Study outlines five thermal energy grand challenges for decarbonization

Posted on August 14, 2020 by Rashid Faridi

Only five ‘grand’ challenges? Better be quick — we keep hearing there’s supposed to be a climate emergency on. Yes, throw out existing successful energy solutions when there’s nothing of equivalence to replace them with. Then wonder what to do next, while muttering about climate change. Great plan! Or maybe not.
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Solar and wind power are an important part of solving the problem of climate change, but these renewable technologies on their own probably will never provide the energy for many industrial processes, like making steel, reports TechXplore.

Approximately 90 percent of the world’s energy use involves generation or manipulation of heat, including the cooling of buildings and food.

Maintaining modern economies and improving life in developing economies while mitigating climate change will require five major advances in how we convert, store and transmit thermal energy, according to a new paper in Nature Energy from Stanford University, Massachusetts Institute of Technology and Lawrence Berkeley National Laboratory.

“Modern renewable technologies are the most inexpensive source of electricity we have today, but solar and wind power are intermittent and account for a small percentage of the world’s energy,” said Arun Majumdar, one of three co-authors and a Stanford professor of mechanical engineering. “We need to increase this percentage, but we also must decarbonize heat and use heat to store electricity from solar and wind.”

The analysis underscores the urgent need to research and develop thermal technology breakthroughs that potentially could reduce greenhouse gas emissions by at least one gigaton, which is about 3 percent of annual energy-related GHG emissions globally.

“We as a species are endangering ourselves with the infrastructure we have erected to improve our quality of life,” said co-author Asegun Henry, associate professor of mechanical engineering at MIT. “There are a few instances in history when scientists and engineers have come together and achieved something very remarkable in very short timeframes. This must be one of those times.”

Heat as energy storage

One major challenge in thermal engineering is to store excess wind and solar power as heat energy over multiple days and then convert it back into electricity when needed.

The full decarbonization of electricity would reduce man-made, global GHG emissions by about a fourth. Getting 70 percent or more of our electricity from intermittent renewables will require massive additions of electricity storage.

Expanding the most common current technology, pumped hydroelectric storage, is limited by geography, and lithium-ion batteries are too expensive for storing excess renewable power over multiple days.

Full report here.

via Study outlines five thermal energy grand challenges for decarbonization

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The Economic Costs of Climate Change

Posted on August 11, 2020 by Rashid Faridi

…….Because climate change has been and will certainly continue to be variable across the globe, the economic consequences are likewise variable. Some regions are likely to experience a net benefit in many respects, while others are likely to suffer much more serious changes that pose great economic threats. Warming in some areas might lead to a gain in some sectors of the economy, while in others areas, warming might cause a significant economic loss in that same sector. Our goal in this section is to get a sense of what these costs are on a global basis, without losing sight of the fact that the story varies from region to region…..

read here 

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Mango: The King of Fruits

Posted on August 9, 2020 by Rashid Faridi

Hiuen Tsang, Chinese scholar after being in India is going back. Time AD 627-643, on the fabled Silk Route. Apart from his knowledge of Buddhism, his rucksack contains an extraordinary fruit called Mango. 395 more words

via Mango : The King of Fruits — Free Thoughts by Ranjit Singh

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Resilience of Cities

Posted on August 5, 2020 by Rashid Faridi

 

Urban resilience has conventionally been defined as the “measurable ability of any urban system, with its inhabitants, to maintain continuity through all shocks and stresses, while positively adapting and transforming towards sustainability”.Therefore, a resilient city is one that assesses, plans, and acts to prepare for and respond to hazards – natural and human-made, sudden and slow-onset, expected and unexpected. Resilient Cities are better positioned to protect and enhance people’s lives, secure development gains, foster an investible environment, and drive positive change.

Climate Resilience is not about making development in a new way. It is about adding climate variability and change considerations to the planning and development framework to ensure long term sustainability and preparedness towards climate change

A resilience building process entails strengthening of:

  • City systems (Infrastructure, services, sectors) – drainage, water supply, transport, health facilities etc.
  • City planning (development norms, land-use planning)

How are climate-resilient cities different or better?

A resilient city is one that has developed capacities to help absorb future shocks and stresses, so as to maintain the same functions, structures, systems, and identity.

Climate-resilient cities have the capability to reduce and manage the negative impacts of climate change because these cities have planned and factored these changes in their development goals and planning by:

  • Utilizing climate information (of past and future) to identify climate stressors typical to their cities/regions.
  • Preparing and implementing strategies to reduce the vulnerability of population and city systems.
  • Adapting to change, preparing, and responding to disasters, mitigating GHG emissions.

Source(s): TERI

Wikipedia

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