and Sustainability in Horticulture
In an environment where sustainability and energy efficiency are essential to modern horticulture, Ampowr stands out with its innovative COSMOS EMS (Energy Management System). This advanced technology offers a comprehensive solution for managing, optimising, and maximising energy use in horticultural operations, ensuring more sustainable and cost-effective performance.
What is COSMOS EMS and how does it work?
COSMOS EMS is an energy management software developed and hosted in the European Union that monitors and controls energy assets that produce, store, or consume energy. It uses advanced control strategies to manage energy flow optimally, maximising economic performance and reducing the carbon footprint.
The system is capable of connecting batteries, renewable generation, the electricity grid, and energy loads, providing centralised control and automated optimisation. COSMOS EMS monitors over 3,000 data points in real time and allows integration with third-party solutions via a secure API.
Key Benefits of COSMOS EMS
- Energy optimisation: Reduces energy consumption through intelligent asset control and dynamic adjustment based on demand.
- Operational efficiency: Saves costs by leveraging variable tariffs and reducing consumption during peak demand periods.
- Sustainability: Integrates renewable energy sources to minimise the use of polluting alternatives.
- Security and Compliance: ISO27001 certified and compliant with NIS2 regulations for secure energy data management.
This system enables the management of energy consumption for irrigation, climate control, lighting, and other critical equipment, optimising the use of renewable energy and implementing strategies such as Peak Shaving and Net-Zero.
Thanks to COSMOS EMS technology, horticultural operations can maximise self-consumption, generate additional income through energy trading, and ensure a reliable supply even during periods of high energy demand or grid failures.
