move up methanol for industry, to before shipping

scripts/prepare_sector_network.py

@@ -2679,73 +2679,7 @@ def add_industry(n, costs):
         p_set=industrial_demand.loc[nodes, "hydrogen"] / nhours,
     )
 
-    shipping_hydrogen_share = get(options["shipping_hydrogen_share"], investment_year)
-    shipping_methanol_share = get(options["shipping_methanol_share"], investment_year)
-    shipping_oil_share = get(options["shipping_oil_share"], investment_year)
-
-    total_share = shipping_hydrogen_share + shipping_methanol_share + shipping_oil_share
-    if total_share != 1:
-        logger.warning(
-            f"Total shipping shares sum up to {total_share:.2%}, corresponding to increased or decreased demand assumptions."
-        )
-
-    domestic_navigation = pop_weighted_energy_totals.loc[
-        nodes, "total domestic navigation"
-    ].squeeze()
-    international_navigation = (
-        pd.read_csv(snakemake.input.shipping_demand, index_col=0).squeeze() * nyears
-    )
-    all_navigation = domestic_navigation + international_navigation
-    p_set = all_navigation * 1e6 / nhours
-
-    if shipping_hydrogen_share:
-        oil_efficiency = options.get(
-            "shipping_oil_efficiency", options.get("shipping_average_efficiency", 0.4)
-        )
-        efficiency = oil_efficiency / costs.at["fuel cell", "efficiency"]
-        shipping_hydrogen_share = get(
-            options["shipping_hydrogen_share"], investment_year
-        )
-
-        if options["shipping_hydrogen_liquefaction"]:
-            n.madd(
-                "Bus",
-                nodes,
-                suffix=" H2 liquid",
-                carrier="H2 liquid",
-                location=nodes,
-                unit="MWh_LHV",
-            )
-
-            n.madd(
-                "Link",
-                nodes + " H2 liquefaction",
-                bus0=nodes + " H2",
-                bus1=nodes + " H2 liquid",
-                carrier="H2 liquefaction",
-                efficiency=costs.at["H2 liquefaction", "efficiency"],
-                capital_cost=costs.at["H2 liquefaction", "fixed"],
-                p_nom_extendable=True,
-                lifetime=costs.at["H2 liquefaction", "lifetime"],
-            )
-
-            shipping_bus = nodes + " H2 liquid"
-        else:
-            shipping_bus = nodes + " H2"
-
-        efficiency = (
-            options["shipping_oil_efficiency"] / costs.at["fuel cell", "efficiency"]
-        )
-        p_set_hydrogen = shipping_hydrogen_share * p_set * efficiency
-
-        n.madd(
-            "Load",
-            nodes,
-            suffix=" H2 for shipping",
-            bus=shipping_bus,
-            carrier="H2 for shipping",
-            p_set=p_set_hydrogen,
-        )
+    # methanol for industry
 
     n.madd(
         "Bus",
@@ -2825,6 +2759,74 @@ def add_industry(n, costs):
         efficiency3=-options["MWh_MeOH_per_MWh_H2"] / options["MWh_MeOH_per_tCO2"],
     )
 
+    shipping_hydrogen_share = get(options["shipping_hydrogen_share"], investment_year)
+    shipping_methanol_share = get(options["shipping_methanol_share"], investment_year)
+    shipping_oil_share = get(options["shipping_oil_share"], investment_year)
+
+    total_share = shipping_hydrogen_share + shipping_methanol_share + shipping_oil_share
+    if total_share != 1:
+        logger.warning(
+            f"Total shipping shares sum up to {total_share:.2%}, corresponding to increased or decreased demand assumptions."
+        )
+
+    domestic_navigation = pop_weighted_energy_totals.loc[
+        nodes, "total domestic navigation"
+    ].squeeze()
+    international_navigation = (
+        pd.read_csv(snakemake.input.shipping_demand, index_col=0).squeeze() * nyears
+    )
+    all_navigation = domestic_navigation + international_navigation
+    p_set = all_navigation * 1e6 / nhours
+
+    if shipping_hydrogen_share:
+        oil_efficiency = options.get(
+            "shipping_oil_efficiency", options.get("shipping_average_efficiency", 0.4)
+        )
+        efficiency = oil_efficiency / costs.at["fuel cell", "efficiency"]
+        shipping_hydrogen_share = get(
+            options["shipping_hydrogen_share"], investment_year
+        )
+
+        if options["shipping_hydrogen_liquefaction"]:
+            n.madd(
+                "Bus",
+                nodes,
+                suffix=" H2 liquid",
+                carrier="H2 liquid",
+                location=nodes,
+                unit="MWh_LHV",
+            )
+
+            n.madd(
+                "Link",
+                nodes + " H2 liquefaction",
+                bus0=nodes + " H2",
+                bus1=nodes + " H2 liquid",
+                carrier="H2 liquefaction",
+                efficiency=costs.at["H2 liquefaction", "efficiency"],
+                capital_cost=costs.at["H2 liquefaction", "fixed"],
+                p_nom_extendable=True,
+                lifetime=costs.at["H2 liquefaction", "lifetime"],
+            )
+
+            shipping_bus = nodes + " H2 liquid"
+        else:
+            shipping_bus = nodes + " H2"
+
+        efficiency = (
+            options["shipping_oil_efficiency"] / costs.at["fuel cell", "efficiency"]
+        )
+        p_set_hydrogen = shipping_hydrogen_share * p_set * efficiency
+
+        n.madd(
+            "Load",
+            nodes,
+            suffix=" H2 for shipping",
+            bus=shipping_bus,
+            carrier="H2 for shipping",
+            p_set=p_set_hydrogen,
+        )
+
     if shipping_methanol_share:
         efficiency = (
             options["shipping_oil_efficiency"] / options["shipping_methanol_efficiency"]