GHG Models

These models and simulations have been tagged “GHG”.

  ​Climate Sector Boundary Diagram By Guy Lakeman    Climate, Weather, Ecology, Economics, Population, Welfare, Energy, Policy, CO2, Carbon Cycle, GHG (green house gasses, combined effects)      As general population is composed of 85% with an education level of a 12 grader or less (a 17 year old),
​Climate Sector Boundary Diagram By Guy Lakeman
 Climate, Weather, Ecology, Economics, Population, Welfare, Energy, Policy, CO2, Carbon Cycle, GHG (green house gasses, combined effects)

As general population is composed of 85% with an education level of a 12 grader or less (a 17 year old), a simple block of components concerning the health of the planet needs to be broken down into simple blocks.
Perhaps this picture will show the basics on which to vote for a sustained healthy future
Democracy is only as good as the ability of the voters to FULLY understand the implications of the policies on which they vote., both context and the various perspectives.   National voting of unqualified voters on specific policy issues is the sign of corrupt manipulation.

This is step 4 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​  In this step we added the absorption of Sun Energy by the atmosphere via water vapor. 50% of this energy is radiated to Earth and 50% back into space.  We have mad
This is step 4 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​

In this step we added the absorption of Sun Energy by the atmosphere via water vapor. 50% of this energy is radiated to Earth and 50% back into space.

We have made a stock containing the IR that is going back to Earth.


With Our-Green-Spine we have discovered new insights how trees / forest / green structures are part of the managing system of controlling the temperature of our Earth via their cooling capacity by using water and influencing the water cycle. We want to translate our insights in a climate model. People who to join us please send an email to marcel.planb@gmail.com.
Thanks, Marcel de Berg
This is step 2 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​  In this step we divide the incoming energy from the sun to the land and to the oceaan.        With Our-Green-Spine we have discovered new insights how trees / fore
This is step 2 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​

In this step we divide the incoming energy from the sun to the land and to the oceaan.


With Our-Green-Spine we have discovered new insights how trees / forest / green structures are part of the managing system of controlling the temperature of our Earth via their cooling capacity by using water and influencing the water cycle. We want to translate our insights in a climate model. People who to join us please send an email to marcel.planb@gmail.com.
Thanks, Marcel de Berg
This is step 5 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​  In this step we added the reflection of sun energy by Clouds    Present the temperature of the Earth is 288 Kelvin. Without Earth would be 255 Kelvin. So the energ
This is step 5 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​

In this step we added the reflection of sun energy by Clouds 

Present the temperature of the Earth is 288 Kelvin. Without Earth would be 255 Kelvin. So the energy balance of the Earth add 33 Kelvin.

We optimize the variable GHG-effect and the optimal number is 0.29625 in this model.


With Our-Green-Spine we have discovered new insights how trees / forest / green structures are part of the managing system of controlling the temperature of our Earth via their cooling capacity by using water and influencing the water cycle. We want to translate our insights in a climate model. People who to join us please send an email to marcel.planb@gmail.com.
Thanks, Marcel de Berg
This is step 3 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​  In this step we added the reflection of the Earth by the Albedo effect.        With Our-Green-Spine we have discovered new insights how trees / forest / green stru
This is step 3 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​

In this step we added the reflection of the Earth by the Albedo effect.


With Our-Green-Spine we have discovered new insights how trees / forest / green structures are part of the managing system of controlling the temperature of our Earth via their cooling capacity by using water and influencing the water cycle. We want to translate our insights in a climate model. People who to join us please send an email to marcel.planb@gmail.com.
Thanks, Marcel de Berg
The global economy revolves around the burning of fossil fuels to supply energy. To reduce greenhouse gases in the atmosphere, there is a need to evaluate policies where demand for energy can be reduced or substituted with cleaner sources of energy.  This simple model illustrates the use of system d
The global economy revolves around the burning of fossil fuels to supply energy. To reduce greenhouse gases in the atmosphere, there is a need to evaluate policies where demand for energy can be reduced or substituted with cleaner sources of energy. 
This simple model illustrates the use of system dynamics models to simulate interactions between the energy and climate system.

This model is built for WK2 of CHNS class @NTU Singapore. 
This is step 5 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​  In the prevoious step we added the reflection of sun energy by Clouds     In this step we added aabsorption of near infrared by clouds and the biotic pump   Presen
This is step 5 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​

In the prevoious step we added the reflection of sun energy by Clouds 

In this step we added aabsorption of near infrared by clouds and the biotic pump

Present the temperature of the Earth is 288 Kelvin. Without Earth would be 255 Kelvin. So the energy balance of the Earth add 33 Kelvin.
We optimize in step 4 the variable GHG-effect and the optimal number is 0,29625 in this model.


With Our-Green-Spine we have discovered new insights how trees / forest / green structures are part of the managing system of controlling the temperature of our Earth via their cooling capacity by using water and influencing the water cycle. We want to translate our insights in a climate model. People who to join us please send an email to marcel.planb@gmail.com.
Thanks, Marcel de Berg
This is step 7 based on model 5 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​  In this step we added the PeTa-effect and the Atmosferic Window.    Present the temperature of the Earth is 288 Kelvin. Without Earth would be 255
This is step 7 based on model 5 in making a climate model based on our insights of how trees actively contribute to the cooling capcacity of the Earth.​

In this step we added the PeTa-effect and the Atmosferic Window. 

Present the temperature of the Earth is 288 Kelvin. Without Earth would be 255 Kelvin. So the energy balance of the Earth add 33 Kelvin.

We optimize the variable GHG-effect and the optimal number is 0.29625 in this model.


With Our-Green-Spine we have discovered new insights how trees / forest / green structures are part of the managing system of controlling the temperature of our Earth via their cooling capacity by using water and influencing the water cycle. We want to translate our insights in a climate model. People who to join us please send an email to marcel.planb@gmail.com.
Thanks, Marcel de Berg
  ​Climate Sector Boundary Diagram By Guy Lakeman    Climate, Weather, Ecology, Economics, Population, Welfare, Energy, Policy, CO2, Carbon Cycle, GHG (green house gasses, combined effects)      As general population is composed of 85% with an education level of a 12 grader or less (a 17 year old),
​Climate Sector Boundary Diagram By Guy Lakeman
 Climate, Weather, Ecology, Economics, Population, Welfare, Energy, Policy, CO2, Carbon Cycle, GHG (green house gasses, combined effects)

As general population is composed of 85% with an education level of a 12 grader or less (a 17 year old), a simple block of components concerning the health of the planet needs to be broken down into simple blocks.
Perhaps this picture will show the basics on which to vote for a sustained healthy future
Democracy is only as good as the ability of the voters to FULLY understand the implications of the policies on which they vote., both context and the various perspectives.   National voting of unqualified voters on specific policy issues is the sign of corrupt manipulation.

The global economy revolves around the burning of fossil fuels to supply energy. To reduce greenhouse gases in the atmosphere, there is a need to evaluate policies where demand for energy can be reduced or substituted with cleaner sources of energy.  This simple model illustrates the use of system d
The global economy revolves around the burning of fossil fuels to supply energy. To reduce greenhouse gases in the atmosphere, there is a need to evaluate policies where demand for energy can be reduced or substituted with cleaner sources of energy. 
This simple model illustrates the use of system dynamics models to simulate interactions between the energy and climate system.

This model is built for WK2 of CHNS class @NTU Singapore.