ZERO ENERGY BUILDING
A zero energy building is also known as a zero net energy building, net-zero energy building means the building with net energy consumption, which means the total amount of energy used by the building is equal to the amount of renewable energy created on-site. Renewable energy means the energy generated by natural resources like solar, wind, water and etc.
it suggests four ways in which net-zero energy may be defined:
- Net Zero Site Energy
- Net Zero Source Energy
- Net Zero Energy Costs
- Net Zero Energy Emissions
NET ZERO SITE ENERGY:- Site Energy refers to the energy consumed and generated at a site (e.g. a building) is equal, Regardless of where or how that energy originated.
In a net-zero site energy building, That means if the consumers use one unit of energy, therefore the site also generates one unit of energy by renewable resources.
NET ZERO SOURCE ENERGY:- Source Energy refers to primary energy needed to extract and deliver energy to a site, including the energy that may the process of generation, transportation, and distribution.
A source NZEB produces (or purchases) at least as much RE as it uses in a year when accounted for at the source.
NET ZERO ENERGY COSTS:- The Net Zero Energy that means the energy consumed by building or consumer is equal to the energy generated by site by renewable sources or other processes, its net cost is a Net Zero Energy Cost.
Buildings that still use natural gas for some heating or for some cooking opt for this definition as a way to deliver a building efficiently and reduce energy costs.
NET ZERO ENERGY EMISSIONS:- A Net Zero Energy Emissions building either uses no energy which results in the building free from energy and reduces the greenhouse gases effect due to its free from energy.
Most zero net energy buildings get half or more of their energy from the grid and return the same amount over the course of a year. Buildings that produce a surplus of energy over the year may be called “energy-plus buildings” and buildings that consume slightly more energy than they produce are called “near-zero energy buildings” or “ultra-low energy houses.
The first Zero-energy building was in north Texas. It’s possible to make it everywhere in the world since already been built in countries close to Arctic Circle like New Zealand. This type of house in Dallas USA is selling at approximately 1 million USD.
India’s first net-zero building is Indira Paryavaran Bhawan, located in New Delhi, inaugurated in 2014. Features include passive solar building design and other green technologies. High-efficiency solar panels are proposed. It cools air from toilet exhaust using a heat recovery wheel in order to reduce the load on its chiller system. It has many water conservation features.
The world’s first standard passive house in Ireland, it was Scandinavian homes launched in 2005 constructed in Ireland.
In October 2007, Malaysia energy centre successfully launched and complete of the PTM zero energy office building. The building has been designed to be a super-energy-efficient building using only 286 kWh/day.
In 2011, Payesh Energy House(PEH), or Khaneh Payesh Niroo, launched the first Net-Zero passive house in Iran.
In September 2006, the Dutch headquarters of the World Wildlife Fund (WWF) in Zeist was opened. This earth-friendly building gives back more energy than it uses. All materials in the building were tested against strict requirements laid down by the WWF and the architect.
In February 2009, the Research Council of Norway assigned The Faculty of Architecture and Fine Art at the Norwegian University of Science and Technology to host the Research Centre on Zero Emission Buildings (ZEB), which is one of eight new national Centres for Environment-friendly Energy Research (FME).
Singapore‘s first zero-energy building was launched at the inaugural Singapore Green Building Week.
And so many zero energy buildings constructed in the world.
Zero Energy Building Is Necessary
Zero energy homes and buildings decrease the need for fossil-fueled power plants. And due to this concept reducing greenhouse gases, therefore, protects the environment against these harmful full gases. They create a state powered by clean energy + highly-efficient buildings.
Objective of Zero Energy Building
Zero energy buildings achieve one key green-building goal of completely or very significantly reducing energy use and greenhouse gas emissions for the life of the building. Zero energy buildings may or may not be considered “green” in all areas, such as reducing waste, using recycled building materials, etc.
IMPORTANT CRITERIA TO GET ZERO ENERGY BUILDING
The zero-energy building provides heat and electricity to the building by using solar cells or wind turbines for electricity, and biofuels or solar collectors linked to seasonal thermal stores for space heating.
Zero energy house generates energy from roof-integrated solar photovoltaic panels and roof-mounted solar hot water panels.
Zero energy house generates energy from roof-integrated solar photovoltaic panels and roof-mounted solar hot water panels. It’s time to rethink the energy in the buildings.
