Residence Borgo Meschio - Vittorio Veneto (TV)

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Last modified by the author on 23/05/2017 - 10:10
  • Building Type : Collective housing < 50m
  • Construction Year : 2012
  • Delivery year : 2012
  • Address 1 - street : 31029 VITTORIO VENETO (TV), Italia
  • Climate zone : [CsC] Interior Mediterranean - Mild & dry summer.

  • Net Floor Area : 3 711 m2
  • Construction/refurbishment cost : 5 000 000 €
  • Number of Dwelling : 36 Dwelling
  • Cost/m2 : 1347.35 €/m2

Proposed by :

Certifications :

  • Primary energy need
    40.41 kWhpe/m2.anno
    (Calculation method : UNI TS 11300 )
Energy consumption
Economical buildingBuilding
< 50A
A
51 à 90B
B
91 à 150C
C
151 à 230D
D
231 à 330E
E
331 à 450F
F
> 450G
G
Energy-intensive building

The prestigious residential complex (class A), commercial and executive, consists of five buildings with a courtyard and green spaces. Edilvi has submitted the Borgo to architectural restoration work characterized by the respect of the original materials of prestige and the realization of elegant finishes of the highest quality.

All over Italy, Borgo Meschio is the first complex with a bond of fine arts that has become, through a restoration, a class A building.

The restoration was inspired by modern bio-building according to the criteria of sustainable construction with the exploitation of renewable energy for heating, cooling rooms and hot water production. During the work environmentally-friendly materials such as roofing in Wood with insulation made of wood fiber and low-conductibly ground bricks made of mineral natural material free from chemical additives.

The beautiful blend between the architectural recovery of the old and the comfort of the most modern technology is able to ensure maximum efficiency from the use of clean and renewable energy , guaranteeing remarkable energy and economic savings but without sacrificing the spectacular design given by The historicity of the complex.

See more details about this project

 http://www.edilvi.it/borgo-meschio/
 http://www.edilvi.it/garage-posti-auto-vittorio-veneto/
 http://www.edilvi.it/appartamento-bilocale-vittorioveneto/
 http://www.edilvi.it/appartamento-nevegal/

Data reliability

Self-declared

Stakeholders

    Construction company

    Edilvi S.p.A.

    Geom. Diego Pavan - via Roma, 164 Loc. Castrette 31050 Villorba (TV) - 0422 9144

     http://www.edilvi.it/

    Construction company


    Company

    Idrotermica La Marca S.r.l.

    Via Piemonte, 14 – 31029 VITTORIO VENETO (TV) - +39 0438 912420

     http://www.idrolamarca.com/

    Running Radiant systems


    Company

    Mosaico S.r.L.

    Via G. Pascoli, 9 - Fagarè di D. Biagio di C. (TV) - 0422 890061

    Design of electrical systems and thermoregulation


    Company

    Enercret

    Bundesstraße 20 6832 Röthis Austria - +43 5522/21527-0

     http://www.enercret.uk/

    Design and execution of geothermal plant

Contracting method

Other methods

Owner approach of sustainability

Our work gives great satisfaction and urges the best virtues. "It always happens to me: first dream, then project, then build. In the end, I see people living inside my buildings, and it gives me satisfaction and pride to have it realized" We focus on a single energy carrier (electricity) by eliminating the gas that emits CO2 emissions.

Architectural description

The prestigious residential complex (class A), commercial and executive, consists of five buildings with a courtyard and green spaces. Edilvi has submitted the Borgo to architectural restoration work characterized by the respect of the original materials of prestige and the realization of elegant finishes of the highest quality. Throughout Italy, Borgo Meschio is the first complex with a bond of fine arts that has become a class A building through a restoration. The restoration was inspired by modern bio-building according to the criteria of sustainable building with the exploitation of renewable energies for Heating, refrigeration and hot water production. During the work, environmentally friendly materials such as wood-fiber insulation made of wood fiber and low-conductivated brickwork made of mineral-free mineral material are used. The beautiful blend between the architectural recovery of the old and the comfort of the most modern technology is able to ensure maximum efficiency from the use of clean and renewable energy, guaranteeing remarkable energy and economic savings but without sacrificing the spectacular design given by The historicity of the complex. Heating, cooling and conditioning of buildings and the production of sanitary hot water are carried out without the use of boilers, but through heat pumps. These are connected to 13 vertical geothermal probes and 81 energy poles, which drain free and renewable energy from the subsoil to a depth of about 100 meters. All our homes feature an induction hob and heating system with heat pump. This completely eliminates the need for a gas supply. The total absence of fossil fuels cancels the risks of any leakage and resets CO2 emissions into the environment. The heating in winter and the cooling in summer are distributed in the rooms through a plant with radiant ceiling, floor and wall panels. The system ensures a lower circulation of dust in the air and reduces the present humidity, saving considerable savings compared to normal wall radiators. Ceiling heating works as a result of irradiation and spreads heat in all directions. In this way, the differences in temperature between different areas of the room tend to be eliminated and a good thermal balance is created from the ceiling to the floor. The Aquapol wall drainage system prevents the environment from dampening. Thanks to the natural magnetic field released by the device, moisture moves slowly into the wall and returns to the ground. In this way the walls remain dry and only a residual natural moisture content remains in the air. The energy required for the operation of the power plant and the common parts of the Borgo is provided by a solar photovoltaic plant of 15.19 kW. For energy management, Edilvi's ESCo division deals with supply, energy efficiency, operation and overall maintenance of plants, with 24-hour emergency assistance. This allows for further tax savings on VAT on fuels, goods and services . Costs are accounted for individually based on the kWs actually required and supplied. The rainwater from the roofs is recovered and collected in an underground tank, filtered and connected to the irrigation system. This avoids the waste of drinking water and, above all, reduces consumption costs.

