Hydrogen Truck Investment
Dolphyn.h2_truck_investment
— Methodh2_truck_investment(EP::Model, inputs::Dict, setup::Dict)
This function includes investment variables, expressions and related constraints for H2 trucks.
Variables
Truck capacity built and retired
\[\begin{equation*} 0 \leq v_{CAP,j}^{\textrm{H,TRU}} \end{equation*}\]
\[\begin{equation*} 0 \leq v_{RETCAP,j}^{\textrm{H,TRU}} \end{equation*}\]
\[\begin{equation*} 0 \leq v_{CAP,j}^{\textrm{H,TRU}} \end{equation*}\]
\[\begin{equation*} 0 \leq v_{NEWCAP,j}^{\textrm{H,TRU}} \end{equation*}\]
Constraints
Truck retirements cannot retire more charge capacity than existing charge capacity
\[\begin{equation*} v_{RETCAPNUM,j}^{\textrm{H,TRU}} \leq v_{ExistNum,j}^{\textrm{H,TRU}} \quad \forall j \in \mathbb{J} \end{equation*}\]
Truck compression energy cannot retire more energy capacity than existing energy capacity
\[\begin{equation*} v_{RETCAPEnergy,j}^{\textrm{H,TRU}} \leq v_{ExistEnergyCap,j}^{\textrm{H,TRU}} \quad \forall j \in \mathbb{J} \end{equation*}\]
Expressions
\[\begin{equation*} C_{\textrm{\textrm{H,TRU}}}^{\textrm{o}}=& \sum_{z \rightarrow z^{\prime} \in \mathbb{B}} \sum_{j \in \mathbb{J}} \sum_{t \in \mathbb{T}} \omega_t \textrm{~L}_{z \rightarrow z^{\prime}} \\ & \times\left(\textrm{o}_{j}^{\textrm{\textrm{H,TRU}}, \textrm{F}} y_{z \rightarrow z,{ }^{\prime} j, t}^{\textrm{F}}+\textrm{o}_{j}^{\textrm{\textrm{H,TRU}}, \textrm{E}} y_{z \rightarrow z,,^{\prime} j, t}^{\textrm{E}}\right) \end{equation*}\]