Ejemplo n.º 1
0
def cost_config(pos_,Qnet,Pnet,cycleCounts_):
    pri_wind=pos_[0]*WINDS_PRICE_DEVICE
    pri_pv=pos_[1]*PV_PRICE_BAT1
    #cycclecont:1bat,2ele,3tank,4fc
    cycleCounts_.append(max(int(abs(max(Pnet)/(BAT_CAP*BAT_CHARGE_*BAT_VOL/1000.0))),int(abs(min(Pnet)/(BAT_CAP*BAT_DISCHARGE_*BAT_VOL/1000.0)))))
    cycleCounts_.append(int(max(Pnet)/recyclemodule.RATIO_POWER2GAS))
    print 'max pnet :%f'%max(Pnet)
    #print 'Qmin:%f   '%Qmin
    max_tank_Volumn=recyclemodule.tank_svgas(recyclemodule.ele_mkgas(max(Qnet)))
    print 'maxVol :%f'%max_tank_Volumn
    # 30:氢气的压缩率
    cycleCounts_.append(max_tank_Volumn/(100))
    #3kw bat power    
    q=(max(Qnet)/3)*BAT_PRICE_DEVICE
    if abs(q)>ELE_PRICE_DEVICE+TANK_PRICE_DEVICE+FC_PRICE_DEVICE:
        cycleCounts_.append(int(max(Pnet)/RATED_FC))            
        pri_cycle=ELE_PRICE_DEVICE*cycleCounts_[1]+TANK_PRICE_DEVICE*cycleCounts_[2]+FC_PRICE_DEVICE*cycleCounts_[3]
      
        #print 'cycle price :%f'%p_cycle
        #print 'bat   price :%f'%p_bat
    else:
        cycleCounts_.append(0.0)
        pri_cycle=0
        #print 'cycle not use'
        #print q
        
    print 'bat: %d ele : %d tank : %d fc : %d'%(cycleCounts_[0],cycleCounts_[1],cycleCounts_[2],cycleCounts_[3])      
    pri_bat=cycleCounts_[3]*BAT_PRICE_DEVICE
    return pri_wind+pri_pv+pri_bat+pri_cycle
Ejemplo n.º 2
0
def cost_config(pos_,Qnet,Pnet,counts):
    p_wind=pos_[0]*WINDS_PRICE_DEVICE
    p_pv=pos_[1]*PV_PRICE_BAT1
    counts.append(int(max(Pnet)))
    counts.append(abs(int(min(Pnet))))
    Qmin=min(Qnet)
    print 'Qmin:%f   '%Qmin
    Qmax=max(max(Qnet),abs(min(Qnet)))
    Pmax=max(max(Pnet),abs(min(Pnet)))
    maxVol=recyclemodule.tank_svgas(recyclemodule.ele_mkgas(Qmax))
    max_tank_Volumn.append(abs(maxVol)) 
    print 'maxVol :%f'%maxVol
    counts.append(abs(maxVol/100.0))
    q=(Qmax/BAT_POWER)*BAT_PRICE_DEVICE
    if abs(q)>ELE_PRICE_DEVICE+TANK_PRICE_DEVICE+FC_PRICE_DEVICE:
        p_cycle=ELE_PRICE_DEVICE*counts[0]+TANK_PRICE_DEVICE*counts[2]+FC_PRICE_DEVICE*counts[1]
        counts.append(round(Pmax))            
        p_bat=(Pmax)/BAT_POWER*BAT_PRICE_DEVICE
        #print 'cycle price :%f'%p_cycle
        #print 'bat   price :%f'%p_bat
           
    else:
        counts.append(0.0)
        p_bat=q
        p_cycle=0
        #print 'cycle not use'
        #print q

    print 'ele: %d fc : %d tank : %d bat : %d'%(counts[0],counts[1],counts[2],counts[3])       
    return p_wind+p_pv+p_bat+p_cycle
Ejemplo n.º 3
0
def cost_config(pos_,Qnet,Pnet,counts):
    p_wind=pos_[0]*WINDS_PRICE_DEVICE
    p_pv=pos_[1]*PV_PRICE_BAT1
    counts.append(int(max(Pnet)))
    counts.append(abs(int(min(Pnet))))
    Qmin=min(Qnet)
    print 'Qmin:%f   '%Qmin
    Qmax=max(max(Qnet),abs(min(Qnet)))
    Pmax=max(max(Pnet),abs(min(Pnet)))
    maxVol=recyclemodule.tank_svgas(recyclemodule.ele_mkgas(Qmax))
    max_tank_Volumn.append(abs(maxVol)) 
    print 'maxVol :%f'%maxVol
    counts.append(abs(maxVol/100.0))
    q=(Qmax/BAT_POWER)*BAT_PRICE_DEVICE
    if abs(q)>ELE_PRICE_DEVICE+TANK_PRICE_DEVICE+FC_PRICE_DEVICE:
        p_cycle=ELE_PRICE_DEVICE*counts[0]+TANK_PRICE_DEVICE*counts[2]+FC_PRICE_DEVICE*counts[1]
        counts.append(round(Pmax))            
        p_bat=(Pmax)/BAT_POWER*BAT_PRICE_DEVICE
        #print 'cycle price :%f'%p_cycle
        #print 'bat   price :%f'%p_bat
           
    else:
        counts.append(0.0)
        p_bat=q
        p_cycle=0
        #print 'cycle not use'
        #print q

    print 'ele: %d fc : %d tank : %d bat : %d'%(counts[0],counts[1],counts[2],counts[3])       
    return p_wind+p_pv+p_bat+p_cycle