Scientists at Rice University have devised an environmentally friendly way to take carbon dioxide and turn it into liquid fuel. The device uses a catalytic reactor to transform the greenhouse gas into formic acid which can be used in several ways.

Read here

First introduced in 2014, super cool materials reflect a broad spectrum of light, in much the same way as mirrors or white paint do. In the crucial 8–13-µm part of the infrared spectrum, however, they strongly absorb and then emit radiation. When the materials point at the sky, the infrared rays can pass straight through the atmosphere and into space. That effectively links the materials to an inexhaustible heat sink, into which they can keep dumping heat without it coming back. As a result, they can radiate away enough heat to consistently stay a few degrees cooler than surrounding air; research suggests that temperature differences could exceed 10 °C in hot, dry places. Paints, plastics and even wood can be engineered to stay cool in direct sunlight.

The future for use of super cool materials looks promising with several researchers and companies (SkyCool Systems, MetaRE, InventWood, etc) working on finding and improving upon them.

Read here

Microsoft has set for itself an ambitious plan to be carbon negative by 2030 and remove all historical carbon produced by the company by 2050. The company has launched an aggressive program to cut carbon emissions by more than half by 2030, from it entire supply and value chain. For this they have pledged an investment of $1 billion in carbon reduction and removal technology. It is very heartening to see Microsoft come forward, take responsibility and pledge to do their part in saving the environment. Hopefully, Amazon and Microsoft are just the start and more companies will follow suit.

Read here

The UN Department of Economic and Social Affairs (UN DESA) predicts that the absolute growth in urban population will be highest in India until 2050, and the Indian real estate and infrastructure industry is a key contributor to this growth. However, the environmental footprint of the Indian real estate industry is also mounting. Buildings in India account for majority of energy, water and land while generating substantial solid waste and water effluents. The sector is responsible for 24% of India’s annual CO2 emissions, contributing to global warming and poor air quality. It is therefore critical that India adopts a holistic and sustainable approach to real estate development.

Read here

Researchers from University of Exeter, England have developed a solar power device that fits into glass blocks. The product can broadly replace glass blocks used for a building’s façade, and transform the exteriors into energy-generating surfaces. Named as Solar Squared, the blocks absorb solar radiation using intelligent optics. These optics direct the sunlight onto the solar cells to generate electicity.  This electricity can then be stored in a battery system, supply energy to the building in real time, or be used to charge electric cars. Further, sufficient daylighting levels can be achieved due to the transparency of the blocks.

Read more

Achieving energy self-sufficiency for a 35,000 square foot building in a highly dense urban fabric is a formidable task, for which incorporating net-zero strategies cannot be an afterthought but ingrained in every design decision. The Unisphere is one of the world’s largest net-zero commercial building located in Silver Spring, Maryland, Washington DC. Some of the energy efficiency measures taken are: openable windows which automatically change tints depending on the weather conditions. Moreover, air circulates through a quarter mile-long concrete labyrinth 12 feet underneath the building, providing passive heating and cooling—the labyrinth tends to be cooler than the outdoor air in the summer and warmer in the winter. The building uses a geothermal system to condition the spaces in the summer and winter. Natural daylighting illuminate the spaces and artificial lighting is equipped with daylight controls. The energy is generated through 3000 solar panels.

Read more 

Aiming to study the socio-economic impact of energy conservation and create awareness on sustainable and renewable energy, Irumbai – a village in Tamil Nadu would soon become the country’s first fully solar-powered village. A 170kWp ground-mounted solar farm, established in 4,000 sq ft area in the village would supply 3-phased power for the entire village. The Tamil Nadu Energy Development Corporation (TEDA) plans to complete the work within March, 2019.  The unit has been designed to generate 150% of the actual power requirement of the village to ensure that the village is self-sustainable at all times.

Read more

How does a not-for-profit municipal utility that has committed to eliminate carbon from buildings ensure that its low and moderate income customers aren’t left behind during the transition? This was exactly what the Sacramento Municipal Utility District (SMUD) set out to do. Previously the utility company had launched the nation’s most aggressive initiatives under uts ‘All-Electric Smart Homes program’ to encourage all electric homes, offering incentives worth upto $5000 for each all-electric new single-family home.

For the low and moderate income households, SUTD outlined a goal of launching a full-fledged low-income electrification program within a year. Through this program, by the end of November, SMUD contractors had installed 105 air-source heat pumps, 13 heat pump water heaters and 10 induction stoves/ranges for low-income households across Sacramento. Further, a study revealed that considering the low electricity rates in California, customers in existing single-family homes who replace gas-burning furnaces and water heaters with electric air-source heat pumps and heat pump water heaters could save up to $750 annually. For customers in existing low-rise multifamily buildings, the shift could result in utility bill savings of around $300 annually.

Read more

Insipred by the Baya weaverbird’s nest, researchers at De Montfort University, Leicester (DMU) have developed a 3D-printed brick made out of plastic waste! Thermal insulation tests showed that the brick has a U-value of 0.25 Watts per metre Kelvin (W/m²K), which is 10 times more effective than a clay brick, which delivers an average of 2.94 W/m²K.

Read more

Branded as one of the worst performers in the Renewable energy (RE) sector, Netherlands is soon turning the tide! Comprising of almost 15 floating islands, more than 70,000 sun tracking solar panels are being built in Netherlands. This is going to be the world’s largest sun-seeking solar farm.The first phase of the project, involving three islands, each of which will be 140 meters in diameter, is due to be finished soon, once the migratory season for birds has come to an end.

Similar projects are underway in Japan, Chile & UK.

Read more

To propel the Net-Zero movement in India, the Bureau of Energy Efficiency (BEE) is conducting a feasibility analysis for 100 buildings across the country to achieve Net Zero Energy status. The typologies include educational institutions, healthcare, shopping complexes, hospitality, airports, and railway/metro stations. Moreover, the analysis will be conducted free of cost for the building owners.

As per the selection criteria, buildings should have a minimum built-up area of 5,000 square meters with the minimum connected load higher than 100 kW. The contract demand should be greater than 120 kVA or as specified by the state or union territory. Further, on conclusion of the analysis, EDS will generate a comprehensive report detailing out all the energy conservation measures to be undertaken by the building owners to achieve an NZEB facility. However, the buildings are not bound to follow these measures.

Read more 

Developed by Founder Cody Friesen, a materials scientist and associate professor at Arizona State University, a solar panel system can generate drinking water sufficient for 2 to 3 people, even in arid conditions. The solar panel converts sunlight to energy, which heats the material inside and creates condensation. Water collects in a 30-liter reservoir which is placed below the panels. Minerals are added to improve taste. Then the water is pumped directly to a household tap or a refrigerator’s fill station.

Read more: