nmelone/datalogger-POC
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Deleted files that are no longer in use

Browse Source
This commit is contained in:
Patrick McDonagh
2016-03-29 13:20:56 -05:00
parent 3e105f9361
commit 30f0cceb82
5 changed files with 0 additions and 1518 deletions
Download Patch File Download Diff File Expand all files Collapse all files

211
alarmLogger.py
View File

@@ -1,211 +0,0 @@
#!/usr/bin/env python
'''
Created on Oct 1, 2014
@author: PJMcdona
'''
from datetime import datetime
from random import randint
from time import sleep
import sys
# MYSQL Config
import MySQLdb
db = MySQLdb.connect(host="127.0.0.1", user="website", passwd="henrypump", db="WellData")
cur = db.cursor()
query = "SELECT * FROM WellData.config ORDER BY dateChanged DESC LIMIT 1;"
cur.execute(query)
setup = cur.fetchall()
db.commit()
db.close()
PLC_IP_ADDRESS = setup[0][2]
PLC_TYPE = setup[0][1]
sys.path.append("../")
path_to_CSV = "/mnt/usb/"
# TUXEIP Connection to PLC
# TUXEIP Connection to PLC
from tuxeip import TuxEIP, LGX, LGX_REAL
tux = TuxEIP(libpath="/usr/lib/libtuxeip.so")
sess = tux.OpenSession(PLC_IP_ADDRESS)
reg = tux.RegisterSession(sess)
conn = tux.ConnectPLCOverCNET(sess, LGX, 1, 100, 123, randint(0, 9999), 123, 321, 100, 5000, 1, '01')
safetySetup = [["Safety_Casing_Pressure", "Casing Pressure"],
["Safety_Flow_Line_Pressure", "Flow Line Pressure"],
["Safety_Flowmeter", "Flowmeter"],
["Safety_Fluid_Load", "Fluid Load"],
["Safety_Inclinometer", "Inclinometer"],
["Safety_Load_HiHi", "Load HiHi"],
["Safety_Load_Hi", "Load Hi"],
["Safety_Load_Lo", "Load Lo"],
["Safety_Load_LoLo", "Load LoLo"],
["Safety_Speed", "Speed"],
["Safety_Tubing_Pressure", "Tubing Pressure"]
]
condition = {
20: "Low",
21: "High",
24: "LoLo",
25: "HiHi",
32: "Input Failure",
34: "Configuration Error",
16: "Failure to Stop",
17: "Failure to Start",
18: "Drive Fault"
}
bitsSetup = [
["Pump.Auto_Stop", "Pump Off (Auto Mode)", "Unit Stop"],
["Pump.POC_Stop", "Pump Off (POC Mode)", "Unit Stop"],
["Pump.Timed_Stop", "Pump Off (Timer Mode)", "Unit Stop"],
["Pump.Stop", "User Initiated Stop", "Unit Stop"],
["PeakEnergy.Stop", "Peak Energy Stop", "Unit Stop"],
["Pump.Start", "User Initiated Start", "Unit Start"],
["Pump.POC_Restart", "Restart (POC Mode)", "Unit Start"],
["Pump.Timed_Restart", "Restart (Timer Mode)", "Unit Start"],
["Pump.Auto_Restart", "Restart (Auto Mode)", "Unit Start"],
["PeakEnergy.Restart", "Peak Energy Restart", "Unit Start"],
["Pump.Jog", "Unit Jogged", "Unit Jog"],
]
safetyList = []
bitList = []
class SafetyTag:
"""Safety structure"""
def __init__(self, tag, name):
self.name = name
self.tag = tag
self.alarm = False
self.warning = False
self.condition = ""
self.type = ""
self.value = 0.0
self.stored = False
def writeToDB(self):
global tux
global sess
global conn
global condition
stroke_num = int(tux.ReadLGXDataAsInteger(sess, conn, "Stroke_Count_Today", 1)[0])
db = MySQLdb.connect(host="127.0.0.1", user="website", passwd="henrypump", db="WellData")
cur = db.cursor()
event_query = "INSERT INTO WellData.Event_List (device_name, type, cond, value, datetime, tag, stroke_number) VALUES ('{0}', '{1}', '{2}', {3}, '{4}', '{5}', {6});".format(
self.name, self.type, self.condition, self.value, datetime.now(), self.name, stroke_num)
print event_query
store_event = cur.execute(event_query)
db.commit()
db.close()
self.stored = True
def ReadStatus(self):
global tux
global sess
global conn
global condition
try:
a = tux.ReadLGXDataAsInteger(sess, conn, self.tag + ".Alarm", 1)
w = tux.ReadLGXDataAsInteger(sess, conn, self.tag + ".Warning", 1)
aInt = int(a[0])
wInt = int(w[0])
if aInt == 1:
self.alarm = True
self.condition = condition[tux.ReadLGXDataAsInteger(sess, conn, self.tag + ".Alarm_Code", 1)]
self.value = round(tux.ReadLGXDataAsInteger(sess, conn, self.tag + ".Alarm_Value", 1), 3)
self.type = "Alarm"
if (self.stored == False):
self.writeToDB()
elif wInt == 1:
self.warning = True
self.condition = condition[tux.ReadLGXDataAsInteger(sess, conn, self.tag + ".Alarm_Code", 1)]
self.value = round(tux.ReadLGXDataAsInteger(sess, conn, self.tag + ".Alarm_Value", 1), 3)
self.type = "Warning"
if (self.stored == False):
self.writeToDB()
else:
self.alarm = False
self.warning = False
self.condition = ""
self.type = ""
self.stored = False
except:
print "Unable to read " + self.tag
class BitTag:
"""Safety structure"""
def __init__(self, tag, name, condition):
self.name = name
self.tag = tag
self.condition = condition
self.type = "Info"
self.value = 0.0
self.stored = False
def writeToDB(self):
global tux
global sess
global conn
global condition
stroke_num = int(tux.ReadLGXDataAsInteger(sess, conn, "Stroke_Count_Today", 1)[0])
db = MySQLdb.connect(host="127.0.0.1", user="website", passwd="henrypump", db="WellData")
cur = db.cursor()
event_query = "INSERT INTO WellData.Event_List (device_name, type, cond, value, datetime, tag, stroke_number) VALUES ('{0}', '{1}', '{2}', {3}, '{4}', '{5}', {6});".format(
self.name, self.type, self.condition, self.value, datetime.now(), self.name, stroke_num)
print event_query
store_event = cur.execute(event_query)
db.commit()
db.close()
self.stored = True
def ReadStatus(self):
global tux
global sess
global conn
global condition
try:
a = tux.ReadLGXDataAsInteger(sess, conn, self.tag, 1)
aInt = int(a[0])
# print self.tag + ": " + str(aInt)
if aInt <> 0:
if (self.stored == False):
self.writeToDB()
else:
self.stored = False
except:
print "Unable to read " + self.tag
for saf in safetySetup:
safetyList.append(SafetyTag(saf[0], saf[1]))
for bit in bitsSetup:
bitList.append(BitTag(bit[0], bit[1], bit[2]))
if (PLC_TYPE == "VFD"):
safetyList.append(SafetyTag("Safety_Pump_PF755", "Drive"))
if (PLC_TYPE == "E300"):
safetyList.append(SafetyTag("Safety_E300", "Relay Overload"))
while True:
for s in safetyList:
s.ReadStatus()
for b in bitList:
b.ReadStatus()
sleep(.50)

143
alarmLogger_pycomm.py
View File

@@ -1,143 +0,0 @@
#!/usr/bin/python
from datetime import datetime
from time import sleep
import sys
# MYSQL Config
import MySQLdb
db = MySQLdb.connect(host="127.0.0.1", user="website", passwd="henrypump", db="WellData")
cur = db.cursor()
query = "SELECT * FROM WellData.config ORDER BY dateChanged DESC LIMIT 1;"
cur.execute(query)
setup = cur.fetchall()
db.commit()
db.close()
try:
PLC_IP_ADDRESS = setup[0][2]
PLC_TYPE = setup[0][1]
except:
print("PLC Address not set in database... using default of 192.168.1.10")
PLC_IP_ADDRESS = "192.168.1.10"
PLC_TYPE = "VFD"
#PYCOMM Connection to PLC
from pycomm.ab_comm.clx import Driver as ClxDriver
from pycomm.ab_comm.clx import CommError as ClxCommError
from pycomm.ab_comm.clx import DataError as ClxDataError
c = ClxDriver(True, 'ClxDriver.log')
safetySetup = [{'tag':"Safety_Casing_Pressure", 'name':"Casing Pressure", "active":False},
{'tag':"Safety_Flow_Line_Pressure", 'name':"Flow Line Pressure", "active":False},
{'tag':"Safety_Flowmeter", 'name':"Flowmeter", "active":False},
{'tag':"Safety_Fluid_Load", 'name':"Fluid Load", "active":False},
{'tag':"Safety_Inclinometer", 'name':"Inclinometer", "active":False},
{'tag':"Safety_Load_HiHi", 'name':"Load HiHi", "active":False},
{'tag':"Safety_Load_Hi", 'name':"Load Hi", "active":False},
{'tag':"Safety_Load_Lo", 'name':"Load Lo", "active":False},
{'tag':"Safety_Load_LoLo", 'name':"Load LoLo", "active":False},
{'tag':"Safety_Speed", 'name':"Speed", "active":False},
{'tag':"Safety_Tubing_Pressure", 'name':"Tubing Pressure", "active":False}
]
condition = {
20: "Low",
21: "High",
24: "LoLo",
25: "HiHi",
32: "Input Failure",
34: "Configuration Error",
16: "Failure to Stop",
17: "Failure to Start",
18: "Drive Fault"
}
bitsSetup = [
{'tag':"Pump.Auto_Stop", 'name':"Pump Off (Auto Mode)", 'condition':"Unit Stop", 'active':False},
{'tag':"Pump.POC_Stop", 'name':"Pump Off (POC Mode)", 'condition':"Unit Stop", 'active':False},
