コード例 #1
0
ファイル: FlowManager.cs プロジェクト: KifoPL/NetSecBHL
        static HourlyData TypeB(Weather.WeatherData weatherData)
        {
            HourlyData hourlyData = new HourlyData();

            hourlyData.DateTime = weatherData.TimeStamp;


            float powerUsage    = getHourlyPowerUsage(weatherData);
            float rawpowerUsage = powerUsage;

            powerUsage    /= 5;
            rawpowerUsage += WaterHeating.PowerUsage(weatherData.TimeStamp);
            powerUsage    += WaterHeating.PowerUsage(weatherData.TimeStamp);
            float powerProvidedByPhotovoltaics = PhotovoltaicsEfficiencyData.getPhotovoltaicsPower(weatherData.TimeStamp, weatherData.GetSunlightEnum(weatherData.Sunlight));

            hourlyData.PowerUsage.Generated = powerProvidedByPhotovoltaics;
            hourlyData.PowerUsage.Used      = powerUsage;
            hourlyData.PowerUsage.calculateTotal();

            if (powerProvidedByPhotovoltaics > powerUsage)
            {
                hourlyData.Price.cost   = 0;
                hourlyData.Price.income = (int)(EnergyPriceListData.getEnergyPrice(Calendar.WhatDay(weatherData.TimeStamp), weatherData.TimeStamp).income *(powerProvidedByPhotovoltaics - powerUsage));
                hourlyData.Price.calculateTotal();
            }
            else
            {
                float missingPower = powerUsage - powerProvidedByPhotovoltaics;
                hourlyData.Price.income = 0;
                hourlyData.Price.cost   = (int)(EnergyPriceListData.getEnergyPrice(Calendar.WhatDay(weatherData.TimeStamp), weatherData.TimeStamp).cost *missingPower);
            }
            hourlyData.OptimalCostType = Workflow.TypeB;
            hourlyData.PowerUsage.Used = rawpowerUsage;
            return(hourlyData);
        }
コード例 #2
0
ファイル: FlowManager.cs プロジェクト: KifoPL/NetSecBHL
        /// <summary>
        /// braki w mocy chwilowej automatycznie uzupełniane są z sieci
        /// nadmiar wykorzystywany jest do doładowania akumulatora
        /// </summary>
        static HourlyData TypeA(Weather.WeatherData weatherData)
        {
            HourlyData hourlyData = new HourlyData();

            hourlyData.DateTime = weatherData.TimeStamp;


            float powerUsage    = getHourlyPowerUsage(weatherData);
            float rawpowerUsage = powerUsage;

            powerUsage    /= 5;
            rawpowerUsage += WaterHeating.PowerUsage(weatherData.TimeStamp);
            powerUsage    += WaterHeating.PowerUsage(weatherData.TimeStamp);

            float powerProvidedByPhotovoltaics = PhotovoltaicsEfficiencyData.getPhotovoltaicsPower(weatherData.TimeStamp, weatherData.GetSunlightEnum(weatherData.Sunlight));

            hourlyData.PowerUsage.Generated = powerProvidedByPhotovoltaics;
            hourlyData.PowerUsage.Used      = powerUsage;
            hourlyData.PowerUsage.calculateTotal();

            if (powerProvidedByPhotovoltaics > powerUsage)
            {
                hourlyData.Price.cost = 0;
                float PowerCellCharging = Math.Min(hourlyData.PowerUsage.Total, PowerCell.MaxChargingSpeed);
                if (PowerCell.CurrentCharge + PowerCellCharging <= PowerCell.MaxCharge)
                {
                    PowerCell.addCharge(PowerCellCharging);
                    if (PowerCell.MaxChargingSpeed < hourlyData.PowerUsage.Total)
                    {
                        hourlyData.Price.income = (int)(EnergyPriceListData.getEnergyPrice(Calendar.WhatDay(weatherData.TimeStamp), weatherData.TimeStamp).income *(hourlyData.PowerUsage.Total - PowerCell.MaxChargingSpeed));
                    }
                }
                else
                {
                    hourlyData.Price.income = (int)(EnergyPriceListData.getEnergyPrice(Calendar.WhatDay(weatherData.TimeStamp), weatherData.TimeStamp).income *(PowerCell.CurrentCharge + hourlyData.PowerUsage.Total - PowerCell.MaxCharge));
                }
                hourlyData.Price.calculateTotal();
            }
            else
            {
                float missingPower = powerUsage - powerProvidedByPhotovoltaics;
                hourlyData.Price.income = 0;
                hourlyData.Price.cost   = (int)(EnergyPriceListData.getEnergyPrice(Calendar.WhatDay(weatherData.TimeStamp), weatherData.TimeStamp).cost *missingPower);
            }
            hourlyData.OptimalCostType = Workflow.TypeA;
            hourlyData.PowerUsage.Used = rawpowerUsage;
            return(hourlyData);
        }
コード例 #3
0
ファイル: FlowManager.cs プロジェクト: KifoPL/NetSecBHL
        static HourlyData TypeD(Weather.WeatherData weatherData)
        {
            // Energia produkowana przez zestaw fotowoltaiczny ZAWSZE jest zużywana na potrzeby domu
            // + energia zgromadzona w akumulatorze zużywane są na potrzeby domu,
            // niedobór pobierany jest z sieci
            HourlyData hourlyData = new HourlyData();

