html PUBLIC "-//W3C//DTD HTML 4.0 Transitional//EN" "http://www.w3.org/TR/REC-html40/loose.dtd"Finnish architecture practice Kivinen Rusanen Architects has completed a new bioenergy heating plant in Eastern Helsinki, Finland.Named Vuosaari Bioenergy Heating Plant, the 16,535-square-metre building was designed in a cascading form with metallic appearance.Since the 1980s, a large portion of Helsinki's power and district heat have come from this facility, which is owned by the local Helen Ltd utility. Helen's goal of becoming carbon neutral by 2030 includes the new heating facility.The North facade of the boiler and heat recovery system buildingAbout 25 percent of Helsinki's district heat is produced by the 260 MW biofuel heating plant, which also lowers the city's yearly carbon dioxide emissions by about 700,000 tonnes.With an efficiency of 122 percent, the Vuosaari Bioenergy Heating Plant is a very energy-efficient combustion facility. It is technically possible to convert it to combined heat and power generation even though it does not generate electricity.The boiler and heat recovery system building seen from the SouthwestThe most recent project developed by Kivinen Rusanen Architects at Helen's Vuosaari site is a bioenergy heating plant. It comes after a more than ten-year planning phase in which many technological and scale-related options for building the power plant complex were examined.In Vuosaari, district heat and electricity generation began in the 1980s and has since grown steadily. All of the structures on the power plant site were created by Kivinen Rusanen Architects from the beginning.The boiler and heat recovery system building West facade and the main conveyor bridgeSafety, process flow, and logistics are given top priority in the site plan. The site's equipment and building arrangements were designed to be as compact as possible to allow for future projects and logistical flexibility.The new facility's proximity to the current plant and the fuel handling system's use of technology that enables the various components to be arranged in a tight configuration are examples of this. Additionally, to reduce their footprint, the long main conveyor's legs are made of steel trusses with a compact square cross-section.North view of the fuel handling system buildingsThe project is a prominent feature of the harbor scenery in Vuosaari. The facility's visibility from the new park on the northern side of the power plant site, residential areas more to the west, and views from the sea were all taken into account during its design.However, the close-up views from Satamakaari Street and the facilities of the power plant were crucial. Assuring a high-quality design, construction, and finish was the architectural goal in order for the finished product to be seen in its surroundings.The boiler and heat recovery system building North facadeFrom the plot's edge to the center, the new buildings' size increases. The lower fuel handling structures are on the western side, near people and traffic, while the tall boiler building is in the middle of the property.The substantial landscaping of the steep and high embankment along Satamakaari Street supports this, softening the industrial image of the plant site and improving the street-level experience.The boiler room interiorTo create a timeless appearance, the building makes advantage of abstraction and a neutral color scheme. The double faade structure, which aims to establish visual coherence and control, is a crucial component of the exterior architecture.Although they are technically positioned in the best possible way, the different process equipment and building services that penetrate the external walls are concealed from view behind the double faade's outer shell.The boiler and heat recovery system building double facade seen from insideLarge glass curtain walls let natural light into the boiler building and the fuel-receiving structures. The double-skin facades with perforations reduce excessive glare and solar heat radiation. For maintenance workers who temporarily occupy the facility, natural light increases comfort and safety in the event of power outages or lighting system problems.Although the structures have a distinctly industrial character due to the abstraction of the double-skin claddings, windows give the buildings a less hermetic appearance from the outside.The boiler and heat recovery system building double facade seen from outsideThe project uses two types of double-skin cladding: corrugated sheet metal for the fuel handling buildings and huge, lightweight aluminum composite panels for the boiler building.The project's massive aluminum composite panels provide a structurally sound and aesthetically pleasing addition to the large boiler building's exterior. The Finnish fire code is followed by them.The fuel storage building exteriorA more intricate collection of buildings and structures make up the gasoline handling system. Because profiled sheet steel's size and properties give it a more versatile cladding solution, it was selected as the cladding material for these buildings.When air or light flows through the entire faade structure, both forms of cladding have partial perforations. In contrast to the lightweight steel double faades and metal claddings, high-quality huge structures made of prefabricated and in-situ black or white concrete are utilized.The fuel storage building interiorBy giving the city sustainable district heating, the Vuosaari Bioenergy Heating Plant operationally satisfies one of the most important fundamental demands. Its design seeks to communicate the significance and worth of this endeavor.The fuel handling systemWest facade of the fuel siloSouth view of the fuel receiving building (left) and the electricity spaces building (right)The South facade of the fuel receiving buildingThe South facade of the laboratory and screening building with conveyorsFuel handling area facade detailsAerial view of the site from the southwest. Image HelifotoBioenergy Heating Plant seen from Vuosaarenhuippu Park to the north of the siteBioenergy Heating Plant seen from the West. Image Tuomas KivinenSite planSection through the entire Biofuel Heating PlantPreviously, Kivinen Rusanen Architects built a substation featuring a patterned brick faade.Project factsProject name: Vuosaari Bioenergy Heating PlantLocation:Helsinki, FinlandFloor area: 16535 District heat output: 260 MWTotal investment:250 M Client:Helen LtdClient's project Manager: Antti SaikkonenClient's construction manager:Sami SihvoArchitectural design: Kivinen Rusanen ArchitectsLead architect: Tuomas Kivinen, architect SAFADesign team:Uros Kostic, Anna Blomqvist, Maija Hirvilammi, Tania Serrano, Maria Karjalainen, Melina Aakula, Harri Holopainen, Netta Siljander, Tiia SskiCollaborators:Landscape design:Sweco Finland LtdStructural engineering, concrete structures: Sweco Finland LtdContractors for concrete structures:Louhintahiekka Ltd, SRV Infra LtdBoiler plant:Main equipment supplier:Sumitomo SHI FW Energia LtdStructural engineering, steel structures: Sumitomo SHI FW Energia LtdStructural steelwork contractor:MKL Bau sp.z o.o.Exterior cladding contractor: RKC Construction LtdExterior cladding contractor: Ruukki ConstructionHeat recovery (LTO):Main equipment supplier:Valmet LtdStructural engineering, steel structures:Ramboll Finland LtdStructural steelwork contractor:MKL Bau sp.z o.o.External cladding contractor:RKC Construction LtdExterior cladding contractor: Ruukki ConstructionFuel system:Main equipment supplier: BMH Technology LtdStructural engineering, steel structures: Rejlers Finland LtdStructural steelwork contractor:MKL Bau sp.z o.o.Top image: The boiler and heat recovery system building seen from the East. Image Tuomas Kivinen.All images Max Plunger unless otherwise stated.All drawings Kivinen Rusanen Architects.> via Kivinen Rusanen Architects