{'tag':"Pump.Timed_Stop", 'name':"Pump Off (Timer Mode)", 'condition':"Unit Stop", 'active':False},
{'tag':"Pump.Stop", 'name':"User Initiated Stop", 'condition':"Unit Stop", 'active':False},
{'tag':"PeakEnergy.Stop", 'name':"Peak Energy Stop", 'condition':"Unit Stop", 'active':False},
{'tag':"Pump.Start", 'name':"User Initiated Start", 'condition':"Unit Start", 'active':False},
{'tag':"Pump.POC_Restart", 'name':"Restart (POC Mode)", 'condition':"Unit Start", 'active':False},
{'tag':"Pump.Timed_Restart", 'name':"Restart (Timer Mode)", 'condition':"Unit Start", 'active':False},
{'tag':"Pump.Auto_Restart", 'name':"Restart (Auto Mode)", 'condition':"Unit Start", 'active':False},
{'tag':"PeakEnergy.Restart", 'name':"Peak Energy Restart", 'condition':"Unit Start", 'active':False},
{'tag':"Pump.Jog", 'name':"Unit Jogged", 'condition':"Unit Jog", 'active':False},
]
def write_alarm(name, type, condition, value, tag):
"""writes the specified alarm to the MySQL database"""
global c
stroke_num = int(c.read_tag(["Stroke_Count_Today"])[0][1])
db = MySQLdb.connect(host="127.0.0.1", user="website", passwd="henrypump", db="WellData")
cur = db.cursor()
event_query = "INSERT INTO WellData.Event_List (device_name, type, cond, value, datetime, tag, stroke_number) VALUES ('{0}', '{1}', '{2}', {3}, '{4}', '{5}', {6});".format(
name, type, condition, value, datetime.now(), tag, stroke_num)
print event_query
store_event = cur.execute(event_query)
db.commit()
db.close()
c.open(PLC_IP_ADDRESS)
retry = False
number_of_retry = 0
while True:
try:
if retry:
retry = False
print "retrying"
sleep(0.5)
c.forward_close()
if number_of_retry >= 5:
c.close()
c.open(PLC_IP_ADDRESS)
number_of_retry = 0
for safety in safetySetup:
try:
alarm_sts = int(c.read_tag(["{0}.Alarm".format(safety['tag'])])[0][1])
warning_sts = int(c.read_tag([safety['tag'] + ".Warning"])[0][1])
print("Tag: {0}, Alarm: {1}, Warning: {2}".format(safety['tag'], alarm_sts, warning_sts))
safety_type = ""
if alarm_sts == 1:
safety_type = "Alarm"
if warning_sts == 1:
safety_type = "Warning"
if (alarm_sts == 1 or warning_sts == 1):
safety_condition = condition[c.read_tag(["{0}.Alarm_Code".format(safety['tag'])])[0][1]]
safety_value = round(c.read_tag(["{0}.Alarm_Value".format(safety['tag'])])[0][1], 3)
if not safety['active']:
write_alarm(safety['name'], safety_type, safety_condition, safety_value, safety['tag'])
safety['active'] = True
else:
safety['active'] = False
except Exception, e:
print("[ERROR] Error reading safety {0}: {1}".format(safety['tag'], e))
for bit in bitsSetup:
try:
bit_sts = int(c.read_tag([bit['tag']])[0][1])
print("Tag: {0}, Status: {1}".format(bit['tag'], bit_sts))
bit_type = "Info"
if bit_sts == 1:
bit_condition = bit['condition']
bit_value = 0.0
if not bit['active']:
write_alarm(bit['name'], bit_type, bit_condition, bit_value, bit['tag'])
bit['active'] = True
else:
bit['active'] = False
except Exception, e:
print("[ERROR] Error reading bit {0}: {1}".format(bit['tag'], e))
sleep(0.5)
except ClxCommError as e:
print(e)
retry = True
except ClxDataError as e:
print (e)
c.close()

408
dataLoggerSQLite.py
View File

@@ -1,408 +0,0 @@
#!/usr/bin/env python
'''
Created on Oct 1, 2014
@author: PJMcdona
'''
import csv
from datetime import datetime
import os
import sys
from random import randint
import time
import sqlite3 as lite
from tuxeip import TuxEIP, LGX, LGX_REAL
# con = lite.connect('test.db')
con = lite.connect("/mnt/usb/welldata.db")
def checkDateInDB(da):
y = int(da[0:4])
m = int(da[4:6])
d = int(da[6:8])
dquery = "SELECT id FROM card_history_dates WHERE year = {0} AND month = {1} AND day = {2};".format(y, m, d)
# dquery = "SELECT id FROM WellData.card_history_dates WHERE year = 2016 AND month = 1 AND day = 5;"
with con:
cur = con.cursor()
cur.execute(dquery)
dates = cur.fetchall()
if len(dates) > 0:
print("Date {0} already in db".format(da))
else:
ins_query = "INSERT INTO card_history_dates (year, month, day, first_id) VALUES ({0}, {1}, {2}, (SELECT MAX(id) FROM card_history));".format(y, m, d)
print(ins_query)
with con:
cur = con.cursor()
cur.execute(ins_query)
con.commit()
PLC_IP_ADDRESS = "192.168.1.10"
PLC_TYPE = "VFD"
with con:
cur = con.cursor()
query = "SELECT * FROM config ORDER BY dateChanged DESC LIMIT 1;"
cur.execute(query)
setup = cur.fetchall()
PLC_IP_ADDRESS = setup[0][2]
PLC_TYPE = setup[0][1]
sys.path.append("../")
path_to_CSV = "/mnt/usb/"
# TUXEIP Connection to PLC
tux = TuxEIP(libpath="/usr/lib/libtuxeip.so")
sess = tux.OpenSession(PLC_IP_ADDRESS)
reg = tux.RegisterSession(sess)
conn = tux.ConnectPLCOverCNET(sess, LGX, 1, 100, 123, randint(0, 9999), 123, 321, 100, 5000, 1, '01')
if os.path.exists(path_to_CSV + "current.csv"):
os.remove(path_to_CSV + "current.csv")
data = {}
tags_to_read = [['Card_Past[1].ID', 'INT', "Card_ID"],
['Card_Past[1].Params.Num_Tapers', 'INT', 'Num_Tapers'],
['Card_Past[1].Num_Points', 'INT', 'Num_Points'],
['Card_Past[1].Card_Type', 'INT', 'Card_Type'],
['Card_Past[1].Name.Data[0]', 'STRING', 'Well_Name'],
['Card_Past[1].Params.Tubing_Head_Pressure', 'REAL', 'Tubing_Head_Pressure'],
['Card_Past[1].Params.Fluid_Gradient', 'REAL', 'Fluid_Gradient'],
['Card_Past[1].Params.Stuffing_Box_Friction', 'REAL', 'Stuffing_Box_Friction'],
['Card_Past[1].Params.dt', 'REAL', 'dt'],
['Card_Past[1].Downhole_Max_Load.Load', 'REAL', 'Downhole_Max_Load'],
['Card_Past[1].Downhole_Min_Load.Load', 'REAL', 'Downhole_Min_Load'],
['Card_Past[1].Downhole_Max_Position.Position', 'REAL', 'Downhole_Max_Position'],
['Card_Past[1].Downhole_Min_Position.Position', 'REAL', 'Downhole_Min_Position'],
['Card_Past[1].Downhole_GrossStroke', 'REAL', 'Downhole_Gross_Stroke'],
['Card_Past[1].Downhole_AdjustedGrossStroke', 'REAL', 'Downhole_Adjusted_Gross_Stroke'],
['Card_Past[1].Downhole_NetStroke', 'REAL', 'Downhole_Net_Stroke'],
['Card_Past[1].Downhole_FluidLoad', 'REAL', 'Downhole_Fluid_Load'],
['Card_Past[1].Surface_Max.Load', 'REAL', 'Surface_Max_Load'],
['Card_Past[1].Surface_Min.Load', 'REAL', 'Surface_Min_Load'],
['Card_Past[1].Surface_Max.Position', 'REAL', 'Surface_Max_Position'],
['Card_Past[1].Surface_Min.Position', 'REAL', 'Surface_Min_Position'],
['Card_Past[1].Tubing_Movement', 'REAL', 'Tubing_Movement'],
['Card_Past[1].Surface_StrokeLength', 'REAL', 'Surface_Stroke_Length'],
['Card_Past[1].Fillage_Percent', 'REAL', 'Fillage_Percent'],
['Card_Past[1].Polished_Rod_HP', 'REAL', 'Polished_Rod_HP'],
['Card_Past[1].Pump_HP', 'REAL', 'Pump_HP'],
['Card_Past[1].SPM', 'REAL', 'SPM'],
['Card_Past[1].Fluid_Above_Pump', 'REAL', 'Fluid_Level'],
['Card_Past[1].Pump_Intake_Pressure', 'REAL', 'Pump_Intake_Pressure'],
['Stroke_Production', 'REAL', 'Stroke_Production'],
['DriveTorqueMode', 'BOOL', 'Drive_Torque_Mode'],
]
mode_tags = {"torque": ['PF755_Drive:O.TrqRefAStpt', 'REAL', 'Torque_Reference'], "speed": ['Pump_PF755.PSet_SpeedRef', 'REAL', 'Speed_Reference']}
datetime_tags = [
['Card_Past[1].End_Time.Year', 'INT', '_Year'],
['Card_Past[1].End_Time.Month', 'INT', '_Month'],
['Card_Past[1].End_Time.Day', 'INT', '_Day'],
['Card_Past[1].End_Time.Hour', 'INT', '_Hour'],
['Card_Past[1].End_Time.Min', 'INT', '_Minute'],
['Card_Past[1].End_Time.Sec', 'INT', '_Second']
]
def ReadFromPLC(tag, tag_type):
try:
if (tag_type == "REAL"):
a = tux.ReadLGXDataAsFloat(sess, conn, tag, 1)
# print a
result = float(a[0])
# print tag, result
elif (tag_type == "INT"):
a = tux.ReadLGXDataAsInteger(sess, conn, tag, 1)
# print a
result = int(a[0])
# print tag, result
elif (tag_type == "BOOL"):
a = tux.ReadLGXDataAsInteger(sess, conn, tag, 1)
val = int(a[0])
if val != 0:
val = 1
result = val
elif (tag_type == "STRING"):
# print "./read_"+tag_type+ " , " + tag
a = tux.ReadLGXDataAsInteger(sess, conn, tag, 82)
# print a
# split_chars = a.split(",")
# print split_chars
word = ""
for ch in range(len(a)):
word = word + unichr(int(a[ch]))
# print word
result = word
else:
result = "?"