            hourlyData.DateTime = weatherData.TimeStamp;

            float powerUsage    = getHourlyPowerUsage(weatherData);
            float rawpowerUsage = powerUsage;

            powerUsage    /= 5;
            rawpowerUsage += WaterHeating.PowerUsage(weatherData.TimeStamp);
            powerUsage    += WaterHeating.PowerUsage(weatherData.TimeStamp);
            float powerProvidedByPhotovoltaics = PhotovoltaicsEfficiencyData.getPhotovoltaicsPower(weatherData.TimeStamp, weatherData.GetSunlightEnum(weatherData.Sunlight));

            if (powerUsage > powerProvidedByPhotovoltaics)
            {
                if (powerUsage - powerProvidedByPhotovoltaics - Math.Min(PowerCell.MaxUsageCharge, PowerCell.CurrentCharge) <= 0)
                {
                    hourlyData.PowerUsage = new PowerUsage(0, 0);
                    hourlyData.Price      = new Price(0, 0);
                    PowerCell.decreaseCharge(powerUsage - powerProvidedByPhotovoltaics);
                }
                else
                {
                    powerUsage            = powerUsage - powerProvidedByPhotovoltaics - Math.Min(PowerCell.MaxUsageCharge, PowerCell.CurrentCharge);
                    hourlyData.PowerUsage = new PowerUsage(powerUsage, 0);
                    Price powerPriceForKw = EnergyPriceListData.getEnergyPrice(Calendar.WhatDay(weatherData.TimeStamp), weatherData.TimeStamp);
                    hourlyData.Price = new Price((int)(powerUsage * powerPriceForKw.cost), 0);
                    PowerCell.decreaseCharge(Math.Min(PowerCell.MaxUsageCharge, PowerCell.CurrentCharge));
                }
            }
            else if (powerUsage < powerProvidedByPhotovoltaics)
            {
                float powerSold       = powerUsage - powerProvidedByPhotovoltaics;
                Price powerPriceForKw = EnergyPriceListData.getEnergyPrice(Calendar.WhatDay(weatherData.TimeStamp), weatherData.TimeStamp);
                hourlyData.PowerUsage = new PowerUsage(0, powerSold);
                hourlyData.Price      = new Price(0, (int)(powerSold * powerPriceForKw.income));
            }
            hourlyData.OptimalCostType = Workflow.TypeD;
            hourlyData.PowerUsage.Used = rawpowerUsage;
            return(hourlyData);
        }
コード例 #4
0
ファイル: FlowManager.cs プロジェクト: KifoPL/NetSecBHL
        static HourlyData TypeC(Weather.WeatherData weatherData)
        {
            // Energia produkowana przez zestaw fotowoltaiczny ZAWSZE jest zużywana na potrzeby domu
            // niedobór jest pobierany z sieci
            // nadmiar nie jest wykorzystywany
            // akumulator ładowany jest z sieci w maksymalnym możliwym tempie
            HourlyData hourlyData = new HourlyData();

            hourlyData.DateTime = weatherData.TimeStamp;

            float powerUsage    = getHourlyPowerUsage(weatherData);
            float rawpowerUsage = powerUsage;

            powerUsage    /= 5;
            rawpowerUsage += WaterHeating.PowerUsage(weatherData.TimeStamp);
            powerUsage    += WaterHeating.PowerUsage(weatherData.TimeStamp);
            float powerProvidedByPhotovoltaics = PhotovoltaicsEfficiencyData.getPhotovoltaicsPower(weatherData.TimeStamp, weatherData.GetSunlightEnum(weatherData.Sunlight));

            if (powerUsage > powerProvidedByPhotovoltaics)
            {
                Price powerPriceForKw      = EnergyPriceListData.getEnergyPrice(Calendar.WhatDay(weatherData.TimeStamp), weatherData.TimeStamp);
                float powerChargeLoadValue = Math.Min(PowerCell.MaxCharge, PowerCell.CurrentCharge + PowerCell.MaxChargingSpeed) - PowerCell.CurrentCharge;
                PowerCell.addCharge(powerChargeLoadValue);
                hourlyData.Price = new Price((int)(powerChargeLoadValue + powerUsage - powerProvidedByPhotovoltaics) * powerPriceForKw.cost, 0);
            }
            else if (powerUsage < powerProvidedByPhotovoltaics)
            {
                float powerChargeLoadValue = Math.Min(PowerCell.MaxCharge, PowerCell.CurrentCharge + PowerCell.MaxChargingSpeed) - PowerCell.CurrentCharge;
                PowerCell.addCharge(powerChargeLoadValue);
                Price powerPriceForKw = EnergyPriceListData.getEnergyPrice(Calendar.WhatDay(weatherData.TimeStamp), weatherData.TimeStamp);
                hourlyData.Price = new Price((int)(powerChargeLoadValue) * powerPriceForKw.cost, 0);
            }
            hourlyData.OptimalCostType = Workflow.TypeC;
            hourlyData.PowerUsage.Used = rawpowerUsage;
            return(hourlyData);
        }