We have enough energy from the sun, solar panels provide energy to meet all the electricity requirements and build using alternate building materials and energy sources. You need to choose the right material for getting the required efficiency.
|GLUE LAMINATED TIMBER (NZEB)|
Zero energy house uses (which has a low carbon footprint) as the main structural element in place of concrete and steel, so reduces the overall weight of the structure and also less damage in case of any natural disasters.
|GREEN ROOF (ZERO ENERGY BUILDING)|
Over the house you have a with local plants, it’s used as part of insulation as well as a cooling system, water is stored on a roof in small tanks which is used to water the plants.
HOLLOW BLOCKS WITH CONCRETE
|HOLLOW BLOCK (ZERO ENERGY BUILDING)|
All the walls in the house are built with . Block is a mix of concrete and wood which acts and anti-bacterial and has great insulation properties. Insulation is provided inside the blocks to prevent energy loss.
are used to make walls that handle moisture and insulates at the same time, the blocks are filled with concrete (which is having 50 % fly ash replacement for the Portland cement) and smaller rebar’s.
CONCRETE HOLLOW BLOCKS WALLS
|CONCRETE HOLLOW BLOCK WALL (NZEB)|
On the roof, they put a fabric, give airspace between fabric material and the roof, blow a foam under the fabric which expands on itself and takes shape of a cave-like roof. Foam has got insulation properties so air below the roof becomes cooler during the summer season.
INSULATING ROOF OF ZERO ENERGY BUILDING
|INSULATING ROOF (ZERO ENERGY BUILDING)|
Alternatively, for the winter season, the roofing system which is metal panels dark color, it absorbs heat like any other dark color.
Above the foam on the roof is a vapor barrier and above that is the air space about 1.5 inches. Air is made to pass in the roof, making the area warmer, and supple grilles installed on the roof to pass the hot air making the house warmer.
, such a system that hot or cold water can pass under the floors making it warm or cooled, generally warm as western countries temperatures are often very low and the warm water is coming via solar panels on the rooftop.
The water pipes pass down the concrete floor, these piping system gets heated via solar panels which produce warm concrete floor. In the house, a sun tunnel skylight is given at selected locations. All the heat from the sun is directed via a system to the floor of the house which keeps it always warm.
|RAINWATER HARVESTING SYSTEM( ZERO ENERGY BUILDING)|
A rainwater harvesting system is applied, the water from the rooftop via a downspout collects in the storage outside the house as per the storage capacity. This collected water can be used for landscape as well as other domestic purposes except drinking, so saving the cost to buy the water from an outside source.
SOLAR INTEGRATED ROOF PANELS
|SLOAR INTEGRATED ROOF (ZERO ENERGY BUILDING)|
The Source of hot water is through solar integrated roof panels but sometimes when the sun shines high, water becomes too hot, so a system is installed inside all sanitary fixtures which mix the cold water with the hot water thus making the temperature safe for use.
Similarly, when the sun shines too low, scarcity of hot water comes, so it has a backup of hot water which mixes with cold to make it safe for use. The water heater is installed which is gas-operated which comes on & off automatically, so a lot of precaution is needed to operate the system.
Push buttons are installed in the kitchen, toilets, whenever you want hot water, push the button, a circulating system bring the hot water from the stored place to the toilets and kitchens which reduces to the predetermined temperature at the receiving end like a washbasin, shower, bathtub, and all over the home where is required.
NATURAL VENTILATION IN ZERO ENERGY BUILDINGS
Zero energy home provides enhanced , windows installed is the key, casement windows on wall top and at the bottom provides natural and healthy ventilation of air.
In the front and back of the house all the windows open and closes in reverse direction providing natural ventilation, skylight is given on the roof for natural air and light
To maintain the comfortable humidity inside the house the walls are plastered with a and it has the capacity to absorb the moisture from air giving a maintained humidity inside the house.
The cooling system is also used as the dehumidifying machine, in case we want to reduce the relative humidity of the house, the variable speed fan starts sending lesser air thru blowers further into the house which results in low humidity.
SOLAR PANELS ON THE ROOFTOP
The convert the sunrays to electrical energy so the electric dept. is amazed to see that the electric meter starts running backward, in fact, you can ask tell your utility companies to pay you is something extraordinary. There is an inverter installed inside which converts the direct current produced by solar panels to alternating current which is used in the USA.
Reduced consumption of electricity from the lighting system, all are fluorescent lights or low voltage lights which are generally advanced lighting package and very decorative lights it can give you a very aesthetic and antique look.
HVAC SYSTEM IN ZERO ENERGY BUILDINGS
air is cooled by a chiller system that either chills or heat water. The water is then sent thru copper tubes not under high pressure to the coils which gets cooled with chilled water and is connected to the blowers at various location in the house, thus the house gets chilled.