return result
except:
print "Unable to read " + tag
return 911
def readPoints():
surface = []
downhole = []
for i in range(0, data['Num_Points']):
sp = round(ReadFromPLC("Card_Past[1].Surface_Position[" + str(i) + "]", "REAL"), 3)
sl = round(ReadFromPLC("Card_Past[1].Surface_Load[" + str(i) + "]", "REAL"), 3)
surface.append([sp, sl])
dp = round(ReadFromPLC("Card_Past[1].Downhole_Position[" + str(i) + "]", "REAL"), 3)
dl = round(ReadFromPLC("Card_Past[1].Downhole_Load[" + str(i) + "]", "REAL"), 3)
downhole.append([dp, dl])
def readSetpoints():
modeMap = {
0: "Error",
1: "Auto",
2: "POC",
3: "Timer",
4: "Manual",
5: "DH PID"
}
with open('/mnt/usb/setpoints.csv', 'w') as setpoint_file:
wr = csv.writer(setpoint_file)
stroke_time = time.time()
dt = datetime.fromtimestamp(stroke_time)
wr.writerow(['localtime', dt])
wr.writerow(['utctime', datetime.utcfromtimestamp(stroke_time)])
wr.writerow(['Mode', modeMap[ReadFromPLC("Pump.Mode", "INT")]])
wr.writerow(['Speed_Setpoint_SPM', ReadFromPLC("Pump.Speed_Setpoint_SPM", "REAL")])
wr.writerow(['Speed_Max', ReadFromPLC("Pump.Speed_Max", "REAL")])
wr.writerow(['Speed_Min', ReadFromPLC("Pump.Speed_Min", "REAL")])
wr.writerow(['Auto-Speed_Startpoint_SPM', ReadFromPLC("Pump.Speed_Startpoint_SPM_Auto", "REAL")])
wr.writerow(['Auto-Percentage_Ramp_Down', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Increment_Ramp_Down', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Percent_Ramp_Up', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Percent_Ramp_Down', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Min_Speed_Strokes', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Percent_Ramp_Up', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-POC-Startup_Ignore_Cards', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-POC-Card_Quantity', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Percent_Ramp_Up', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['POC-Percent_Pumpoff', ReadFromPLC("Pump.Mode", "REAL")])
cards_read = 1
read_tapers = False
already_gauged_off = False
already_entered_well_test = False
last_date = ""
while True:
now = datetime.now()
with open('/mnt/usb/status.txt', 'w') as status_file:
status_file.write("{0}-->{1}\n{2},{3},{4},{5}".format(datetime.strftime(now, "%Y%m%d_%H%M%S"), ReadFromPLC("Pump.Run_Status", "INT"), ReadFromPLC("Card_Past[1].ID", "INT"), ReadFromPLC("Card_Past[1].Fillage_Percent", "REAL"), ReadFromPLC("Card_Past[1].Fluid_Above_Pump", "REAL"), ReadFromPLC("Stroke_Production", "REAL")))
#############
# CARD DATA #
#############
EOS = ReadFromPLC("End_Of_Stroke", "INT")
Already_Read = ReadFromPLC("Card_Past[1].Data_Read", "INT") > 0
num_points = ReadFromPLC("Card_Past[1].Num_Points", "INT")
if (EOS and not Already_Read and (EOS != 911)):
stroke_time = time.time()
dt = datetime.fromtimestamp(stroke_time)
data['localtime'] = dt
data['Stroke_Time'] = dt
data['utctime'] = datetime.utcfromtimestamp(stroke_time)
for t in tags_to_read:
data[t[2]] = ReadFromPLC(t[0], t[1])
data['Surface_Position'] = []
data['Surface_Load'] = []
data['Downhole_Position'] = []
data['Downhole_Load'] = []
for i in range(1, num_points-1):
data['Surface_Position'].append(round(ReadFromPLC("Card_Past[1].Surface_Position[" + str(i) + "]", "REAL"), 3))
data['Surface_Load'].append(round(ReadFromPLC("Card_Past[1].Surface_Load[" + str(i) + "]", "REAL"), 3))
data['Downhole_Position'].append(round(ReadFromPLC("Card_Past[1].Downhole_Position[" + str(i) + "]", "REAL"), 3))
data['Downhole_Load'].append(round(ReadFromPLC("Card_Past[1].Downhole_Load[" + str(i) + "]", "REAL"), 3))
st = datetime.strftime(dt, "%Y%m%d_%H%M%S")
date = datetime.strftime(dt, "%Y%m%d")
if not date == last_date:
checkDateInDB(date)
last_date = date
if (data["Card_Type"] == 0):
data["Card_Type"] = "Normal"
elif (data["Card_Type"] == 1):
data["Card_Type"] = "Shutdown"
elif (data["Card_Type"] == 2):
data["Card_Type"] = "Alarm"
elif (data["Card_Type"] == 3):
data["Card_Type"] = "Startup"
else:
data["Card_Type"] = "Unknown"
mode = 'torque'
if data['Drive_Torque_Mode'] == 0:
mode = 'speed'
data['Drive_Reference'] = ReadFromPLC(mode_tags[mode][0], mode_tags[mode][1])
data['sp_string'] = ', '.join(map(str, data['Surface_Position']))
data['sl_string'] = ', '.join(map(str, data['Surface_Load']))
data['dp_string'] = ', '.join(map(str, data['Downhole_Position']))
data['dl_string'] = ', '.join(map(str, data['Downhole_Load']))
insert_query = ("INSERT INTO card_history "
"(Card_ID, Num_Tapers, Num_Points, Card_Type, Stroke_Time, Tubing_Head_Pressure, Fluid_Gradient, "
"Stuffing_Box_Friction, dt, Downhole_Max_Load, Downhole_Min_Load, Downhole_Max_Position, Downhole_Min_Position, "
"Downhole_Gross_Stroke, Downhole_Adjusted_Gross_Stroke, Downhole_Net_Stroke, Downhole_Fluid_Load, Surface_Max_Load, "
"Surface_Min_Load, Surface_Max_Position, Surface_Min_Position, Tubing_Movement, Surface_Stroke_Length, Fillage_Percent, "
"Polished_Rod_HP, Pump_HP, SPM, Fluid_Level, Pump_Intake_Pressure, Stroke_Production, Drive_Torque_Mode, Drive_Reference, "
"Surface_Position, Surface_Load, Downhole_Position, Downhole_Load) VALUES "
"(:Card_ID, :Num_Tapers, :Num_Points, :Card_Type, :Stroke_Time, :Tubing_Head_Pressure, :Fluid_Gradient, "
":Stuffing_Box_Friction, :dt, :Downhole_Max_Load, :Downhole_Min_Load, :Downhole_Max_Position, :Downhole_Min_Position, "
":Downhole_Gross_Stroke, :Downhole_Adjusted_Gross_Stroke, :Downhole_Net_Stroke, :Downhole_Fluid_Load, :Surface_Max_Load, "
":Surface_Min_Load, :Surface_Max_Position, :Surface_Min_Position, :Tubing_Movement, :Surface_Stroke_Length, :Fillage_Percent, "
":Polished_Rod_HP, :Pump_HP, :SPM, :Fluid_Level, :Pump_Intake_Pressure, :Stroke_Production, :Drive_Torque_Mode, :Drive_Reference, "
":sp_string, :sl_string, :dp_string, :dl_string)")
with con:
cur = con.cursor()
cur.execute(insert_query, data)
con.commit()
tux.WriteLGXData(sess, conn, "Card_Past[1].Data_Read", LGX_REAL, 1, 1)
print "CARD NUMBER " + str(data["Card_ID"]) + " READ!"
