I posted this thread yesterday and the topic of Natural
Gas came up so I thought that this topic should be brought to the Top of
the forum as it were.
GAO
Oil and Gas Industry Report (Edited
Here is an article on Natural Gas. It is a year old but it has several
links so folks can do their own checking up on the situation. This is posted
mainly to raise the awareness of problems in the Natural Gas Industry.
Natural
Gas: A Vital But Noncompliant Industry
http://www.shineon.org/y2k/pages/industry/util32.html
The writer has worked for fifteen years for National Fuel Gas. He spent
seven years as a computer programmer and systems analyst working on computerized
materials management, purchasing, and oil and gas accounting systems in
an IBM mainframe environment. The primary languages were COBOL and CICS
(IBM�s teleprocessing language). Since then the writer has worked eight
years as a database administrator, working with Software AG�s ADABAS database,
and the NATURAL programming language. His duties include software installations,
maintenance and tuning, and database design work. Since 1997, he has also
begun working as a database administrator with ORACLE databases.
* * * * * * * * *
NATURAL GAS AND THE YEAR 2000
Paul Slish
Natural gas is a major energy source in the U.S. Natural gas accounts
for 31% of energy production and 25% of energy consumption in the U.S.
More than 50% of the energy consumed by residential and commercial customers
is supplied. by natural gas. Natural gas provides 41% of the energy used
by U.S. industry. 27% of this production comes from offshore
areas.
99% of the natural gas consumed is produced in North America. There
are more than 60 million
residential and commercial natural gas customers in the U.S. This totals
to 175,000,000 American consumers. 53% of American homes use natural gas
for a total of 59 million. In the U.S. there are 288,000 producing natural
gas wells, 125 natural gas pipeline companies, and 1200 gas distribution
companies. The transmission and main distribution pipelines total 1,300,000
miles. The U.S. accounts for 24%
of the world's annual natural gas production. 17%
of the natural gas consumed in the U.S. is used to produce electric power.
This represents 11%
of the electric power generated.
There are basically five segments of the industry: exploration, production,
transmission, storage, and distribution. Obviously, if there is any significant
disruption, even in the short run, to production, transmission, or distribution
of natural gas, it would wreak havoc in the lives of residential consumers,
and to the operations of most of the commercial and industrial concerns
in the U.S. Any lengthy disruption to either exploration or storage (either
incoming or outgoing) would also wreak havoc to the U.S. economy.
A brief history of the use of natural gas in the U.S. is found at www.natfuel.com/history.html.
The five industry segments will be discussed with reference to computer
systems and the year 2000. The writer is a senior systems analyst in the
information services department at National Fuel Gas Company of Buffalo,
NY. He is not aware of any web site or other published literature comprehensively
examining the entire natural gas industry in relation to computer problems
as January 1, 2000 approaches. This brief paper is only exploratory, and
is certainly subject to revision and correction if more information becomes
available.
PCs, networks, and servers are widely used by oil and gas exploration
engineers and technicians. The potential problems with PCs as the calendar
crosses over to 01/01/2000 are well
documented. Failures in PCs could hinder exploration efforts. Secondly
drilling sites must be chosen after initial analysis. Drilling rigs, especially
offshore rigs, contain numerous microprocessor controls. Microprocessor
controls are also called process logic controllers (PLCs). They can be
programmable, meaning the software controlling them can be modified, or
the program can be permanently written to the controller. A permanently
written controller is often called an embedded chip. I will refer to them
as PLCs for the remainder of this paper to reduce the verbiage. Potential
problems with PLCs in the oil and gas industries after reaching January
1, 2000 are documented (click archive, then click April, 1998) OR (Shemwell,
Scott M., Jerry Dake, and Bruce Friedman, "Will the Millennium Bug Give
Your Operations the Flu?", "World Oil", Houston TX: Gulf Publishing Company,
April 1998, Volume 219, No. 4). In brief, a short term problem with either
PCs, or PLCs in drilling rigs would temporarily hinder or suspend exploration
work. Any long term problem would eventually impact the supply situation
of natural gas. This is a real possibility.
Once a well is drilled, and gas is found in commercially profitable
quantities and sufficient pressure, the well must be put into production.
Production is the second major segment of the natural gas industry. First
the well must be completed. Various control mechanisms must be installed,
and the well must be connected to a gathering line. The completed well
may have various automated (computerized) controls associated with it.
For an offshore well, the drilling platform is removed and a production
platform is installed. Like a drilling platform, a production platform
is equipped with a multitude of PLCs. Also there is the pipeline transporting
the gas from the offshore platform to the onshore extraction or processing
plant. This pipeline runs along the bottom of the gulf or sea to shore
and is not easily accessible. Recall that 27% of natural gas produced comes
from offshore wells. Failures in offshore production platforms would quickly
impact the supply of natural gas. Here is a brief description of how gas
moves from the well into the transmission system.
The raw natural gas that flows from a well must be cleaned and treated.
A pipe called a gathering line carries the gas from the well to an extraction
unit, which removes such impurities as dust, sulfur, and water. The gas
may then flow to nearby processing plants, which remove butane, propane,
natural gasoline, and other substances not needed in the fuel. (The World
Book Encyclopedia, Chicago: World Book, Inc., 1988, Vol. 8, pp. 53).
Next let�s review transmission and distribution.
The processed natural gas is then fed into underground, long-distance
transmission pipelines, which carry it to cities and towns along their
routes. Gas is sent through transmission pipelines under tremendous pressures
- usually 1000 pounds per square inch (70 kilograms per square centimeter).
