Energy Upgrading

Energy upgrading consists of making a series of functional and structural interventions with the following goals: reducing emissions, limiting consumption, end improving energy efficiency.

In recent years, the impact of the transport industry on the environment has significantly decreased due to a strong trend towards energy transition, enabling a gradual shift to green energy sources. The building heritage still accounts for high emissions, and the energy upgrading of existing structures can provide a solution for some critical issues affecting the properties.

Energy efficiency is an increasingly widespread concept among eco-friendly companies dedicated to finding new energy-saving solution. Optimising the energy performance of one’s own company allows not only for a series of tax benefits, but also to achieve a paramount target: to reduce consumption, expenditure, and environmental impact while maintaining the same level of production, comfort, and safety for employees.

The first great advantage of energy upgrading is the reduction of costs: indeed, to provide maximum comfort, the building requires less energy. The second benefit is a revaluation of the property: an eco-sustainable building or a green company has a higher market value. The reduction in consumption and the use of renewable energy help to limit emissions and the negative impact of human activity on the planet.

Corip offers an integrated intervention approach that guarantees consumption reduction and improved quality of life, enabling investment optimisation over time, supported by a guarantee of results and potential long-term financial tools, along with an efficient management of installations and service contracts with a guarantee of energy performance encompassing the operation, maintenance, and supply of energy carrier.

Energy upgrading guarantees not only low consumption but also eco-sustainable performance:

    • containing consumption;
    • lowering polluting emissions;
    • a rational use of resources through the exploitation of renewable energy sources to replace fossil fuels;
    • optimising the management of energy services through thermoregulation systems and heat accounting