##############
# TAPER DATA #
##############
update_taper = ReadFromPLC("Write_Tapers", "INT")
if (update_taper == 0):
if read_tapers:
read_tapers = False
print "Update Tapers = False"
if (update_taper and (not read_tapers) and (update_taper != 911)):
print "reading taper file"
taper_count = 0
tFilename = path_to_CSV + "CSV/TAPER/TAPER_" + datetime.strftime(now, "%Y%m%d_%H%M%S") + '.CSV'
tFile = open(tFilename, 'wb')
twr = csv.writer(tFile, quoting=csv.QUOTE_ALL)
for taps in range(1, 10):
taper_in_use_temp = ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.InUse', "INT")
if taper_in_use_temp:
taper_count = taper_count + 1
# print "reading Taper"+ str(taper_count)
twr.writerow(["Taper", taper_count])
twr.writerow(['Length', ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.Length', 'REAL')])
twr.writerow(['Diameter', ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.Diameter', 'REAL')])
tMaterial = ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.Material', 'INT')
if (tMaterial == 1):
twr.writerow(['Material', "Steel"])
elif (tMaterial == 2):
twr.writerow(['Material', "Fiberglass"])
twr.writerow(['Weight_Per_Foot', ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.Weight', 'REAL')])
twr.writerow(['Youngs_Modulus', ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.Youngs_Modulus', 'REAL')])
twr.writerow(['Damping_Factor', ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.c', 'REAL')])
twr.writerow(['Area', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Area', 'REAL')])
twr.writerow(['Rod_Depth', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Rod_Depth', 'REAL')])
twr.writerow(['Pressure', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Pressure', 'REAL')])
twr.writerow(['Buoyant_Force', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Buoyant_Force', 'REAL')])
twr.writerow(['Rod_Weight', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Rod_Weight_Air', 'REAL')])
twr.writerow(['Force', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Force', 'REAL')])
twr.writerow(['Stretch', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Stretch', 'REAL')])
twr.writerow(["", ""])
else:
break
twr.writerow(["UnitConfig", ""])
twr.writerow(['Pump_Diameter', ReadFromPLC('UnitConfig.Pump_Diameter', 'REAL')])
tFile.close()
read_tapers = True
print "TAPER DATA READ: " + tFilename
##################
# GAUGE OFF DATA #
##################
gauge_off = ReadFromPLC("Gauge_Off_Command", "INT")
if (gauge_off == 0):
if already_gauged_off:
already_gauged_off = False
print "Already gauged off... Setting gauge_off to False"
if (gauge_off and (not already_gauged_off) and (gauge_off != 911)):
print "Gauging off..."
gYear = ReadFromPLC("GAUGEOFF_DateTime.Year", "INT")
gMonth = ReadFromPLC("GAUGEOFF_DateTime.Month", "INT")
gDay = ReadFromPLC("GAUGEOFF_DateTime.Day", "INT")
gHour = ReadFromPLC("GAUGEOFF_DateTime.Hour", "INT")
gMin = ReadFromPLC("GAUGEOFF_DateTime.Min", "INT")
gSec = ReadFromPLC("GAUGEOFF_DateTime.Sec", "INT")
gauge_date = datetime(year=gYear, month=gMonth, day=gDay, hour=gHour, minute=gMin, second=gSec)
percent_run = round(ReadFromPLC("GAUGEOFF_Percent_Run", "REAL"), 2)
kWh = round(ReadFromPLC("GAUGEOFF_kWh", "REAL"), 3)
electricity_cost = round(ReadFromPLC("GAUGEOFF_Electricity_Cost", "REAL"), 2)
peak_load = round(ReadFromPLC("GAUGEOFF_Max_Load", "REAL"), 3)
min_load = round(ReadFromPLC("GAUGEOFF_Min_Load", "REAL"), 3)
average_SPM = round(ReadFromPLC("GAUGEOFF_Average_SPM", "REAL"), 4)
production_calculated = round(ReadFromPLC("GAUGEOFF_Production_Calculated", "REAL"), 2)
full_card_production = round(ReadFromPLC("GAUGEOFF_Full_Card_Production", "REAL"), 2)
polished_rod_HP = round(ReadFromPLC("GAUGEOFF_Polished_Rod_HP", "REAL"), 3)
lifting_cost = round(ReadFromPLC("GAUGEOFF_Lifting_Cost", "REAL"), 4)
fluid_above_pump = round(ReadFromPLC("GAUGEOFF_Fluid_Above_Pump", "REAL"), 2)
pump_intake_pressure = round(ReadFromPLC("GAUGEOFF_pump_intake_pressure", "REAL"), 2)
kWh_regen = round(ReadFromPLC("GAUGEOFF_kWh_regen", "REAL"), 2)
inflow_rate = round(ReadFromPLC("GAUGEOFF_Inflow_Rate", "REAL"), 4)
with con:
cur = con.cursor()
# print """INSERT INTO Hist_Day (gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate) VALUES ('%s', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f');"""%(gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate)
storeHist = con.execute("""INSERT INTO Hist_Day (gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate) VALUES ('%s', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f');""" % (gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate))
con.commit()
already_gauged_off = True
print "Gauged off!"
##################
# WELL TEST DATA #
##################
well_test_entered = ReadFromPLC("Well_Test.Test_Submit", "INT")
if (well_test_entered == 0):
if already_entered_well_test:
already_entered_well_test = False
print "Already entered well Test... Setting well_test_entered to False"
if (well_test_entered and (not already_entered_well_test) and well_test_entered != 911):
print "Well Test Entered"
tYear = ReadFromPLC("Well_Test.DateTime_Complete.Year", "INT")
tMonth = ReadFromPLC("Well_Test.DateTime_Complete.Month", "INT")
tDay = ReadFromPLC("Well_Test.DateTime_Complete.Day", "INT")
tHour = ReadFromPLC("Well_Test.DateTime_Complete.Hour", "INT")
tMin = ReadFromPLC("Well_Test.DateTime_Complete.Min", "INT")
tSec = ReadFromPLC("Well_Test.DateTime_Complete.Sec", "INT")
test_date = datetime(year=tYear, month=tMonth, day=tDay, hour=tHour, minute=tMin, second=tSec)
test_duration = round(ReadFromPLC("Well_Test.Test_Duration", "REAL"), 3)
v_water = round(ReadFromPLC("Well_Test.Volume_Water", "REAL"), 3)
v_oil = round(ReadFromPLC("Well_Test.Volume_Oil", "REAL"), 3)
v_gas = round(ReadFromPLC("Well_Test.Volume_Gas", "REAL"), 3)
p_v_water = round(ReadFromPLC("Well_Test.Projected_Volume_Water", "REAL"), 3)
p_v_oil = round(ReadFromPLC("Well_Test.Projected_Volume_Oil", "REAL"), 3)
k_factor = round(ReadFromPLC("Well_Test.k_Factor", "REAL"), 3)
api_oil = round(ReadFromPLC("Well_Test.API_Oil", "REAL"), 3)
sg_water = round(ReadFromPLC("Well_Test.SG_Water", "REAL"), 3)
with con:
cur = con.cursor()
test_query = "INSERT INTO Well_Test (test_date, test_volume_oil, test_volume_water, test_volume_gas, k_factor, projected_volume_oil, projected_volume_water, api_gravity_oil, sg_water, test_hours) VALUES ('{0}', '{1}', '{2}', '{3}', '{4}', '{5}', '{6}', '{7}', '{8}', '{9}');".format(test_date, v_oil, v_water, v_gas, k_factor, p_v_oil, p_v_water, api_oil, sg_water, test_duration)
# print test_query
storeTest = con.execute(test_query)
con.commit()
already_entered_well_test = True
print "Well Test Stored!"
