It's Time for You to Have
New Methods for Carbon De-Emission
This patented method involves using Chlorella Algae as natural de-emitters to absorb more CO2 into the soil.
Project
Meet the Nature Halfway
01.
Design
We intend to perform this project in the twenty-hectare rice paddies of Udayana University Agriculture School in Bali, Indonesia.
02.
Planting
Transform rice paddies into natural light photobioreactors that can efficiently cultivate Chlorella Algae.
03.
harvest
This project should be capable of de-emitting 412 tons of CO2 per hectare per year in these rice paddies.
Projection
Our Plan
We look to produce more than 6.6 thousand tons of Chlorella per year, capable of de-emitting close to 8.3 thousand tons of CO2e in the same area.
In ten years, this project should be able to remove 203 thousand tons of CO2. Nevertheless, these forecasts might change if Amphor works on larger hectares and with a heftier budget. However, the promise of this project makes this method one of the most efficient carbon de-emission initiatives out there.
What Is
Chlorella Algae
Single Cell
Chlorella is a single-celled alga with a high-temperature tolerance and can grow autotrophically and mixotrophically. Usually, Chlorella is present in open ponds and can grow at a rapid rate. According to numerous researchers, Chlorella can tolerate high amounts of CO2 and convert them into healthy oxygen-rich carbohydrates and lipids.
Common Applications
One of its most common applications is as a food and feed supplement as well as cosmetic products. And it possesses medical benefits, more precisely, Chlorella possesses anti-inflammatory, antioxidant, antimicrobial, and anticoagulant properties.
Superfood
People will need to break the strong cell wall of Chlorella to consume them and reap its health benefits. Usually, people consume Chlorella through powder, capsules, or tablets. Even taking just a small amount of it will allow its consumers to absorb most of its nutrients, making it a superfood.