Wood-Products Models

These models and simulations have been tagged “Wood-Products”.

This is a very simplistic model of the carbon stocks and flows for three wood products.  The time frame of simulation is 2010-2035, the time interval is 0.25. Consumption factors determine the increase in consumption of wood products (as inflows of kt carbon). The decay rate determines the half-life
This is a very simplistic model of the carbon stocks and flows for three wood products.
The time frame of simulation is 2010-2035, the time interval is 0.25.
Consumption factors determine the increase in consumption of wood products (as inflows of kt carbon).
The decay rate determines the half-life vallue of a wood products (as outflows of kt carbon).
The total carbon stock is the sum of all three wood products (in kt carbon)
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
Beta version of model to explore relationships among investments in forest harvest, forest restoration, wood products manufacturing, and fire risk on 4+ million acres of private forestland in the Western U.S.
This is a very simplistic model of the carbon stocks and flows for three wood products.  The time frame of simulation is 2010-2030, the time interval is 0.25. Consumption factors determine the increase in consumption of wood products (as inflows of kg carbon). The decay rate determines the half-life
This is a very simplistic model of the carbon stocks and flows for three wood products.
The time frame of simulation is 2010-2030, the time interval is 0.25.
Consumption factors determine the increase in consumption of wood products (as inflows of kg carbon).
The decay rate determines the half-life vallue of a wood products (as outflows of kh carbon).
The total carbon stock is the sum of all three wood products (in kg carbon)