time.sleep(.20)

408
dataLogger_SQLite.py
View File

@@ -1,408 +0,0 @@
#!/usr/bin/env python
'''
Created on Oct 1, 2014
@author: PJMcdona
'''
import csv
from datetime import datetime
import os
import sys
from random import randint
import time
import sqlite3 as lite
from tuxeip import TuxEIP, LGX, LGX_REAL
# con = lite.connect('test.db')
con = lite.connect("/mnt/usb/welldata.db")
def checkDateInDB(da):
y = int(da[0:4])
m = int(da[4:6])
d = int(da[6:8])
dquery = "SELECT id FROM card_history_dates WHERE year = {0} AND month = {1} AND day = {2};".format(y, m, d)
# dquery = "SELECT id FROM WellData.card_history_dates WHERE year = 2016 AND month = 1 AND day = 5;"
with con:
cur = con.cursor()
cur.execute(dquery)
dates = cur.fetchall()
if len(dates) > 0:
print("Date {0} already in db".format(da))
else:
ins_query = "INSERT INTO card_history_dates (year, month, day, first_id) VALUES ({0}, {1}, {2}, (SELECT MAX(id) FROM card_history));".format(y, m, d)
print(ins_query)
with con:
cur = con.cursor()
cur.execute(ins_query)
con.commit()
PLC_IP_ADDRESS = "192.168.1.10"
PLC_TYPE = "VFD"
with con:
cur = con.cursor()
query = "SELECT * FROM config ORDER BY dateChanged DESC LIMIT 1;"
cur.execute(query)
setup = cur.fetchall()
PLC_IP_ADDRESS = setup[0][2]
PLC_TYPE = setup[0][1]
sys.path.append("../")
path_to_CSV = "/mnt/usb/"
# TUXEIP Connection to PLC
tux = TuxEIP(libpath="/usr/lib/libtuxeip.so")
sess = tux.OpenSession(PLC_IP_ADDRESS)
reg = tux.RegisterSession(sess)
conn = tux.ConnectPLCOverCNET(sess, LGX, 1, 100, 123, randint(0, 9999), 123, 321, 100, 5000, 1, '01')
if os.path.exists(path_to_CSV + "current.csv"):
os.remove(path_to_CSV + "current.csv")
data = {}
tags_to_read = [['Card_Past[1].ID', 'INT', "Card_ID"],
['Card_Past[1].Params.Num_Tapers', 'INT', 'Num_Tapers'],
['Card_Past[1].Num_Points', 'INT', 'Num_Points'],
['Card_Past[1].Card_Type', 'INT', 'Card_Type'],
['Card_Past[1].Name.Data[0]', 'STRING', 'Well_Name'],
['Card_Past[1].Params.Tubing_Head_Pressure', 'REAL', 'Tubing_Head_Pressure'],
['Card_Past[1].Params.Fluid_Gradient', 'REAL', 'Fluid_Gradient'],
['Card_Past[1].Params.Stuffing_Box_Friction', 'REAL', 'Stuffing_Box_Friction'],
['Card_Past[1].Params.dt', 'REAL', 'dt'],
['Card_Past[1].Downhole_Max_Load.Load', 'REAL', 'Downhole_Max_Load'],
['Card_Past[1].Downhole_Min_Load.Load', 'REAL', 'Downhole_Min_Load'],
['Card_Past[1].Downhole_Max_Position.Position', 'REAL', 'Downhole_Max_Position'],
['Card_Past[1].Downhole_Min_Position.Position', 'REAL', 'Downhole_Min_Position'],
['Card_Past[1].Downhole_GrossStroke', 'REAL', 'Downhole_Gross_Stroke'],
['Card_Past[1].Downhole_AdjustedGrossStroke', 'REAL', 'Downhole_Adjusted_Gross_Stroke'],
['Card_Past[1].Downhole_NetStroke', 'REAL', 'Downhole_Net_Stroke'],
['Card_Past[1].Downhole_FluidLoad', 'REAL', 'Downhole_Fluid_Load'],
['Card_Past[1].Surface_Max.Load', 'REAL', 'Surface_Max_Load'],
['Card_Past[1].Surface_Min.Load', 'REAL', 'Surface_Min_Load'],
['Card_Past[1].Surface_Max.Position', 'REAL', 'Surface_Max_Position'],
['Card_Past[1].Surface_Min.Position', 'REAL', 'Surface_Min_Position'],
['Card_Past[1].Tubing_Movement', 'REAL', 'Tubing_Movement'],
['Card_Past[1].Surface_StrokeLength', 'REAL', 'Surface_Stroke_Length'],
['Card_Past[1].Fillage_Percent', 'REAL', 'Fillage_Percent'],
['Card_Past[1].Polished_Rod_HP', 'REAL', 'Polished_Rod_HP'],
['Card_Past[1].Pump_HP', 'REAL', 'Pump_HP'],
['Card_Past[1].SPM', 'REAL', 'SPM'],
['Card_Past[1].Fluid_Above_Pump', 'REAL', 'Fluid_Level'],
['Card_Past[1].Pump_Intake_Pressure', 'REAL', 'Pump_Intake_Pressure'],
['Stroke_Production', 'REAL', 'Stroke_Production'],
['DriveTorqueMode', 'BOOL', 'Drive_Torque_Mode'],
]
mode_tags = {"torque": ['PF755_Drive:O.TrqRefAStpt', 'REAL', 'Torque_Reference'], "speed": ['Pump_PF755.PSet_SpeedRef', 'REAL', 'Speed_Reference']}
datetime_tags = [
['Card_Past[1].End_Time.Year', 'INT', '_Year'],
['Card_Past[1].End_Time.Month', 'INT', '_Month'],
['Card_Past[1].End_Time.Day', 'INT', '_Day'],
['Card_Past[1].End_Time.Hour', 'INT', '_Hour'],
['Card_Past[1].End_Time.Min', 'INT', '_Minute'],
['Card_Past[1].End_Time.Sec', 'INT', '_Second']
]
def ReadFromPLC(tag, tag_type):
try:
if (tag_type == "REAL"):
a = tux.ReadLGXDataAsFloat(sess, conn, tag, 1)
# print a
result = float(a[0])
# print tag, result
elif (tag_type == "INT"):
a = tux.ReadLGXDataAsInteger(sess, conn, tag, 1)
# print a
result = int(a[0])
# print tag, result
elif (tag_type == "BOOL"):
a = tux.ReadLGXDataAsInteger(sess, conn, tag, 1)
val = int(a[0])
if val != 0:
val = 1
result = val
elif (tag_type == "STRING"):
# print "./read_"+tag_type+ " , " + tag
a = tux.ReadLGXDataAsInteger(sess, conn, tag, 82)
# print a
# split_chars = a.split(",")
# print split_chars
word = ""
for ch in range(len(a)):
word = word + unichr(int(a[ch]))
# print word
result = word
else:
result = "?"
return result
except:
print "Unable to read " + tag
return 911
def readPoints():
surface = []
downhole = []
for i in range(0, data['Num_Points']):
sp = round(ReadFromPLC("Card_Past[1].Surface_Position[" + str(i) + "]", "REAL"), 3)
sl = round(ReadFromPLC("Card_Past[1].Surface_Load[" + str(i) + "]", "REAL"), 3)
surface.append([sp, sl])
dp = round(ReadFromPLC("Card_Past[1].Downhole_Position[" + str(i) + "]", "REAL"), 3)
dl = round(ReadFromPLC("Card_Past[1].Downhole_Load[" + str(i) + "]", "REAL"), 3)
downhole.append([dp, dl])
def readSetpoints():
modeMap = {
0: "Error",
1: "Auto",
2: "POC",
3: "Timer",
4: "Manual",
5: "DH PID"
}
with open('/mnt/usb/setpoints.csv', 'w') as setpoint_file:
wr = csv.writer(setpoint_file)
stroke_time = time.time()
dt = datetime.fromtimestamp(stroke_time)
wr.writerow(['localtime', dt])
wr.writerow(['utctime', datetime.utcfromtimestamp(stroke_time)])
wr.writerow(['Mode', modeMap[ReadFromPLC("Pump.Mode", "INT")]])
wr.writerow(['Speed_Setpoint_SPM', ReadFromPLC("Pump.Speed_Setpoint_SPM", "REAL")])
wr.writerow(['Speed_Max', ReadFromPLC("Pump.Speed_Max", "REAL")])
wr.writerow(['Speed_Min', ReadFromPLC("Pump.Speed_Min", "REAL")])
wr.writerow(['Auto-Speed_Startpoint_SPM', ReadFromPLC("Pump.Speed_Startpoint_SPM_Auto", "REAL")])
wr.writerow(['Auto-Percentage_Ramp_Down', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Increment_Ramp_Down', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Percent_Ramp_Up', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Percent_Ramp_Down', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Min_Speed_Strokes', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Percent_Ramp_Up', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-POC-Startup_Ignore_Cards', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-POC-Card_Quantity', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['Auto-Percent_Ramp_Up', ReadFromPLC("Pump.Mode", "REAL")])
wr.writerow(['POC-Percent_Pumpoff', ReadFromPLC("Pump.Mode", "REAL")])
cards_read = 1
read_tapers = False
already_gauged_off = False
already_entered_well_test = False
last_date = ""
while True:
now = datetime.now()
with open('/mnt/usb/status.txt', 'w') as status_file:
status_file.write("{0}-->{1}\n{2},{3},{4},{5}".format(datetime.strftime(now, "%Y%m%d_%H%M%S"), ReadFromPLC("Pump.Run_Status", "INT"), ReadFromPLC("Card_Past[1].ID", "INT"), ReadFromPLC("Card_Past[1].Fillage_Percent", "REAL"), ReadFromPLC("Card_Past[1].Fluid_Above_Pump", "REAL"), ReadFromPLC("Stroke_Production", "REAL")))
#############
# CARD DATA #
#############
EOS = ReadFromPLC("End_Of_Stroke", "INT")
Already_Read = ReadFromPLC("Card_Past[1].Data_Read", "INT") > 0
num_points = ReadFromPLC("Card_Past[1].Num_Points", "INT")
if (EOS and not Already_Read and (EOS != 911)):
stroke_time = time.time()
dt = datetime.fromtimestamp(stroke_time)
data['localtime'] = dt
data['Stroke_Time'] = dt
data['utctime'] = datetime.utcfromtimestamp(stroke_time)
for t in tags_to_read:
data[t[2]] = ReadFromPLC(t[0], t[1])
data['Surface_Position'] = []
data['Surface_Load'] = []
data['Downhole_Position'] = []
data['Downhole_Load'] = []
for i in range(1, num_points-1):
data['Surface_Position'].append(round(ReadFromPLC("Card_Past[1].Surface_Position[" + str(i) + "]", "REAL"), 3))
data['Surface_Load'].append(round(ReadFromPLC("Card_Past[1].Surface_Load[" + str(i) + "]", "REAL"), 3))
data['Downhole_Position'].append(round(ReadFromPLC("Card_Past[1].Downhole_Position[" + str(i) + "]", "REAL"), 3))
data['Downhole_Load'].append(round(ReadFromPLC("Card_Past[1].Downhole_Load[" + str(i) + "]", "REAL"), 3))
st = datetime.strftime(dt, "%Y%m%d_%H%M%S")
date = datetime.strftime(dt, "%Y%m%d")
if not date == last_date:
checkDateInDB(date)
last_date = date
if (data["Card_Type"] == 0):
data["Card_Type"] = "Normal"
elif (data["Card_Type"] == 1):
data["Card_Type"] = "Shutdown"
elif (data["Card_Type"] == 2):
data["Card_Type"] = "Alarm"
elif (data["Card_Type"] == 3):
data["Card_Type"] = "Startup"
else:
data["Card_Type"] = "Unknown"
mode = 'torque'
if data['Drive_Torque_Mode'] == 0:
mode = 'speed'
data['Drive_Reference'] = ReadFromPLC(mode_tags[mode][0], mode_tags[mode][1])
data['sp_string'] = ', '.join(map(str, data['Surface_Position']))
data['sl_string'] = ', '.join(map(str, data['Surface_Load']))
data['dp_string'] = ', '.join(map(str, data['Downhole_Position']))
data['dl_string'] = ', '.join(map(str, data['Downhole_Load']))
insert_query = ("INSERT INTO card_history "
"(Card_ID, Num_Tapers, Num_Points, Card_Type, Stroke_Time, Tubing_Head_Pressure, Fluid_Gradient, "
"Stuffing_Box_Friction, dt, Downhole_Max_Load, Downhole_Min_Load, Downhole_Max_Position, Downhole_Min_Position, "
"Downhole_Gross_Stroke, Downhole_Adjusted_Gross_Stroke, Downhole_Net_Stroke, Downhole_Fluid_Load, Surface_Max_Load, "
"Surface_Min_Load, Surface_Max_Position, Surface_Min_Position, Tubing_Movement, Surface_Stroke_Length, Fillage_Percent, "
"Polished_Rod_HP, Pump_HP, SPM, Fluid_Level, Pump_Intake_Pressure, Stroke_Production, Drive_Torque_Mode, Drive_Reference, "
"Surface_Position, Surface_Load, Downhole_Position, Downhole_Load) VALUES "
"(:Card_ID, :Num_Tapers, :Num_Points, :Card_Type, :Stroke_Time, :Tubing_Head_Pressure, :Fluid_Gradient, "
":Stuffing_Box_Friction, :dt, :Downhole_Max_Load, :Downhole_Min_Load, :Downhole_Max_Position, :Downhole_Min_Position, "
":Downhole_Gross_Stroke, :Downhole_Adjusted_Gross_Stroke, :Downhole_Net_Stroke, :Downhole_Fluid_Load, :Surface_Max_Load, "
":Surface_Min_Load, :Surface_Max_Position, :Surface_Min_Position, :Tubing_Movement, :Surface_Stroke_Length, :Fillage_Percent, "
":Polished_Rod_HP, :Pump_HP, :SPM, :Fluid_Level, :Pump_Intake_Pressure, :Stroke_Production, :Drive_Torque_Mode, :Drive_Reference, "
":sp_string, :sl_string, :dp_string, :dl_string)")
with con:
cur = con.cursor()
cur.execute(insert_query, data)
con.commit()
tux.WriteLGXData(sess, conn, "Card_Past[1].Data_Read", LGX_REAL, 1, 1)
print "CARD NUMBER " + str(data["Card_ID"]) + " READ!"
