ENERGY
Integrated solutions for cost reduction and sustainability.
Energy infrastructure is critical to the operational efficiency and profitability of agricultural, industrial, and commercial facilities. Greenteque designs and implements complete energy systems, from renewable generation to cogeneration and storage that reduce costs, enhance sustainability, and provide long-term energy security.
Photovoltaic (PV) Systems
Solar energy generation for cost reduction and energy resilience
Photovoltaic (PV) systems provide clean, renewable energy that reduces operational costs and environmental impact, while strengthening long-term sustainability across agricultural, energy, and industrial operations.
Solutions
- Grid-connected or off-grid PV installations with optional battery storage
- Hybrid systems combining PV with CHP or backup generators
- Roof-mounted and ground-mounted configurations
- Integration with energy management systems and net metering (where applicable)
Key Benefits
- Significant reduction in electricity costs
- Access to renewable energy incentives and credits
- Long-term energy price stability
- Reduced carbon footprint and improved ESG performance
- Increased energy resilience and operational continuity
Use Cases
- Agricultural facilities with high and continuous energy demand
- Industrial warehouses and processing plants
- Facilities in regions with strong solar potential and grid incentives
Combined Heat & Power (CHP)
High-efficiency cogeneration for integrated energy and thermal management
CHP systems simultaneously generate electricity and thermal energy, significantly improving energy efficiency while providing valuable CO2 for agricultural and industrial applications.
How It Works
- Natural gas or biogas combustion generates electricity
- Waste heat is captured for greenhouse heating or industrial processes
- Cleaned exhaust gases supply CO2 for enhanced plant growth (agriculture)
- Excess electricity can be sold back to the grid
Key Benefits
- Dual output (electricity + thermal energy) optimizes resource utilization and reduces operating costs
- CO2 enrichment for agricultural facilities (20-30% yield increase)
- Revenue potential from excess energy sales
- Energy independence and long-term price stability
- Superior environmental performance compared to conventional energy systems
Solutions
- Feasibility analysis and system sizing and economic modeling
- Equipment specification, procurement and installation
- Integration with heating and CO2 systems
- Grid connection and regulatory compliance
- Performance monitoring, maintenance planning, lifecycle optimization, and real-time energy management
Use Cases
- Large-scale greenhouse operations requiring stable heat and CO₂
- Industrial facilities with continuous thermal and electrical loads
- Large-scale infrastructure developments targeting energy efficiency and operational resilience
- Projects in regions with favorable energy pricing or incentives
Geothermal Systems
Sustainable heating from renewable geothermal energy
Geothermal energy harnesses naturally occurring heat from the earth, providing a clean, renewable, and cost-effective heating solution.
How It Works
- Low-enthalpy geothermal fields provide hot water (50-150°C) for facility heating
- Heat exchanger systems transfer thermal energy to heating circuits
- Specialized materials prevent corrosion from mineral-rich geothermal water
- Closed-loop or open-loop configurations based on site conditions
Solutions
- Geothermal well drilling and development (where applicable)
- Heat exchanger design and installation
- Integration with existing heating infrastructure
- Feasibility studies and resource assessment
- Performance monitoring and system optimization
Κey Benefits
- Environmentally friendly and sustainable
- Reduced fossil fuel dependency
- Long-term cost savings
- Reliable, consistent energy supply
Use Cases
- Regions with accessible geothermal resources (e.g., Greece, Iceland, Turkey)
- Agricultural facilities requiring year-round heating
- Industrial processes with thermal energy needs