What are the tools we have to solve for climate change?
This article is about climate crisis in India and how to prevent it from happening
Our progress-at-all-cost journey has today brought us to the verge of a climate catastrophe. The climate isn't just a change of temperature; it's triggering a chain reaction of events with disastrous repercussions and we need to act now. This means we need a framework for development that increases accountability for our impact on the ecosystem as well as supports progress with a non-extractive and decarbonized approach.
Solving climate change has no silver bullet solution; it’s highly unlikely that we can invent our way out of it. For effective climate action, it needs to cross-cut technology with policy, politics, finance as well and the larger cultural movement. Technology here becomes an enabler, a flywheel of sorts that brings momentum to collective action and drives the integration of sustainable approaches into our economic system.
A closer look at our systems and processes, we find certain categories that are more extractive and carbon-heavy than others, such as;
The way we power stuff; from entire cities to our phones, how these are powered
The way we move stuff; the logistics of people, goods, and resources
The way we make and grow stuff; from how we make food to how we make our buildings
In this article, we will look into a few tools we presently have to make the way we do these things better.
Powering our world better;
Going Macro - Clean power for the entire grid
A grid-connected system allows you to power your home or store with renewable energy when the sun is shining, the water is running, or the wind is blowing (daily and seasonally). Any excess energy you generate is fed back into the grid. When renewable resources are unavailable, electricity from the grid meets your needs, saving you the cost of energy storage devices such as batteries.
Powering Local - Microgrids
Microgrids are localized collections of power generation and storage systems that can operate independently or in tandem with the traditional grid. Microgrids are used as backup while the main grid is down or in places where grid power is not available, as well as serve as support to the grid for faster response and recovery.
Storing Clean Power
Power from renewables such as wind and solar can be erratic and intermittent. Therefore we need better ways to store this power when the sun is shining and the wind is blowing, and to make that stored power available to use when its night or if the wind stops.
Home Batteries: These are integrated battery systems installed within your home that store solar energy from your panels, delivering power even at night or if the grid goes down.
Dams-as-Storage: This is pretty ingenious; when there is surplus power available, that extra power is used to pump water back into hydropower dams, and when needed, these dams release water to generate power, functioning as a massive battery.
Vehicle to Grid (V2G): Electric vehicles are essentially batteries on wheels. And as more EVs roll out, we essentially have large storage systems available. V2G technology allows energy to be pushed back to the power grid from an electric car's battery. So now, these cars can potentially be charged and discharged as per demand, cost of power, and requirement.
Virtual Grid: A virtual Grid takes the ideas discussed above to the next level; Instead of the typical way where the grid connects one large power station to many homes, a Virtual Grid connects all the renewables to all the storage available to all the places that need power, making solar on your home and power stored in your neighbor’s vehicle to the factory down the lane, all part of the grid. Better yet, you get paid for the power from your solar and for using your batteries to store them
Making our stuff better;
Better ways to make food
Precision Agriculture: This is a farm management method that employs information technology to ensure that crops and soil receive precisely what they require for optimal health and productivity. Precision Agriculture aims to be sustainable while also lowering costs.
Switching out of animal agriculture; Growing animals for meat and dairy is not only morally unethical to fellow living beings, but also has a massive impact on climate, as most land use and food production is done to support livestock as well as they emit vast amounts of methane.
Plant-Based Meats and Milk: resemble animal meat and dairy but are made from plant cultures. Newer products have been successful in mimicking its taste, texture, smell, and appearance.
Use of GMOs to reduce fertilizer pollution: There are very high chances of loss of crops like corn, cocoa, and coffee due to extreme climatic conditions such as drought, floods, and excessive pests. Meanwhile, modified crops could use less of polluting fertilizers and help crops withstand these disruptions by providing pest-resistant, drought-resistant, or saltwater-resistant genes that can resist saltwater intrusion from rising sea levels
Better Construction Material:
Cement and steel production not only takes a lot of power but also needs carbon for its process, making decarbonization tricky. Some ways of making these materials are to capture the carbon as soon as they are made or to inject the carbon back into the product, making them ‘carbon sinks’. Some interesting ideas are panning out for the first part; capturing carbon, where applications like Direct Air Capture of carbon are proving to be useful.
Moving people and stuff better;
Individual Transportation
Electrification of the mobility sector can result in increased energy efficiency and lower local pollution. In India, while there is a high level of participation from both 2 and 4-wheeler segments, surprisingly the EV revolution is led by three-wheelers (rickshaws). In May, the number of new electric three-wheelers (e3w) sold in the country increased significantly, rising from 50% in each of the three months until April 2022 to 56% overall.
Public Transportation
As cities strive to reduce tailpipe emissions, the trend toward electrifying city-wide transportation is gaining momentum. Electric buses and trains are being introduced in almost all the big cities around the world. Beyond benefitting climate action, electric mobility can produce more power than their diesel counterparts and even more short-term surge power for fast acceleration, ideal for city use. Cities also benefit from reduced noise and pollution.
Battery swapping
To address the long charging times that hinder EV adoption, some vehicle manufacturers are now opting for swappable batteries. In this case, when the vehicle is running low on power, much like how gas cars head to a petrol station, EVs go to a battery station to swap their old batteries for new ones, reducing the time to get going by a considerable margin.
To wrap it up, we have the tools and solutions to address the carbon impact of some of the biggest segments in our economy. And better tools are on their way as climate action gets the much-needed spotlight and demand from consumers. That being said, perhaps the best tools to combat climate change are the ones that we already have; To be non-extractive begins with using less stuff and using the stuff we have for longer. Also, climate change is not a solution technology alone could solve. Being able to collect and organize ourselves and our peers is highly important and technology could play the role of enabler; through our online communities, awareness, and education and by making things more transparent. Transparency not just into products and corporations, but also into campaign missions of our elected officials and their policies towards climate.