##############
# TAPER DATA #
##############
update_taper = ReadFromPLC("Write_Tapers", "INT")
if (update_taper == 0):
if read_tapers:
read_tapers = False
print "Update Tapers = False"
if (update_taper and (not read_tapers) and (update_taper != 911)):
print "reading taper file"
taper_count = 0
tFilename = path_to_CSV + "CSV/TAPER/TAPER_" + datetime.strftime(now, "%Y%m%d_%H%M%S") + '.CSV'
tFile = open(tFilename, 'wb')
twr = csv.writer(tFile, quoting=csv.QUOTE_ALL)
for taps in range(1, 10):
taper_in_use_temp = ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.InUse', "INT")
if taper_in_use_temp:
taper_count = taper_count + 1
# print "reading Taper"+ str(taper_count)
twr.writerow(["Taper", taper_count])
twr.writerow(['Length', ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.Length', 'REAL')])
twr.writerow(['Diameter', ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.Diameter', 'REAL')])
tMaterial = ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.Material', 'INT')
if (tMaterial == 1):
twr.writerow(['Material', "Steel"])
elif (tMaterial == 2):
twr.writerow(['Material', "Fiberglass"])
twr.writerow(['Weight_Per_Foot', ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.Weight', 'REAL')])
twr.writerow(['Youngs_Modulus', ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.Youngs_Modulus', 'REAL')])
twr.writerow(['Damping_Factor', ReadFromPLC('Taper.Taper[' + str(taps) + '].Setup.c', 'REAL')])
twr.writerow(['Area', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Area', 'REAL')])
twr.writerow(['Rod_Depth', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Rod_Depth', 'REAL')])
twr.writerow(['Pressure', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Pressure', 'REAL')])
twr.writerow(['Buoyant_Force', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Buoyant_Force', 'REAL')])
twr.writerow(['Rod_Weight', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Rod_Weight_Air', 'REAL')])
twr.writerow(['Force', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Force', 'REAL')])
twr.writerow(['Stretch', ReadFromPLC('Taper.Taper[' + str(taps) + '].Calculated.Stretch', 'REAL')])
twr.writerow(["", ""])
else:
break
twr.writerow(["UnitConfig", ""])
twr.writerow(['Pump_Diameter', ReadFromPLC('UnitConfig.Pump_Diameter', 'REAL')])
tFile.close()
read_tapers = True
print "TAPER DATA READ: " + tFilename
##################
# GAUGE OFF DATA #
##################
gauge_off = ReadFromPLC("Gauge_Off_Command", "INT")
if (gauge_off == 0):
if already_gauged_off:
already_gauged_off = False
print "Already gauged off... Setting gauge_off to False"
if (gauge_off and (not already_gauged_off) and (gauge_off != 911)):
print "Gauging off..."
gYear = ReadFromPLC("GAUGEOFF_DateTime.Year", "INT")
gMonth = ReadFromPLC("GAUGEOFF_DateTime.Month", "INT")
gDay = ReadFromPLC("GAUGEOFF_DateTime.Day", "INT")
gHour = ReadFromPLC("GAUGEOFF_DateTime.Hour", "INT")
gMin = ReadFromPLC("GAUGEOFF_DateTime.Min", "INT")
gSec = ReadFromPLC("GAUGEOFF_DateTime.Sec", "INT")
gauge_date = datetime(year=gYear, month=gMonth, day=gDay, hour=gHour, minute=gMin, second=gSec)
percent_run = round(ReadFromPLC("GAUGEOFF_Percent_Run", "REAL"), 2)
kWh = round(ReadFromPLC("GAUGEOFF_kWh", "REAL"), 3)
electricity_cost = round(ReadFromPLC("GAUGEOFF_Electricity_Cost", "REAL"), 2)
peak_load = round(ReadFromPLC("GAUGEOFF_Max_Load", "REAL"), 3)
min_load = round(ReadFromPLC("GAUGEOFF_Min_Load", "REAL"), 3)
average_SPM = round(ReadFromPLC("GAUGEOFF_Average_SPM", "REAL"), 4)
production_calculated = round(ReadFromPLC("GAUGEOFF_Production_Calculated", "REAL"), 2)
full_card_production = round(ReadFromPLC("GAUGEOFF_Full_Card_Production", "REAL"), 2)
polished_rod_HP = round(ReadFromPLC("GAUGEOFF_Polished_Rod_HP", "REAL"), 3)
lifting_cost = round(ReadFromPLC("GAUGEOFF_Lifting_Cost", "REAL"), 4)
fluid_above_pump = round(ReadFromPLC("GAUGEOFF_Fluid_Above_Pump", "REAL"), 2)
pump_intake_pressure = round(ReadFromPLC("GAUGEOFF_pump_intake_pressure", "REAL"), 2)
kWh_regen = round(ReadFromPLC("GAUGEOFF_kWh_regen", "REAL"), 2)
inflow_rate = round(ReadFromPLC("GAUGEOFF_Inflow_Rate", "REAL"), 4)
with con:
cur = con.cursor()
# print """INSERT INTO Hist_Day (gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate) VALUES ('%s', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f');"""%(gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate)
storeHist = con.execute("""INSERT INTO Hist_Day (gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate) VALUES ('%s', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f');""" % (gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate))
con.commit()
already_gauged_off = True
print "Gauged off!"
##################
# WELL TEST DATA #
##################
well_test_entered = ReadFromPLC("Well_Test.Test_Submit", "INT")
if (well_test_entered == 0):
if already_entered_well_test:
already_entered_well_test = False
print "Already entered well Test... Setting well_test_entered to False"
if (well_test_entered and (not already_entered_well_test) and well_test_entered != 911):
print "Well Test Entered"
tYear = ReadFromPLC("Well_Test.DateTime_Complete.Year", "INT")
tMonth = ReadFromPLC("Well_Test.DateTime_Complete.Month", "INT")
tDay = ReadFromPLC("Well_Test.DateTime_Complete.Day", "INT")
tHour = ReadFromPLC("Well_Test.DateTime_Complete.Hour", "INT")
tMin = ReadFromPLC("Well_Test.DateTime_Complete.Min", "INT")
tSec = ReadFromPLC("Well_Test.DateTime_Complete.Sec", "INT")
test_date = datetime(year=tYear, month=tMonth, day=tDay, hour=tHour, minute=tMin, second=tSec)
test_duration = round(ReadFromPLC("Well_Test.Test_Duration", "REAL"), 3)
v_water = round(ReadFromPLC("Well_Test.Volume_Water", "REAL"), 3)
v_oil = round(ReadFromPLC("Well_Test.Volume_Oil", "REAL"), 3)
v_gas = round(ReadFromPLC("Well_Test.Volume_Gas", "REAL"), 3)
p_v_water = round(ReadFromPLC("Well_Test.Projected_Volume_Water", "REAL"), 3)
p_v_oil = round(ReadFromPLC("Well_Test.Projected_Volume_Oil", "REAL"), 3)
k_factor = round(ReadFromPLC("Well_Test.k_Factor", "REAL"), 3)
api_oil = round(ReadFromPLC("Well_Test.API_Oil", "REAL"), 3)
sg_water = round(ReadFromPLC("Well_Test.SG_Water", "REAL"), 3)
with con:
cur = con.cursor()
test_query = "INSERT INTO Well_Test (test_date, test_volume_oil, test_volume_water, test_volume_gas, k_factor, projected_volume_oil, projected_volume_water, api_gravity_oil, sg_water, test_hours) VALUES ('{0}', '{1}', '{2}', '{3}', '{4}', '{5}', '{6}', '{7}', '{8}', '{9}');".format(test_date, v_oil, v_water, v_gas, k_factor, p_v_oil, p_v_water, api_oil, sg_water, test_duration)
# print test_query
storeTest = con.execute(test_query)
con.commit()
already_entered_well_test = True
print "Well Test Stored!"
