xieshengjie
/
sis-background


			
				
					
						
						
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							package com.gyee.power.fitting.model;

import com.baomidou.mybatisplus.annotation.IdType;
import com.baomidou.mybatisplus.annotation.TableId;
import com.baomidou.mybatisplus.annotation.TableName;

import java.io.Serializable;
import java.util.Date;

/**
 * <p>
 * 光伏分析
 * </p>
 *
 * @author gfhd
 * @since 2023-10-13
 */
@TableName("photovoltaic_analysis")
public class PhotovoltaicAnalysis implements Serializable {

    private static final long serialVersionUID = 1L;

    @TableId(value = "id", type = IdType.AUTO)
    private Integer id;

    /**
     * 场站
     */
    private String stationId;

    /**
     * 期次
     */
    private String projectId;

    /**
     * 线路
     */
    private String lineId;

    /**
     * 设备id
     */
    private String equipmentId;

    /**
     * 数据日期
     */
    private Date dataDate;

    /**
     * 平均功率
     */
    private Double averagePower;

    /**
     * 离散率
     */
    private Double scatter;

    /**
     * 离散率状态
     */
    private String scatterStatus;

    /**
     * 发电量
     */
    private Double generatingAmount;

    /**
     * 等效发电时
     */
    private Double equivalentGeneratingTime;

    /**
     * 平均等效发电时
     */
    private Double averageEquivalentGeneratingT;

    /**
     * 等效发电时标准差
     */
    private Double equivalentGeneratingTimeStan;

    /**
     * 等效发电时状态
     */
    private String equivalentGeneratingTimeStat;

    /**
     * 平均理论功率
     */
    private Double averageTheoryPower;

    /**
     * 平均理论功率
     */
    private Double conversionEfficiency;

    /**
     * 转换效率状态
     */
    private String conversionEfficiencyStatus;

    /**
     * 故障停机时间
     */
    private Double malfunctionTime;

    /**
     * 设备可利用率
     */
    private Double deviceAvailability;

    public Integer getId() {
        return id;
    }

    public void setId(Integer id) {
        this.id = id;
    }

    public Double getConversionEfficiency() {
        return conversionEfficiency;
    }

    public void setConversionEfficiency(Double conversionEfficiency) {
        this.conversionEfficiency = conversionEfficiency;
    }

    public String getStationId() {
        return stationId;
    }

    public void setStationId(String stationId) {
        this.stationId = stationId;
    }

    public String getProjectId() {
        return projectId;
    }

    public void setProjectId(String projectId) {
        this.projectId = projectId;
    }

    public String getLineId() {
        return lineId;
    }

    public void setLineId(String lineId) {
        this.lineId = lineId;
    }

    public String getEquipmentId() {
        return equipmentId;
    }

    public void setEquipmentId(String equipmentId) {
        this.equipmentId = equipmentId;
    }

    public Date getDataDate() {
        return dataDate;
    }

    public void setDataDate(Date dataDate) {
        this.dataDate = dataDate;
    }

    public Double getAveragePower() {
        return averagePower;
    }

    public void setAveragePower(Double averagePower) {
        this.averagePower = averagePower;
    }

    public Double getScatter() {
        return scatter;
    }

    public void setScatter(Double scatter) {
        this.scatter = scatter;
    }

    public String getScatterStatus() {
        return scatterStatus;
    }

    public void setScatterStatus(String scatterStatus) {
        this.scatterStatus = scatterStatus;
    }

    public Double getGeneratingAmount() {
        return generatingAmount;
    }

    public void setGeneratingAmount(Double generatingAmount) {
        this.generatingAmount = generatingAmount;
    }

    public Double getEquivalentGeneratingTime() {
        return equivalentGeneratingTime;
    }

    public void setEquivalentGeneratingTime(Double equivalentGeneratingTime) {
        this.equivalentGeneratingTime = equivalentGeneratingTime;
    }

    public Double getAverageEquivalentGeneratingT() {
        return averageEquivalentGeneratingT;
    }

    public void setAverageEquivalentGeneratingT(Double averageEquivalentGeneratingT) {
        this.averageEquivalentGeneratingT = averageEquivalentGeneratingT;
    }

    public Double getEquivalentGeneratingTimeStan() {
        return equivalentGeneratingTimeStan;
    }

    public void setEquivalentGeneratingTimeStan(Double equivalentGeneratingTimeStan) {
        this.equivalentGeneratingTimeStan = equivalentGeneratingTimeStan;
    }

    public String getEquivalentGeneratingTimeStat() {
        return equivalentGeneratingTimeStat;
    }

    public void setEquivalentGeneratingTimeStat(String equivalentGeneratingTimeStat) {
        this.equivalentGeneratingTimeStat = equivalentGeneratingTimeStat;
    }

    public Double getAverageTheoryPower() {
        return averageTheoryPower;
    }

    public void setAverageTheoryPower(Double averageTheoryPower) {
        this.averageTheoryPower = averageTheoryPower;
    }

    public String getConversionEfficiencyStatus() {
        return conversionEfficiencyStatus;
    }

    public void setConversionEfficiencyStatus(String conversionEfficiencyStatus) {
        this.conversionEfficiencyStatus = conversionEfficiencyStatus;
    }

    public Double getMalfunctionTime() {
        return malfunctionTime;
    }

    public void setMalfunctionTime(Double malfunctionTime) {
        this.malfunctionTime = malfunctionTime;
    }

    public Double getDeviceAvailability() {
        return deviceAvailability;
    }

    public void setDeviceAvailability(Double deviceAvailability) {
        this.deviceAvailability = deviceAvailability;
    }

    @Override
    public String toString() {
        return "PhotovoltaicAnalysis{" +
                "id = " + id +
                ", stationId = " + stationId +
                ", projectId = " + projectId +
                ", lineId = " + lineId +
                ", equipmentId = " + equipmentId +
                ", dataDate = " + dataDate +
                ", averagePower = " + averagePower +
                ", scatter = " + scatter +
                ", scatterStatus = " + scatterStatus +
                ", generatingAmount = " + generatingAmount +
                ", equivalentGeneratingTime = " + equivalentGeneratingTime +
                ", averageEquivalentGeneratingT = " + averageEquivalentGeneratingT +
                ", equivalentGeneratingTimeStan = " + equivalentGeneratingTimeStan +
                ", equivalentGeneratingTimeStat = " + equivalentGeneratingTimeStat +
                ", averageTheoryPower = " + averageTheoryPower +
                ", conversionEfficiencyStatus = " + conversionEfficiencyStatus +
                ", malfunctionTime = " + malfunctionTime +
                ", deviceAvailability = " + deviceAvailability +
                "}";
    }
}