Ambee introduces Greenhouse Gas API to Monitor Hyperlocal Emissions

Ambee, a climate intelligence firm that provides real-time environmental and climate data, has launched a greenhouse gas API to track emissions at the hyperlocal level. Businesses, government bodies, administrators, and ESG stakeholders can easily obtain near real-time data for greenhouse gas (GHG) emissions in their immediate vicinity using Ambee’s API.

Greenhouse gases have been present in the atmosphere at relatively stable levels for thousands of years, prior to the development of industrial processes. Greenhouse gas levels have risen at an unprecedented rate since industrialization. The greenhouse effect has been exacerbated by the sudden increase in GHG concentrations, pushing it beyond its natural limits. Increased greenhouse gas emissions trap heat in the atmosphere, causing climate change.

Rising temperatures increase the frequency and intensity of extreme weather events such as heatwaves, floods, forest fires, etc. The only way to minimize these events is by reducing greenhouse gas emissions. To do so, the first step is to be aware of how much we emit. Ambee’s greenhouse gas API helps businesses quantify emissions and alert their customers about the level of emissions in their surroundings.

User can understand the greenhouse gas levels

A user can understand the greenhouse gas levels in the atmosphere at specific geo-coordinates using Ambee’s GHG API. It provides information on carbon dioxide (CO2), water vapour, methane (CH4), and ozone in addition to global daily coverage of greenhouse gas data (O3).

Commenting on the new launch, Chandrashekar D, VP of Engineering, Ambee, said, “Countries across the globe have been reporting emissions data for decades. However, there are still a lot of gaps in terms of access to the right data and the expertise required to quantify emissions. There is a large unmet need for accurate and hyperlocal GHG data on a global scale. Our goal is to address this need through our GHG API.”

“Ambee uses raw data from multiple earth observational satellites, which we then combine with insights from our on-ground sensors. These insights are generated from our learnings collected from the proprietary devices we’ve deployed in Mumbai. These proprietary devices deployed in various critical locations across Mumbai are the foundation of the research that backs Ambee’s GHG API”, Chandrashekar adds.

Cases of Ambee’s Greenhouse Gas API Use

Ambee’s GHG API can be used by global corporations, institutions, and governments to implement domestic policies related to greenhouse gas emissions management. The data can be used to establish GHG reduction targets in various departments.

GHG data can also be used by businesses to assess their climate risks and opportunities. The GHG dataset can assist businesses in tracking and comparing their internal greenhouse gas emissions, as well as identifying opportunities to reduce pollution, reduce energy waste, and save money. Cities can use Ambee’s GHG API to identify high-emitting areas in a given region, compare data from similar facilities, and develop unified climate policies.

Avatar photo

Dr. Kirti Sisodhia

Content Writer

CATEGORIES Business Agriculture Technology Environment Health Education

info@seepositive.in
Rishita Diwan – Chief editor

8839164150
Rishika Choudhury – Editor

8327416378

email – hello@seepositive.in
Office

Address: D 133, near Ram Janki Temple, Sector 5, Jagriti Nagar, Devendra Nagar, Raipur, Chhattisgarh 492001

FOLLOW US

GET OUR POSITIVE STORIES

Uplifting stories, positive impact and updates delivered straight into your inbox.

You have been successfully Subscribed! Ops! Something went wrong, please try again.
CATEGORIES Business Agriculture Technology Environment Health Education

SHARE YOUR STORY

info@seepositive.in

SEND FEEDBACK

contact@seepositive.in

FOLLOW US

GET OUR POSITIVE STORIES

Uplifting stories, positive impact and updates delivered straight into your inbox.

You have been successfully Subscribed! Ops! Something went wrong, please try again.