time.sleep(.20)

348
dataLogger_pycomm.py
View File

@@ -1,348 +0,0 @@
#!/usr/bin/env python
import csv
from datetime import datetime
import os
import sys
import time
import MySQLdb
from pycomm.ab_comm.clx import Driver as ClxDriver
import logging
def readTag(addr, tag):
'''
Reads tag values from the PLC
addr: IP Address of PLC
tag: tag name (string) or list of tag names (strings)
returns either a tuple with the value and type of the tag or a list of tuples
'''
logging.basicConfig(
filename="u800Driver.log",
format="%(levelname)-10s %(asctime)s %(message)s",
level=logging.DEBUG
)
c = ClxDriver()
if c.open(addr):
try:
v = c.read_tag(tag)
# print(v)
return v
except Exception:
err = c.get_status()
c.close()
print err
pass
c.close()
def main():
db = MySQLdb.connect(host="127.0.0.1",user="website",passwd="henrypump",db="WellData")
cur = db.cursor()
query = "SELECT * FROM WellData.config ORDER BY dateChanged DESC LIMIT 1;"
cur.execute(query)
setup = cur.fetchall()
db.commit()
db.close()
try:
PLC_IP_ADDRESS = setup[0][2]
PLC_TYPE = setup[0][1]
except:
print("PLC Address not set in database... using default of 192.168.1.10")
PLC_IP_ADDRESS = "192.168.1.10"
PLC_TYPE = "VFD"
sys.path.append("../")
path_to_CSV = "/mnt/usb/"
#PYCOMM Connection to PLC
from pycomm.ab_comm.clx import Driver as ClxDriver
c = ClxDriver(True, 'ClxDriver.log')
if os.path.exists(path_to_CSV + "current.csv"):
os.remove(path_to_CSV + "current.csv")
tags_to_read = [['Card_Past[1].ID', 'INT', "Card_ID"],
['Card_Past[1].Params.Num_Tapers', 'INT', 'Num_Tapers'],
['Card_Past[1].Num_Points', 'INT', 'Num_Points'],
['Card_Past[1].Card_Type', 'INT', 'Card_Type'],
['Card_Past[1].End_Time.Year', 'INT', '_Year'],
['Card_Past[1].End_Time.Month', 'INT', '_Month'],
['Card_Past[1].End_Time.Day', 'INT', '_Day'],
['Card_Past[1].End_Time.Hour', 'INT', '_Hour'],
['Card_Past[1].End_Time.Min', 'INT', '_Minute'],
['Card_Past[1].End_Time.Sec', 'INT', '_Second'],
#['Card_Past[1].Name.Data[0]','STRING', 'Well_Name'],
['Card_Past[1].Params.Tubing_Head_Pressure','REAL', 'Tubing_Head_Pressure'],
['Card_Past[1].Params.Fluid_Gradient','REAL', 'Fluid_Gradient'],
['Card_Past[1].Params.Stuffing_Box_Friction','REAL', 'Stuffing_Box_Friction'],
['Card_Past[1].Params.dt','REAL', 'dt'],
# ['Card_Past[1].Downhole_Max_Load.Load','REAL', 'Downhole_Max_Load'],
# ['Card_Past[1].Downhole_Min_Load.Load','REAL', 'Downhole_Min_Load'],
# ['Card_Past[1].Downhole_Max_Position.Position','REAL', 'Downhole_Max_Position'],
# ['Card_Past[1].Downhole_Min_Position.Position','REAL', 'Downhole_Min_Position'],
['Card_Past[1].Downhole_GrossStroke','REAL', 'Downhole_Gross_Stroke'],
['Card_Past[1].Downhole_AdjustedGrossStroke','REAL', 'Downhole_Adjusted_Gross_Stroke'],
['Card_Past[1].Downhole_NetStroke','REAL', 'Downhole_Net_Stroke'],
['Card_Past[1].Downhole_FluidLoad','REAL', 'Downhole_Fluid_Load'],
['Card_Past[1].Surface_Max.Load','REAL', 'Surface_Max_Load'],
['Card_Past[1].Surface_Min.Load','REAL', 'Surface_Min_Load'],
# ['Card_Past[1].Surface_Max.Position','REAL', 'Surface_Max_Position'],
# ['Card_Past[1].Surface_Min.Position','REAL', 'Surface_Min_Position'],
['Card_Past[1].Tubing_Movement','REAL', 'Tubing_Movement'],
['Card_Past[1].Surface_StrokeLength','REAL', 'Surface_Stroke_Length'],
['Card_Past[1].Fillage_Percent','REAL', 'Fillage_Percent'],
['Card_Past[1].Polished_Rod_HP','REAL', 'Polished_Rod_HP'],
['Card_Past[1].Pump_HP','REAL', 'Pump_HP'],
['Card_Past[1].SPM','REAL', 'SPM'],
['Card_Past[1].Fluid_Above_Pump','REAL', 'Fluid_Above_Pump'],
['Stroke_Production','REAL', 'Stroke_Production'],
['Pump_Intake_Pressure','REAL', 'Pump_Intake_Pressure'],
]
def readString(tag):
read_vals = c.read_array(tag, 82)
string = filter(lambda b: b != "",map(lambda a: chr(a[1]),read_vals))
return "".join(string)
cards_read = 1
read_tapers = False
already_gauged_off = False
already_entered_well_test = False
try:
if c.open(PLC_IP_ADDRESS):
while True:
data = {}
now = datetime.now()
run_status = c.read_tag(['Pump.Run_Status'])[0][1]
card_id = c.read_tag(['Card_Past[1].ID'])[0][1]
fillage_percent = c.read_tag(['Card_Past[1].Fillage_Percent'])[0][1]
fluid_above_pump = c.read_tag(['Card_Past[1].Fluid_Above_Pump'])[0][1]
stroke_production = c.read_tag(['Stroke_Production'])[0][1]
with open('/mnt/usb/status.txt', 'w') as status_file:
status_file.write("{0}-->{1}\n{2},{3},{4},{5}".format(datetime.strftime(now,"%Y%m%d_%H%M%S"), run_status, card_id, fillage_percent, fluid_above_pump, stroke_production))
#############
# CARD DATA #
#############
EOS = c.read_tag(["End_Of_Stroke"])[0][1]
Already_Read = c.read_tag(["Card_Past[1].Data_Read"])[0][1] > 0
if (EOS and not Already_Read and (EOS != 911)):
num_points = c.read_tag(["Card_Past[1].Num_Points"])[0][1]
data['Well_Name'] = readString('Card_Past[1].Name.Data')
filename = path_to_CSV + "current.csv"
myfile = open(filename, 'wb')
wr = csv.writer(myfile, quoting=csv.QUOTE_ALL)
stroke_time = time.time()
dt = datetime.fromtimestamp(stroke_time)
wr.writerow(['localtime', dt])
wr.writerow(['utctime', datetime.utcfromtimestamp(stroke_time)])
# wr.writerow(["Well_Name",data["Well_Name"]])
for t in tags_to_read:
data[t[2]] = c.read_tag([t[0]])[0][1]
wr.writerow([t[2],data[t[2]]])
numPointsRead = num_points + 1
sp = c.read_array("Card_Past[0].Surface_Position", numPointsRead)
sl = c.read_array("Card_Past[0].Surface_Load", numPointsRead)
dp = c.read_array("Card_Past[0].Downhole_Position", numPointsRead)
dl = c.read_array("Card_Past[0].Downhole_Load", numPointsRead)
wr.writerow(["s_pos", "s_load"])
for i in range(0, numPointsRead):
if sp[i][1] and (sp[i][1] != 0.0) and sl[i][1]:
wr.writerow([round(sp[i][1],3), round(sl[i][1],3)])
wr.writerow(["d_pos", "d_load"])
for i in range(1, numPointsRead):
if dp[i][1] and (dp[i][1] != 0.0) and dl[i][1]:
wr.writerow([round(dp[i][1],3), round(dl[i][1],3)])
myfile.close()
dt = datetime(year = data["_Year"], month = data["_Month"],day = data["_Day"],hour = data["_Hour"],minute = data["_Minute"],second = data["_Second"])
st = datetime.strftime(dt,"%Y%m%d_%H%M%S")
date = datetime.strftime(dt,"%Y%m%d")
if (data["Card_Type"] == 0):
data["Card_Type"] = "Normal"
elif (data["Card_Type"]==1):
data["Card_Type"] = "Shutdown"
elif (data["Card_Type"]==2):
data["Card_Type"] = "Alarm"
elif (data["Card_Type"]==3):
data["Card_Type"] = "Startup"
else:
data["Card_Type"] ="Unknown"
if not os.path.exists(path_to_CSV +"CSV/"+date):
os.makedirs(path_to_CSV+"CSV/"+date)
fill_percent_file = str(round(data['Fillage_Percent'],3)).replace(".","-")
rename_file = path_to_CSV+"CSV/"+ date+"/"+st+"_"+str(data["Card_ID"])+"_"+data['Card_Type']+ "_"+fill_percent_file +".csv"
os.rename(filename, rename_file)
c.write_tag('Card_Past[1].Data_Read', 1, 'REAL')
print "CARD NUMBER " + str(cards_read) + " READ: "+str(data["Card_ID"])+ ", STORED AS "+ rename_file
cards_read = cards_read + 1
##############
# TAPER DATA #
##############
update_taper = c.read_tag(["Write_Tapers"])[0][1]
if (update_taper == 0):
if read_tapers:
read_tapers = False
print "Update Tapers = False"
if (update_taper and (not read_tapers) and (update_taper != 911)):
print "reading taper file"
taper_count = 0;
tFilename = path_to_CSV + "CSV/TAPER/TAPER_" + datetime.strftime(now,"%Y%m%d_%H%M%S")+ '.CSV'
tFile = open(tFilename, 'wb')
twr = csv.writer(tFile, quoting=csv.QUOTE_ALL)
for taps in range(1,10):
