def test_totalCost(self): cost = _landbos.totalCost(self.rating, self.diameter, self.hubHeight, self.nTurbines, self.voltage, self.distToInterconnect, self.terrain, self.layout, self.soil, self.farmSize, self.TCC, self.towerTopMass, self.constructionTime, self.buildingSize, self.tempMetTowers, self.permanentMetTowers, self.weatherDelayDays, self.craneBreakdowns, self.accessRoadEntrances) self.assertAlmostEqual(285646716, cost, delta=0.5)
def test_markup(self): tcost = _landbos.transportationCost(self.TCC, self.rating, self.nTurbines, self.hubHeight) values = _landbos.markupMultiplierAndCost(tcost) cost = values['cost'] + values['alpha']*_landbos.totalCost(self.rating, self.diameter, self.hubHeight, self.nTurbines, self.voltage, self.distToInterconnect, self.terrain, self.layout, self.soil, self.farmSize, self.TCC, self.towerTopMass, self.constructionTime, self.buildingSize, self.tempMetTowers, self.permanentMetTowers, self.weatherDelayDays, self.craneBreakdowns, self.accessRoadEntrances) self.assertAlmostEqual(11151202, cost, delta=0.5)
def test_insurance(self): fcost = _landbos.foundationCost(self.rating, self.diameter, self.towerTopMass, self.hubHeight, self.soil, self.nTurbines) performanceBond = False values = _landbos.insuranceMultiplierAndCost(self.TCC, self.farmSize, fcost, performanceBond) cost = values['cost'] + values['alpha']*_landbos.totalCost(self.rating, self.diameter, self.hubHeight, self.nTurbines, self.voltage, self.distToInterconnect, self.terrain, self.layout, self.soil, self.farmSize, self.TCC, self.towerTopMass, self.constructionTime, self.buildingSize, self.tempMetTowers, self.permanentMetTowers, self.weatherDelayDays, self.craneBreakdowns, self.accessRoadEntrances, performanceBond=performanceBond) self.assertAlmostEqual(2265350, cost, delta=0.5)