Esempio n. 1
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    def grow_drop_data(self, years, frequency, load_growth):
        """ Adds data by growing the given data OR drops any extra data that
        might have slipped in. Update variable that hold timeseries data
        after adding growth data. These method should be called after
        add_growth_data and before the optimization is run.

        Args:
            years (List): list of years for which analysis will occur on
            frequency (str): period frequency of the timeseries data
            load_growth (float): percent/ decimal value of the growth rate of
                loads in this simulation

        """
        super().grow_drop_data(years, frequency, load_growth)
        if self.u_ts_constraints:
            self.regu_max = Lib.fill_extra_data(self.regu_max, years, 0,
                                                frequency)
            self.regu_max = Lib.drop_extra_data(self.regu_max, years)

            self.regu_min = Lib.fill_extra_data(self.regu_min, years, 0,
                                                frequency)
            self.regu_min = Lib.drop_extra_data(self.regu_min, years)

        if self.d_ts_constraints:
            self.regd_max = Lib.fill_extra_data(self.regd_max, years, 0,
                                                frequency)
            self.regd_max = Lib.drop_extra_data(self.regd_max, years)

            self.regd_min = Lib.fill_extra_data(self.regd_min, years, 0,
                                                frequency)
            self.regd_min = Lib.drop_extra_data(self.regd_min, years)
Esempio n. 2
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    def grow_drop_data(self, years, frequency, load_growth):
        """ Adds data by growing the given data OR drops any extra data that might have slipped in.
        Update variable that hold timeseries data after adding growth data. These method should be called after
        add_growth_data and before the optimization is run.

        Args:
            years (List): list of years for which analysis will occur on
            frequency (str): period frequency of the timeseries data
            load_growth (float): percent/ decimal value of the growth rate of loads in this simulation

        """
        # timeseries data
        self.system_load = Lib.fill_extra_data(self.system_load, years,
                                               load_growth, frequency)
        self.system_load = Lib.drop_extra_data(self.system_load, years)

        if 'active hours' in self.idmode:
            self.active = Lib.fill_extra_data(self.active, years, 0, frequency)
            self.active = Lib.drop_extra_data(self.active, years)
            self.active = self.active == 1

        # monthly data
        self.capacity_rate = Lib.fill_extra_data(self.capacity_rate, years, 0,
                                                 'M')
        self.capacity_rate = Lib.drop_extra_data(self.capacity_rate, years)
Esempio n. 3
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 def grow_drop_data(self, years, frequency, load_growth):
     if self.site_thermal_load_exists:
         self.site_steam_load = Lib.fill_extra_data(self.site_steam_load,
                                                    years, load_growth,
                                                    frequency)
         self.site_steam_load = Lib.drop_extra_data(self.site_steam_load,
                                                    years)
         self.site_hotwater_load = Lib.fill_extra_data(
             self.site_hotwater_load, years, load_growth, frequency)
         self.site_hotwater_load = Lib.drop_extra_data(
             self.site_hotwater_load, years)
Esempio n. 4
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 def grow_drop_data(self, years, frequency, load_growth):
     if self.site_hotwater_load is not None:
         self.site_hotwater_load = Lib.fill_extra_data(
             self.site_hotwater_load, years, load_growth, frequency)
         self.site_hotwater_load = Lib.drop_extra_data(
             self.site_hotwater_load, years)
     if self.site_steam_load is not None:
         self.site_steam_load = Lib.fill_extra_data(self.site_steam_load,
                                                    years, load_growth,
                                                    frequency)
         self.site_steam_load = Lib.drop_extra_data(self.site_steam_load,
                                                    years)
Esempio n. 5
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    def grow_drop_data(self, years, frequency, load_growth):
        """ Adds data by growing the given data OR drops any extra data that might have slipped in.
        Update variable that hold timeseries data after adding growth data. These method should be called after
        add_growth_data and before the optimization is run.

        Args:
            years (List): list of years for which analysis will occur on
            frequency (str): period frequency of the timeseries data
            load_growth (float): percent/ decimal value of the growth rate of loads in this simulation

        """
        self.energy_req = Lib.fill_extra_data(self.energy_req, years, 0,
                                              frequency)
        self.energy_req = Lib.drop_extra_data(self.energy_req, years)
        self.monthly_energy = Lib.fill_extra_data(self.monthly_energy, years,
                                                  0, 'M')
        self.monthly_energy = Lib.drop_extra_data(self.monthly_energy, years)
        self.price = Lib.fill_extra_data(self.price, years, 0, 'M')
        self.price = Lib.drop_extra_data(self.price, years)
Esempio n. 6
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    def grow_drop_data(self, years, frequency, load_growth):
        """ Update variable that hold timeseries data after adding growth data. These method should be called after
        add_growth_data and before the optimization is run.

        Args:
            years (List): list of years for which analysis will occur on
            frequency (str): period frequency of the timeseries data
            load_growth (float): percent/ decimal value of the growth rate of loads in this simulation


        """
        # timeseries data
        self.system_load = Lib.fill_extra_data(self.system_load, years,
                                               load_growth, frequency)
        self.system_load = Lib.drop_extra_data(self.system_load, years)

        self.months = Lib.fill_extra_data(self.months, years, 0, frequency)
        self.months = Lib.drop_extra_data(self.months, years)

        self.cap_commitment = Lib.fill_extra_data(self.cap_commitment, years,
                                                  0, frequency)
        self.cap_commitment = Lib.drop_extra_data(self.cap_commitment, years)

        # monthly data
        self.cap_monthly = Lib.fill_extra_data(self.cap_monthly, years, 0, 'M')
        self.cap_monthly = Lib.drop_extra_data(self.cap_monthly, years)

        self.cap_price = Lib.fill_extra_data(self.cap_price, years, 0, 'M')
        self.cap_price = Lib.drop_extra_data(self.cap_price, years)

        self.ene_price = Lib.fill_extra_data(self.ene_price, years, 0, 'M')
        self.ene_price = Lib.drop_extra_data(self.ene_price, years)
Esempio n. 7
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 def grow_drop_data(self, years, frequency, load_growth):
     if self.site_cooling_load is not None:
         self.site_cooling_load = Lib.fill_extra_data(
             self.site_cooling_load, years, load_growth, frequency)
         self.site_cooling_load = Lib.drop_extra_data(
             self.site_cooling_load, years)