taper_in_use_temp = c.read_tag(['Taper.Taper[' + str(taps)+'].Calculated.InUse'])[0][1]
if taper_in_use_temp:
taper_count = taper_count + 1
#print "reading Taper"+ str(taper_count)
twr.writerow(["Taper",taper_count])
twr.writerow(['Length',c.read_tag(['Taper.Taper['+str(taps) +'].Setup.Length'])[0][1]])
twr.writerow(['Diameter',c.read_tag(['Taper.Taper['+str(taps) +'].Setup.Diameter'])[0][1]])
tMaterial = c.read_tag(['Taper.Taper['+str(taps) +'].Setup.Material'])[0][1]
if (tMaterial == 1):
twr.writerow(['Material',"Steel"])
elif (tMaterial == 2):
twr.writerow(['Material',"Fiberglass"])
twr.writerow(['Weight_Per_Foot', c.read_tag(['Taper.Taper['+str(taps) +'].Setup.Weight'])[0][1]])
twr.writerow(['Youngs_Modulus',c.read_tag(['Taper.Taper['+str(taps) +'].Setup.Youngs_Modulus'])[0][1]])
twr.writerow(['Damping_Factor',c.read_tag(['Taper.Taper['+str(taps) +'].Setup.c'])[0][1]])
twr.writerow(['Area',c.read_tag(['Taper.Taper['+str(taps) +'].Calculated.Area'])[0][1]])
twr.writerow(['Rod_Depth',c.read_tag(['Taper.Taper['+str(taps) +'].Calculated.Rod_Depth'])[0][1]])
twr.writerow(['Pressure',c.read_tag(['Taper.Taper['+str(taps) +'].Calculated.Pressure'])[0][1]])
twr.writerow(['Buoyant_Force',c.read_tag(['Taper.Taper['+str(taps) +'].Calculated.Buoyant_Force'])[0][1]])
twr.writerow(['Rod_Weight',c.read_tag(['Taper.Taper['+str(taps) +'].Calculated.Rod_Weight_Air'])[0][1]])
twr.writerow(['Force',c.read_tag(['Taper.Taper['+str(taps) +'].Calculated.Force'])[0][1]])
twr.writerow(['Stretch',c.read_tag(['Taper.Taper['+str(taps) +'].Calculated.Stretch'])[0][1]])
twr.writerow(["",""])
else:
break
twr.writerow(["UnitConfig",""])
twr.writerow(['Pump_Diameter',c.read_tag(['UnitConfig.Pump_Diameter'])[0][1]])
tFile.close()
read_tapers = True
print "TAPER DATA READ: "+ tFilename
##################
# GAUGE OFF DATA #
##################
gauge_off = c.read_tag(['Gauge_Off_Command'])[0][1]
if (gauge_off == 0):
if already_gauged_off:
already_gauged_off = False
print "Already gauged off... Setting gauge_off to False"
if (gauge_off and (not already_gauged_off)):
print "Gauging off..."
gYear = c.read_tag(['GAUGEOFF_DateTime.Year'])[0][1]
gMonth = c.read_tag(['GAUGEOFF_DateTime.Month'])[0][1]
gDay = c.read_tag(['GAUGEOFF_DateTime.Day'])[0][1]
gHour = c.read_tag(['GAUGEOFF_DateTime.Hour'])[0][1]
gMin = c.read_tag(['GAUGEOFF_DateTime.Min'])[0][1]
gSec = c.read_tag(['GAUGEOFF_DateTime.Sec'])[0][1]
gauge_date = datetime(year = gYear, month = gMonth,day = gDay,hour = gHour,minute = gMin,second = gSec)
print "gaugeDate: {0}".format(gauge_date)
percent_run = round(c.read_tag(['GAUGEOFF_Percent_Run'])[0][1],2)
print "percent_run: {0}".format(percent_run)
kWh = round(c.read_tag(['GAUGEOFF_kWh'])[0][1],3)
print "kWh: {0}".format(kWh)
electricity_cost = round(c.read_tag(['GAUGEOFF_Electricity_Cost'])[0][1],2)
print "electricity_cost: {0}".format(electricity_cost)
peak_load = round(c.read_tag(['GAUGEOFF_Max_Load'])[0][1],3)
print "peak_load: {0}".format(peak_load)
min_load = round(c.read_tag(['GAUGEOFF_Min_Load'])[0][1],3)
print "min_load: {0}".format(min_load)
average_SPM = round(c.read_tag(['GAUGEOFF_Average_SPM'])[0][1],4)
print "average_SPM: {0}".format(average_SPM)
production_calculated = round(c.read_tag(['GAUGEOFF_Production_Calculated'])[0][1],2)
print "production_calculated: {0}".format(production_calculated)
full_card_production = round(c.read_tag(['GAUGEOFF_Full_Card_Production'])[0][1],2)
print "full_card_production: {0}".format(full_card_production)
polished_rod_HP = round(c.read_tag(['GAUGEOFF_Polished_Rod_HP'])[0][1],3)
print "polished_rod_HP: {0}".format(polished_rod_HP)
lifting_cost = round(c.read_tag(['GAUGEOFF_Lifting_Cost'])[0][1],4)
print "lifting_cost: {0}".format(lifting_cost)
fluid_above_pump = round(c.read_tag(['GAUGEOFF_Fluid_Above_Pump'])[0][1],2)
print "fluid_above_pump: {0}".format(fluid_above_pump)
pump_intake_pressure = round(c.read_tag(['GAUGEOFF_pump_intake_pressure'])[0][1],2)
print "pump_intake_pressure: {0}".format(pump_intake_pressure)
kWh_regen = round(c.read_tag(['GAUGEOFF_kWh_regen'])[0][1],2)
print "kWh_regen: {0}".format(kWh_regen)
inflow_rate = round(c.read_tag(['GAUGEOFF_Inflow_Rate'])[0][1],4)
print "inflow_rate: {0}".format(inflow_rate)
db = MySQLdb.connect(host="127.0.0.1",user="website",passwd="henrypump",db="WellData")
cur = db.cursor()
print """INSERT INTO WellData.Hist_Day (gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate) VALUES ('%s', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f');"""%(gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate)
storeHist = cur.execute("""INSERT INTO WellData.Hist_Day (gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate) VALUES ('%s', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f', '%f');"""%(gauge_date, percent_run, kWh, electricity_cost, peak_load, min_load, average_SPM, production_calculated, full_card_production, polished_rod_HP, lifting_cost, fluid_above_pump, pump_intake_pressure, kWh_regen, inflow_rate))
db.commit()
db.close()
already_gauged_off = True
print "Gauged off!"
# ##################
# # WELL TEST DATA #
# ##################
well_test_entered = c.read_tag(['Well_Test.Test_Submit'])[0][1]
if (well_test_entered == 0):
if already_entered_well_test:
already_entered_well_test = False
print "Already entered well Test... Setting well_test_entered to False"
if (well_test_entered and (not already_entered_well_test) and well_test_entered != 911):
print "Well Test Entered"
tYear = c.read_tag(['Well_Test.DateTime_Complete.Year'])[0][1]
tMonth = c.read_tag(['Well_Test.DateTime_Complete.Month'])[0][1]
tDay = c.read_tag(['Well_Test.DateTime_Complete.Day'])[0][1]
tHour = c.read_tag(['Well_Test.DateTime_Complete.Hour'])[0][1]
tMin = c.read_tag(['Well_Test.DateTime_Complete.Min'])[0][1]
tSec = c.read_tag(['Well_Test.DateTime_Complete.Sec'])[0][1]
test_date = datetime(year = tYear, month = tMonth,day = tDay,hour = tHour,minute = tMin,second = tSec)
test_duration = round(c.read_tag(['Well_Test.Test_Duration'])[0][1],3)
v_water = round(c.read_tag(['Well_Test.Volume_Water'])[0][1],3)
v_oil = round(c.read_tag(['Well_Test.Volume_Oil'])[0][1],3)
v_gas = round(c.read_tag(['Well_Test.Volume_Gas'])[0][1],3)
p_v_water = round(c.read_tag(['Well_Test.Projected_Volume_Water'])[0][1],3)
p_v_oil = round(c.read_tag(['Well_Test.Projected_Volume_Oil'])[0][1],3)
k_factor = round(c.read_tag(['Well_Test.k_Factor'])[0][1],3)
api_oil = round(c.read_tag(['Well_Test.API_Oil'])[0][1],3)
sg_water = round(c.read_tag(['Well_Test.SG_Water'])[0][1],3)
db = MySQLdb.connect(host="localhost",user="website",passwd="henrypump",db="WellData")
cur = db.cursor()
test_query = "INSERT INTO WellData.Well_Test (test_date, test_volume_oil, test_volume_water, test_volume_gas, k_factor, projected_volume_oil, projected_volume_water, api_gravity_oil, sg_water, test_hours) VALUES ('{0}', '{1}', '{2}', '{3}', '{4}', '{5}', '{6}', '{7}', '{8}', '{9}');".format(test_date, v_oil, v_water, v_gas, k_factor, p_v_oil, p_v_water, api_oil, sg_water, test_duration)
print test_query
storeTest = cur.execute(test_query)
db.commit()
db.close()
already_entered_well_test = True
print "Well Test Stored!"
time.sleep(.20)
except Exception, e:
print("FATAL ERROR: Communication Error connecting to the PLC... ", e)
c.forward_close()
c.open(PLC_IP_ADDRESS)
main()
if __name__ == '__main__':
main()