ENERGETIC EFFICIENCY
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impianti per efficienza energetica

Fine-tuning power consumption

In carefully designing the plants, and paying attention to the devices that use energy, it is possible to achieve a virtuous technology integration, ensuring a huge saving of consumption level – or even obtaining energy autonomy with zero total consumption. The air-conditioning plants (heating and cooling), and for production of domestic hot water , today are advantageous as they use a heat pump (replacing the old gas boiler) that could have a COP up to 5 (COP: coefficient of performance, i.e. the ratio between the thermal energy transferred and the electrical energy consumed). The combined use of the heat pump with a photovoltaic plant or wind turbines for electrical production, together with the hot water production by a warmth recovery system (for instance by the use of the warmth taken out from the rooms for cooling in summer), (for instance by the use of the warmth taken out from the rooms for cooling in summer), can minimise the consumption levels or even result in zero need for external energy (gas and electricity).

In addition, particular attention should be paid to terminal units, between the modern fan-coils, the consolidated high temperature radiators (also with modern design models), or the more comfortable and efficient low temperature radiant heating (to be installed under the floor, roof or wall).

Other relevant elements are the use of an efficient control system, that commands the thermostatic valves taking into account the local temperature and humidity, and the use of home automation devices,such as local consumption control (lighting, heating, cooling, etc.) by sensors of presence and/or time-interrupts. Also a careful design of a lighting plant, for instance by the use of LED lamps with low consumption for artificial light, could be beneficial in terms of consumption reduction. In addition, the use of solar tube in industrial farms can drastically reduce the energy needs for daily lighting.

Presently, in most countries, with or without incentives, the installation of plants at high energetic efficiency levels can generate great value for single users and the eco-system, ensuring the return of investment in the short term, a continuous and significant advantage in the medium and long term, and a substantial contribution to building a better world on a human scale, for our generation and those to come.

Services


B-eco provides a whole set of services for the realisation of turnkey plants at high energetic efficiency, for buildings heating, cooling and lighting, in short time, with best conditions.

  • Feasibility analysis
  • Return of Investment plan
  • Technical-economical offer
  • Preliminary and Executive Design
  • Use of best technology and products of highest efficiency, reliability and design
  • Financial facilities to get a loan
  • Management of all local Permits requested
  • Planning and Managing of activities
  • Installation and test
  • Monitoring of plant state
  • Alarm managing
  • Operation & Maintenance, ordinary and extraordinary

    • Choose high efficiency plants



    Plants at high energetic efficiency levels are made by solid and reliable technology, in constant development, today cheaper than the past and more profitable for humans and the environment. The heat pump systems, if integrated with a photovoltaic plant and a warmth recovery system, can minimise consumption levels and reduces the need for external energy (electricity and gas).
    There are no particular requirements for the installation of plants at high energetic efficiency. This modern technology, and the wide catalogues of available products, allows energy expert technicians to find the best solution for every context and size, for residential units, office buildings and industrial factories.
    Plant at high energetic efficiency levels is a hydrothermal system that is stable, solid and reliable, and needs little maintenance effort, such as periodic checks of the heat pumps, fluid and hydro pipes, and the control system with its sensors and actuators. The continuous monitoring of the operational status assures immediate response to alarms and alerts, and fast action to restore it to its optimal operation levels.

    Advantages

    Energy optimisation
    Plants at high energetic efficiency levels use electrical power to move thermal energy from a colder side to a warmer side, without burning any fuel, with high efficiency (the transferred thermal energy is up to five times the consumed electrical energy), and with little maintenance effort.
    Saving assured
    Plants at high energetic efficiency levels have a limited cost and assure investment returns in a short time thanks to drastic and predictable consumptions reductions.

    CO2 emission reduction
    Plants at high energetic efficiency levels do not use fossil fuel (gas, methane) and have a COP (coefficient of performance) between 3 and 5, so to give out less quantity of CO2, that can reach zero if the electrical energy is produced by renewable source (such as photovoltaic). These plants thus contribute to preserving the environment and eco-system, assuring the energetic autonomy for our and next generation, contributing to achieving global targets on the limitation and reduction of greenhouse gas emission, thus avoiding global warming and its potential dramatic consequences.

    consulenza b-eco contact us for a free consultation and offer


    Installations


    B-ECO can boast a well-established and relevant experience on planning, installing and maintenance of plants at high energetic efficiency.
    Slide background
    Roma - 50kW - impianto di climatizzazione a pompa di calore, a espansione diretta
    e recupero del calore, pavimenti radianti e ventilconvettori
    Slide background
    Roma - 50kW - impianto di climatizzazione a pompa di calore, a espansione diretta
    e recupero del calore, pavimenti radianti e ventilconvettori
    Slide background
    Roma - 50kW - impianto di climatizzazione a pompa di calore, a espansione diretta
    e recupero del calore, pavimenti radianti e ventilconvettori


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