Building users opinion

In 2012, a customer satisfaction survey was sent to all users, with 40 multiple-choice questions and a score from 1 to 5 (from "Bad" to "Great"). The average of the ratings received was 4/5, in particular we received the highest votes in questions about interior comfort, material quality, and relationship with the site manager.

Energy consumption

  • 40,41 kWhpe/m2.anno
  • 56,40 kWhpe/m2.anno
  • UNI TS 11300

  • 60,15 kWhfe/m2.anno
  • 56.3% heating environments 20.7% ACS 23% cooling environments

  • 287,60 kWhpe/m2.anno

Envelope performance

  • 0,30 W/m2K
  • Structure in stone masonry sp approx. 60 cm, internal insulation with 5 cm of EPS expanded polystyrene and counterwall in double gypsum board with 5 cm of rock wool

  • 0,49

Systems

    • Urban network
    • Geothermal heat pump
    • Radiant ceiling
    • Urban network
    • Heat pump
    • Geothermal heat pump
    • Radiant ceiling
    • humidity sensitive Air Handling Unit (hygro A
    • Humidity sensitive Air Handling Unit (Hygro B
    • Double flow heat exchanger
    • Solar photovoltaic
    • Heat pump (geothermal)
  • 25,00 %
  • https://www.construction21.org/italia/data/sources/users/2901/presentazione-impianto-geotermico-vittorio-veneto.pptx

    Presence of thermostat and humidistat detecting the percentage of relative humidity, acting on the cooling system when it exceeds a certain threshold.

    The energy required for the operation of the power plant and the common parts of the Borgo is provided by a solar photovoltaic plant of 15.19 kW.

Smart Building

    Remote Building Management, Energy Service

    Energy management with a ten-year contract, CANON = Cv + Cm + Cf (where Cv = variable costs due to actual consumption, Cm = maintenance costs, Cf = fixed component)

GHG emissions

  • 9,00 KgCO2 /m2
  • The emission data is calculated on the basis of estimated electrical consumption

Life Cycle Analysis

    Use of materials from renewable sources: Plaster, Biocalce, Wood beams and planks, Wood fiber thermal insulation, Wooden shutters, wooden windows; Use of Recycled / Recovered Material: Copper - Recovered Material at 50%; Wooden beams: 50% reclaimed material; Wood fiber - recycled material; Dark wood - recovered material; Wooden frames - recovered material.

Water management

  • 876,00 m3
  • 136,00 m3
  • The rainwater from the roofs is recovered and collected in an underground tank, filtered and connected to the irrigation system. This avoids the waste of drinking water and, above all, reduces the cost of consumption.

Product

    Aquapol

    AQUAPOL LAISON WEST EUROPE

    49 A, Rue Grimaldi,98000 Monaco (MC) P.Iva FR 04000077080 Telephone: +39 800 199 771 E-mail: [email protected]

     http://www.aquapol.it/

    A system that contrasts rising humidity using the Earth's geomagnetic field

    The system is innovative and effective, does not consume energy, is ecological and does not create electrosmog.


    Contabilizzatori

    Coster Group

    via San G.B. De La Salle, 4/A - 20132 Milano tel: +39 022722121

     http://www.coster.info

    ACS, AFS, Heat and Cooler Contabilizers

    The system is innovative and effective, the accuracy in energy management has been appreciated.


    Geothermal probes on micropiles

    Enercret

    ENERCRET GmbH Bundesstraße 20 6832 Röthis Austria

     https://www.enercret.com/

    Geothermal probes with micropiles, absorb thermal energy from the ground and transport it to the thermal plant by means of a fluid.

    Innovative renewable energy exploitation system


    Knauf Brio + Trockenschüttung Dry Substrate

    Knauf

    Knauf Milano Via Alberelle, 72 20089 Rozzano (MI) Tel. 02 52823711 Fax 02 52823730

     http://www.knauf.it/divisioneSottofondi.aspx

    Dry substrates, made of fiber plaster slabs coupled with wooden wool, with bent edge, screwed together, laid on a layer of perlite level.

    In some cases, especially with wooden floors, the lightness of the substrates becomes a structural requirement. Knauf has developed a complete system of inerts and slabs characterized by high resistance and positional speed, capable of combining thermal insulation and excellent soundproofing sound for aircraft noise and tread. The plates are lightweight, durable, and easy to install thanks to the hinges.