Sometimes 1.5 tons and 2 tons compressors are placed outside, both are factory charged with refrigerant. Attach to each compressor is chiller system. So at a time when there is a single-family the 1.5 tons or 2 tons compressor is working automatically depending upon the weather and if there is the requirement of higher chilling like there is some function in the house then both compressor starts working simultaneously in random and chills the house.
are provided in such a way that during summer they protect the sun to hit the windows and during winter the sun can reach the windows and also protection from the rain. This system is designed based on wind direction. A large overhang is provided on the front porch of the house so avoids direct sun to heat the entrance.
HOW DO YO GET ZERO ENERGY BUILDING
1. Start with Smart Design. …
2. Use Energy Modelling. …
3. Super-Seal the Building Envelope. …
4. Super-Insulate the Building Envelope. …
5. Heat Water Wisely. …
6. Use Highly Insulated Windows and Doors. …
7. Use the Sun for Solar Tempering. …
8. Create an Energy-Efficient, Fresh Air Supply.
ADVANTAGES AND DISADVANTAGES OF ZERO ENERGY BUILDING
- · Isolation for building owners from future energy price increases.
- · Increased comfort due to more-uniform interior temperatures (this can be demonstrated with comparative isotherm maps).
- · Reduced requirement for energy austerity.
- · Reduced total cost of ownership due to improved energy efficiency.
- · Reduced total net monthly cost of living.
- · Improved reliability – photovoltaic systems have 25-year warranties – seldom fail during weather problems – the 1982 photovoltaic systems on the Walt Disney World EPCOT Energy Pavilion are still working fine today, after going through 3 recent hurricanes.
- · Extra cost is minimized for new construction compared to an afterthought retrofit.
- · Higher resale value as potential owners demand more zeb than the available supply.
- · The value of a ZEB building relative to the similar conventional building should increase every time energy costs increase.
- · Future legislative restrictions and carbon emission taxes/penalties may force expensive retrofits to inefficient buildings.
- · Initial costs can be higher – the effort required to understand, apply and qualify for ZEB subsidies.
- · Very few designers or builders have the necessary skills or experience to build zebs.
- · Possible declines in future utility company renewable energy costs may lessen the value of capital invested in energy efficiency.
- · New photovoltaic solar cells equipment technology price has been falling at roughly 17% per year – It will lessen the value of capital invested in a solar electric generating system – Current subsidies will be phased out as photovoltaic mass production lowers the future price.
- · Challenge to recover higher initial costs on a resale of the building – appraisers are uninformed – their models do not consider energy.
- · Climate-specific design may limit future ability to respond to rising-or-falling ambient temperatures (global warming).
- · While the individual house may use an average of net-zero energy over a year, it may demand energy at the time when peak demand for the grid occurs. In such a case, the capacity of the grid must still provide electricity to all loads. Therefore, a ZEB may not reduce the required power plant capacity.
- · Without an optimized thermal envelope the embodied energy, heating and cooling energy and resource usage are higher than needed. ZEB by definition do not mandate minimum heating and cooling performance level thus allowing oversized renewable energy systems to fill the energy gap.
- · Solar energy capture using the house envelope only works in locations unobstructed from the South. The solar energy capture cannot be optimized in South facing shade or wooded surroundings.
ZERO ENERGY BUILDING VERSUS GREEN BUILDING
The goal of green building and sustainable architecture is to use resources more efficiently and reduce a building’s negative impact on the environment.
Zero energy buildings achieve one key green-building goal of completely or very significantly reducing energy use and greenhouse gas emissions for the life of the building.
Zero energy buildings may or may not be considered “green” in all areas, such as reducing waste, using recycled building materials, etc.
However, zero energy or net-zero buildings do tend to have a much lower ecological impact on the life of the building compared with other ‘green’ buildings that require imported energy and/or fossil fuel to be habitable and meet the needs of occupants.
Because of the design challenges and sensitivity to a site that are required to efficiently meet the energy needs of a building and occupants with renewable energy (solar, wind, geothermal, etc), designers must apply holistic design principles and take advantage of the free naturally occurring assets available, such as passive solar orientation, natural ventilation, daylighting, thermal mass, and nighttime cooling.
Many Green building certification programs do not require a building to have net-zero energy use, only to reduce energy use a few percentage points below the minimum required by law.
The Leadership in Energy and Environmental Design (LEED) certification developed by the U.S. Green Building Council, and Green Globes, involve checklists that are measurement tools, not design tools. Inexperienced designers or architects may cherry-pick points to meet a target certification level, even though those points may not be the best design choices for a specific building or climate.