GREEN SUISTAINABLE ELECTRIC GENERATING BUILDINGS. The inventions are related to green and sustainable energy generating structures and buildings by means of wind water and steam generating electric current for heating the building by steam and for providing clear water for the building or building complex. The structure is heat molded structures and by heat molded stones. Applicable: [1837] Type of buildings refers to: Residential Buildings Educational Buildings Institutional Buildings Assembly Buildings Business Buildings Mercantile Buildings Industrial Buildings Storage Buildings. [1838] A frame house. Air-supported structure. Affordable housing. Airport. Apartment. Assembly and recreation building. Barn. Bungalow. Bus station. Cathedral. Church. Cinema. Cluster accommodation. Commercial building. Commonhold. Condominium. Council housing. Custom build home. Double fronted building. Duplex. Dwelling. Earth building (see also Earthen construction). Fabric structure. Factory. Flat. Freehold. Garage. Geodesic dome. Ground-scraper. High-rise. building. Hospital. Hostel. Hotel. Household. Houses in multiple occupation. Housing association. Industrial building. Inflatable building. Institution. Intermediate housing. Kit house. Leasehold. Leisure center. Library. Manse. Maisonette. Meanwhile use. Mega-structure. Mega-tall. Mixed use development. Modular buildings. Mosque. Multi- storey building. Nineteenth century building types. Non-residential institution. Office. Outbuildings. Penthouse. Petrol station. Post office. Pub. Public building. Residential building. Residential institution. Retail buildings. Retail warehousing. School. Secure residential institution. Self build home. Shed. Sheltered housing. Shop. Shopping centre. Single-storey building. Skyscraper. Social housing. Speculative development. Stadium. Storage building. Student accommodation. Sui generis. Super-slender. Supertall. Temporary building. Terraced house. Theatre. Tower. Town hall. Train station. Twisting buildings. Types of dwelling. Warehouse. Workplace. Yurt. Zero carbon building. Ziggurat. [1839] Building projects are generally divided into a series of stages. This helps define payment milestones, information deliverables, decision points, the need for new appointments and so on. The RIBA Plan of work proposes the following stages: 0 - Strategic definition. 1 - Preparation and brief. 2 - Concept design. 3 - Developed design. 4 - Technical design. 5 - Construction. 6 - Handover and close out. 7 - In use. [1840] Design is also generally multidisciplinary, with some roles being more creative than others: 1- Architect - overall layout, aesthetics, project control and management. 2- Structural engineer - Stability, efficiency and buildability. 3- Services engineer - interior comfort and performance. 4- Landscape architect - surroundings. 5- Architectural technologist - detail drawings and specifications. 6- Quantity surveyor - costs and budget control. 7- Suppliers and manufacturers - products and materials. 8- Specialist designers and others - lighting designers, acoustic consultants and so on. [1841] There may also be a lead designer, a design manager, design co-ordinator, lead consultant, project manager, client advisers, and so on. [1842] The level of pre-existing knowledge the designer brings to bear can also greatly impact the approach they take, as can the tools used: Paper or computer. 2D or 3D. Building information modelling. Physical modelling. Sketching or writing. [1743] As a consequence, the design methodology will emerge not only from the design problem itself and the way it is expressed, but also from the personal choices, characteristics and experiences of the individuals involved. It will be complex, uncertain, and unique to each combination of circumstances. [1844] NB the BIM Task Group Digital Plan of Work and the Government Soft Landings process map is based on an alternate set of stages: 0 Strategy 1 Brief 2 Concept 3 Definition 4 Design 5 Build and commission 6 Handover and close-out 7 Operation and end-of-life [1845] The Construction Industry Council (CIC) scope of services adopts: Stage 1 (Preparation) Stage 2 (Concept) Stage 3 (Design Development) Stage 4 (Production Information) Stage 5 (Manufacture, Installation & Construction Information) Stage 6 (Post Practical Completion) [1846] Given the complexity of this situation and the potential of different project stages it is important that appointment documents and contracts set out precisely what is required, and at what level of detail for different stages of a project. [1847] The inventions are applied in buildings for rendering the building more sustainable for said man-made structure intended for human use or occupation and non-habitable structures to supply energy including and Non- building structure for other uses. A building is 'a structure that is made on a foundation, or made on concrete blocks, or without any foundation constructed of concrete walls. constructed of bricked walls with isolation or ventilation. constructed of wood, of panels of composite, plastic material, clay or concrete and bricks with asphalt roof or metal or tin plates roof or a roof laid of roof tiles, thatch laud roof. The roof is supported by constructed walls and stands more or less permanently in one place. [1848] The outer walls of the building wherein wind turbines are integrated are constructed by concrete wall or concrete reinforced walls supported on the foundation base and the floor frame whereon constructed the carrier beams supporting the internal and external levels and structure. Wherein levels and apartments the devices are applied including rooms, walkways, hallways, And opening in the walls providing doors and windows and balcony. Elevated structures includes stairways, at least one elevator with the electric machine and electric generators. Wind turbines in the air circulation system and plenum chambers and dividers extending throughout the building. Buildings may be arranged with a water tank on the roof with hydro turbines and hydraulic current amplifier, wherein air-conditioning with air intake and condensers are mounted. An external ladder or steel stairs can be mounted on the exterior wall for an emergency exit. In the broadest interpretation devices in the fence and outer wall of building. However, the word structure is used more broadly than building including natural and man-made formations. Modern building in some geographical regions have a foundation supported on seismic bearings. [1849] Green and sustainable edifice uses all sources in the building and at the exterior of the building such as the roof, the exterior walls whereon and wherein wind turbines are provided. The wind turbines seen at figure one is an ideal devices for mounting in the exterior walls and corners no matter the angle of the wall. A wall may comprise existing ventilation and air intakes and exhaust with moisture and CO2 filter and grill which are also implemented with the wind turbines and turbine fans and rotor connected to and geared electric generator. A tower building and skyscraper exterior wall is also provided with the hydro turbines made drain pipes which generate electric current when raining whereby rain water is channeled through said rain pipe made in uniform Helix or vertical drain pipe and combined wherein the hydro turbines are arranged. Buildings are equipped with antennas and lightning rods are mounted at the top of the building to conduct lightning into the ground and protecting the roof mounted equipment and turbine generator. The electronic devices and generator are electrically sealed by Faradays cage made of electric conductive material coupled to the lightning conductor. The building internal doors and windows can also be provided with electric generators which produce electricity by opening and closing the doors and windows which includes revolving doors and movable parts of a building. [1850] The green edifice is also equipped Thermal energy and with boilers and heating system which consume electric power generated by the devices made trough out the building. Elevated constructions comprises floors and levels connected by stairs in which electric machines are provided and are slightly pushed by individuals walking on said spring mounted stairs for generating electric current. The small amounts generated electric current is rectified and stored in accumulators and is supplied to internal electric devices such as boilers providing hot water or heating system. Electric heating systems, Air-conditioning system with wind turbines in the air circulation pipes or connecting dividers or plenum connecting the air pipes. Produced electric current can also be transformed with other produced currents and provided to the smart grid. Water circulation systems are channeled through hydro turbines for generating electricity when a water tap is opened. [1851] There are trends in building materials from being natural to becoming more man-made and composite; biodegradable to imperishable; indigenous (local) to being transported globally; repairable to disposable; chosen for increased levels of fire safety, and improved seismic resistance.. These trends tend to increase the initial and long term economic, ecological, energy, and social costs of building materials. Structural height in technical usage is the height to the highest architectural detail on building from street-level. Depending on how they are classified, spires and masts may or may not be included in this height. Spires and masts used
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