CLNV (Clean Vision) Valuation Rank

Author: Vera Yuan Vera Yuan
Vera Yuan
Vera Yuan
Director of Data and Quant Analytics at GuruFocus
Focused on building reliable datasets, financial models, and research tools for value-minded investors. Committed to turning complex data into practical guidance for value-investing and long-term wealth.
Reviewed by: Charlie Tian Charlie Tian
Charlie Tian
Charlie Tian
Founder & CEO of GuruFocus
Dr. Charlie Tian is the founder and CEO of GuruFocus.com, a leading global investment research platform established in 2004. With a Ph.D. in physics, Dr. Tian transitioned from science to finance, applying a data-driven, disciplined approach to value investing.

What is Clean Vision Valuation Rank?

The Valuation Rank measures the current valuation of a business relative to other companies in the same industry and its own historical valuation. The companies are split in equal numbers and then ranked from 1 to 10, with 10 as the most undervalued and 1 as the most overvalued.

  1. Three factors:
    • Absolute valuation (medpsvalue) relative to current stock price, rank among all companies
    • Historical valuation over the past 10 years. Rank pe, ps, pocf, ev2ebit over their own historical values
    • Industry relative valuation
  2. Companies without enough data is not ranked
  3. Companies with negative earnings are ranked lower

These three factors are used to calculate the value score for every eligible company, with values from 1 to 10. The final ranked companies are split in equal numbers and ranked from 1 to 10, with 10 as the most undervalued, and 1 as the most overvalued. The numbers of companies in each rank are the same.


Clean Vision Valuation Rank Related Terms


Clean Vision Business Description

Address 2711 N. Sepulveda Boulevard, Suite 1051, Manhattan Beach, CA, USA, 90266
Clean Vision Corp is a new entrant in the clean energy and waste-to-energy industries focused on clean technology and sustainability opportunities. It is focused on providing a solution to the plastic waste problem by recycling the waste and converting it into saleable byproducts, such as hydrogen and other clean-burning fuels. Using a technology known as pyrolysis, which heats the feedstock at high temperatures in the absence of oxygen so that the material does not burn, It is able to turn the feedstock into (i) clean fuels, (ii) clean hydrogen and (iii) carbon black or char.