Ten international projects highlighting low-energy building construction opportunities

Low-energy buildings “can make communities more resilient to climate change,” says author Yared Green. Here are ten examples of low energy buildings from Good Energy-Renewable Energy and Daily Life Design.


Following a recent IPC climate report, attention has been drawn to the impact of emitting emissions on buildings, with the area estimated to be responsible for about 40 percent of global CO2 emissions.

The 35 projects presented in the Green Book are designed to show that energy-efficient and low-emission buildings with low CO2 emissions are well designed and affordable.

“Low-energy buildings combine photovoltaic panels, energy efficiency systems, and all electrical systems, so they are critical to keeping us away from fossil fuels,” Green told Dessen.

“These buildings are very healthy for people and the planet and will significantly reduce energy costs in the long run,” he added.

You can enable new connections to the power grid by decentralizing power systems such as extreme storms and hurricanes and more dangerous floods, heat waves and wildfires.

Read Green to select ten low energy projects from the book:


Zero Carbon House, Birmingham

Zero Carbon House, Birmingham, United Kingdom

“Architect John Christopher has remodeled one of the most durable houses in England.

“The house is now energy-positive, generating more energy than it used to be.

Christopher lined the entire structure to prevent air and heat from escaping and to mix red mud from the basement of the house.


Bellfield Town Houses

Belffield Town Houses, Philadelphia, USA

In the Logan neighborhood of North Philadelphia, constructive onion apartments designed three 1,920 square feet (178 square meters) of urban housing.

“This is the first public housing project to be built in North Philadelphia in five decades, and the first certified pacific house project to be built in Philadelphia. Each townhouse was built in just three months at a local factory at a cost of $ 249,000.

Practical city houses filter out overcrowded walls, triangular windows, and a heat pump that draws in fresh air, then heat or cool the interior efficiently. Each house has a five-kilowatt roof with photovoltaic panels.

“If tenants stay within their set energy budget, city houses will consume zero energy. If they use more, they will produce more energy than photovoltaic panels.”


Trent Basin

Trent Basin, Nottingham, United Kingdom

“With the help of photovoltaic panels, a 2.1-megawatt Tesla battery and advanced energy management software, the Trent Basin community has been able to generate and store its own energy by feeding directly to the UK grid. The community takes shape from the local Red Brick Factory from Nottingham.

“By connecting to the grid, the community power system for more than 100 homes can sell the energy generated on site, sell stored energy when demand is high and store excess energy when the demand is low.

A.D. As the 2018 power systems go online, the community’s photovoltaic panels generate 310,000 kilowatt-hours of renewable energy and save 110 tons of carbon emissions.


SMA ECO City

SMA x ECO Town Harumidai, Sakai City, Japan

“One of Japan’s largest homebuilders, Dawawa Industrial Company has shifted its focus to more developed communities that produce more energy than they used to. The project, which includes 65 houses since 2017, has generated 427 megawatts of renewable energy, 15 percent. More than used.

“This has reduced carbon emissions by 95 percent.

Homeowners use the company’s proprietary home-energy management system, which automatically converts energy into storage and uses it at night to track how much energy they generate and use.

“Each family’s contribution to the energy-saving effort is reflected in the standards. High-level households receive points that can be used for electric vehicle sharing services.”


UC Davis West Village

UC Davis West Village, Davis, USA

At 224 hectares (90 hectares), this project is one of the largest sustainable communities in the United States. Nearly 663 zero-energy mixed-use buildings are powered by photovoltaic panels on the roof and accommodate 3,000 students, teachers and staff.

“The development will encourage low carbon emissions. The SWA team, which has led the planning, design and implementation stages of landscaping, has built on the campus culture to create a bicycle-first transportation system.”

Bicycle parking was conveniently integrated into building squares and public spaces, and parking was moved to remote areas to further enhance cycling and walking.


The enduring city

Permanent City, Dubai, United Arab Emirates

“This 114-hectare low carbon plant created by diamond builders is home to 3,000 people from 64 countries. The developers have taken a holistic approach to sustainability by designing a community that can produce its own food, conserve water and reuse it. The average energy consumption of photovoltaic energy on the roof is combined with energy saving measures.

Solar panels in both homes and condominiums generate 1.7 GW of renewable energy each year. The total growth is estimated to be equivalent to 8,500 tons of carbon dioxide per year.


SDE 4, Singapore

SDE4 at the National University of Singapore, Singapore

Inspired by the region’s light wooden houses, the building is characterized by deep overlapping, high platforms and open rooms that allow constant cross-section air.

“A team including Seri Architects, Multi-Architects and Surban and Jurong have developed this native approach to the Singapore National University in a 6,940-square-foot (8,588-square-foot) six-story building.

“SDE 4 is Singapore’s first zero-power building. Covered with photovoltaic panels, the building has a capacity of 500 megawatts and more than half of the building is open to the environment and filled with natural air.

“In the classrooms that need cooling, 36 to 56 per cent of the energy consumption in the conventional building in Singapore has been added along with the ceiling fans.


School in Port, Switzerland

School in Port, Port, Switzerland

The roof of this kindergarten and elementary school in Port, a small town in BEL, holds 1,110 photovoltaic panels with a maximum power output of up to 300 kW. According to designer scope architects, the school has not only itself but also 50 surrounding houses.

“Wood is the main building material. Wood is used in all facades and interiors, ”said Scope’s partner Martin Zimmerley.

As a result, the school can be seen as a large carbon sink. All the wood comes from sustainable forest development.


Council 2, Australia

Council 2, Melbourne, Australia

The 134,500-square-foot (12,450-square-foot) CH2, government office building, designed by architect Mick Perseus and the Australian building company Design Ink, is designed to work as an ecosystem. ‘

“CH2 has reduced greenhouse gas emissions by 87 percent and reduced energy and water use by 60 percent compared to conventional Melbourne office buildings.

The western view of this highly responsive building is scheduled to monitor solar activity. In winter, reusable wooden doors open in the light, in the afternoon sun, the doors close.


Bull Center

Bull Center, Seattle, Washington, USA

“This energy-negative building is designed in partnership with Miller Hall, with the goal of becoming the world’s most sustainable commercial building.

“The main structure of the building is designed to last for 250 years more than the current 40-50 years for commercial buildings. In terms of the amount of carbon in them, durable buildings are very durable.

“The Bulletin Center already stores 600 tons of carbon dioxide in a structural wooden frame and uses only 25 percent of the energy used by Seattle’s conventional building.

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