Construction and exploitation costs

  • 170 000,00
  • 8 000 000
  • 5 000 000
  • 35 000

Energy bill

  • 18 000,00

Urban environment

Residence Borgo Meschio, located in the historic center of Vittorio Veneto (zone A - The buildings are bound by the superintendence under D.Lgs 42/2004), is located in an area well served by means of transport and shops. The closest bus stop is only 100 m away.

Land plot area

5 700,00 m2

Built-up area

3 711,00 %

Green space

1 200,00

Parking spaces

60

Building Environmental Quality

  • Building flexibility
  • indoor air quality and health
  • consultation - cooperation
  • comfort (visual, olfactive, thermal)
  • water management
  • energy efficiency
  • renewable energies
  • maintenance
  • building process
  • products and materials

Reasons for participating in the competition(s)

Il prestigioso complesso residenziale (con appartamenti in classe A), commerciale e direzionale è costituito da cinque edifici con corte interna e dotato di spazi verdi. Edilvi ha sottoposto il Borgo ad intervento di restauro architettonico caratterizzato dal rispetto dei materiali originari di pregio e dalla realizzazione di finiture eleganti di altissima qualità.

In tutta Italia Borgo Meschio è il primo complesso con vincolo dalle belle arti che sia diventato, attraverso un restauro, un edificio in classe A.

Il restauro è stato ispirato alla moderna bioedilizia secondo i criteri dell’edilizia sostenibile con lo sfruttamento di energie rinnovabili per il riscaldamento, il raffrescamento degli ambienti e la produzione di acqua calda sanitaria. Durante i lavori stati impiegati materiali ecocompatibili come ad esempio le coperture in legno con isolante costituite da fibra di legno e laterizi rettificati a bassa conducibilità costituiti da materiale naturale minerale privo di additivi chimici.

Lo splendido connubio tra il recupero architettonico dell’antico ed il comfort della più moderna tecnologia sono in grado di assicurare il massimo rendimento dall’uso di energia pulita e rinnovabile, garantendo un notevole risparmio energetico e economico, ma senza rinunciare al design spettacolare regalato dalla storicità del complesso.

Il riscaldamento, il raffrescamento e condizionamento degli edifici e la produzione di acqua calda sanitaria sono effettuati senza l’ausilio di caldaie, ma attraverso pompe di calore.

Queste sono collegate a 13 sonde geotermiche verticali e a 81 pali energetici, che prelevano energia gratuita e rinnovabile dal sottosuolo ad una profondità di circa 100 metri.

Tutte le nostre case prevedono un piano di cottura a induzione e sistema di riscaldamento con pompa di calore. In questo modo è completamente eliminata la necessità una fornitura di gas.

La totale assenza di combustibili fossili annulla i rischi derivanti da eventuali perdite e azzera le emissioni di CO2 nell’ambiente.

Il riscaldamento in inverno e il raffrescamento in estate sono distribuiti nei locali tramite un impianto con pannelli radianti posti a soffitto, pavimento e parete.

Il sistema garantisce una minor circolazione delle polveri nell’aria e riduce l’umidità presente consentendo un notevole risparmio rispetto ai normali sistemi con radiatore murale.

Il riscaldamento a soffitto opera per effetto dell’irraggiamento e diffonde quindi il calore in tutte le direzioni. In questo modo le differenze di temperatura tra diverse zone della stanza tendono ad eliminarsi e si crea un buon equilibrio termico dal soffitto al pavimento.

Il dispositivo Aquapol di prosciugamento dei muri premette di diminuire l’umidità dell’ambiente. Grazie al campo gravo-magnetico naturale rilasciato dal dispositivo l’umidità si sposta lentamente all’interno del muro e ritorna nel terreno. In questo modo i muri rimangono asciutti e rimane nell’aria solamente un grado residuo naturale di umidità.

L’energia necessaria al funzionamento dell’impianto di produzione dell’energia e delle parti comuni del Borgo è fornita da un impianto solare fotovoltaico da 15,19 kW. 

Per la gestione dell’energia la divisione ESCo di Edilvi si occupa di fornitura, efficienza energetica, conduzione e manutenzione globale degli impianti, con assistenza pronto intervento 24 ore su 24. Ciò consente un ulteriore risparmio fiscale dell’IVA su combustibili, beni e servizi. I costi sono contabilizzati individualmente in base ai kW realmente richiesti e forniti.

L’acqua piovana proveniente dai tetti viene recuperata e raccolta in un serbatoio interrato, filtrata e collegata all’impianto di irrigazione. In questo modo si evitano gli sprechi di acqua potabile e soprattutto si riducono i costi di consumo.

Building candidate in the category

Energy & Temperate Climates

Energy & Temperate Climates

Health & Comfort

Health & Comfort

Smart Building

Smart Building

Users' Choice

Users' Choice

Green Solutions Awards 2017 - Buildings
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Author of the page

Elisa Salvadori

BIM Specialist


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