The pressure drops along the route because of the friction of the gas against
the pipe walls. It also falls when communities remove gas. Compressor Stations
along the line restore high pressure and push the gas on to its farthest
destination. Many lines have automatically operated stations that increase
or decrease the pressure to meet the demands of various communities. Gas
usually travels through pipelines at about 15 miles (24 kilometers) per
hour...
Inspectors on foot and in airplanes check continually for conditions
that might damage the pipelines... In addition, instruments installed along
pipelines automatically report leaks and other faulty conditions.
In cities and towns, distribution lines carry the gas to consumers.
There are two kinds of distribution lines - mains and individual service
lines. Mains are large pipes connected to the transmission pipelines. Service
lines are smaller pipes that branch out from the mains. The service lines
carry the fuel sold by gas utility companies to homes, factories, restaurants,
hotels, and other buildings. (Ibid. pp. 53,56).
First, the above cited material makes it clear there is considerable
use of automation in the transmission and distribution of natural gas.
There are both instruments (PLCs) installed along the lines, and numerous
PLCs in the compressor stations. If any of these PLCs are involved in event
monitoring, which some are, then they would be logging times and dates.
That makes them susceptible to the millennium bug. Regulator stations decrease
the pressure when gas moves from a main to a service line in the distribution
system. Again date sensitive PLCs are present in many regulator stations.
Also there are larger gas control centers which make extensive use of PCs,
servers and networks. PCs manufactured as late as 1997 may have date related
problems as January 1, 2000 is reached. What are the implications of PC
failures, or reversions to 1980 or 1984 dates, in a gas control system
come Jan. 1, 2000?
The gas that moves through a pipeline must be measured. It has to be
measured when it enters the transmission system, and it has to be measured
again each time it passes into another company�s pipeline. There are gas
measurement computers which obviously have to measure a volume of natural
gas over a time interval. For example, they would measure something like
so many thousands of cubic feet per second. Are these gas measurement computers
year 2000 compliant? If some are not, then there is a major accounting
problem even if the pipeline companies can still successfully move the
gas. If a company cannot properly measure and bill for gas, it could either
get sued in court or possibly even go bankrupt.
PLCs are real time systems currently in operation, and how will we know
they will work correctly when Jan. 1, 2000 arrives? Real time systems are
very difficult to test. You can�t take them off-line for testing, if you
need to run them 24 hours a day to maintain your gas pipeline system. There
would have to be sufficient capacity on an alternate line to shut a line
down for testing. Even if a line could be shut down, it is impossible to
advance the date on PLCs where the software is permanently etched on the
chip.
Gas storage faces basically the same issues as transmission and distribution
in relation to PLCs and gas measurement computers. Measurement definitely
has a date sensitivity. Remember, January 1, 2000 will be in the dead of
winter, when withdrawals from storage are essential to maintaining adequate
throughput in the pipelines that supply homes and businesses. At this point
I have briefly reviewed the use of computers in the five major segments
of the natural gas industry. A major issue must now be discussed. No particular
transmission pipeline or distribution company runs its system in isolation
from other pipelines. In fact there is an integrated North American natural
gas production, transmission, storage and distribution system. As noted
earlier there are 1,300,000 miles of transmission and main distribution
pipelines in North America. Gas is moved from the southwestern U.S. to
the highly populated eastern United States by about four major pipeline
companies. The Trans-Canada pipeline ties in with U.S. pipeline companies
in the northern United States. For example, Trans-Canada ties in with National
Fuel�s system at Lewiston, NY. Specifically they meet at the bottom of
the Niagara River halfway across.
Therefore any significant shutdown of the production system would within
a few days severely impact the transmission and distribution systems. A
shutdown in any of the major transmission pipelines would quickly impact
the remainder of the transmission system and the distribution system. Problems
with withdrawals at any significant number of storage fields in the middle
of winter would have a large impact on the distribution system. With the
high level of use of PCs, networks, servers, and process logic controllers
in all segments of the natural gas industry, the possibility of various
failures taking place once January 1, 2000 is reached is high. The millennium
bug could possibly hit the natural gas production, transmission, distribution,
and storage network quite hard. Why do I come to this conclusion?
As mentioned earlier there are 288,000 gas wells, 125 pipeline companies,
and 1200 distribution companies in the U.S. Who is coordinating Y2K repairs
among all these producers, transmitters, and distributors? There is no
group or managerial body systematically doing this. The American Gas Association
website recently added a page entitled "Operating and Engineering Year
2000 Issues for members." But we are just over 19 months from the deadline.
It is rather late. The Interstate Natural Gas Association, and the Gas
Research Institute are both conducting surveys
of their members, according to Kathleen Hirning, the CIO of FERC. Surveys
are very initial steps. Some of these companies may be doing very well
in remediating their computer systems for Y2K compliance. Others, however,
may not be. The question is,who knows? How many pipeline companies need
to experience Y2K related failures, before the overall transmission system
is substantially impacted? Recall that natural gas accounts for 25% of
the energy consumed in the U.S. I find it astounding that as of mid 1998
there is no managerial body comprehensively measuring the progress of Y2K
remediation in the nationwide natural gas industry, let alone prodding
laggard companies into increased action or any action at all.
Recall also that 17% of natural gas produced is used to generate electricity.
11% of electric energy is produced in this fashion. Failures in the natural
gas transmission and distribution network could heavily impact electricity
generation. Conversely, the natural gas system could not be sustained for
any length of time if there are long term electrical power outages. There
is backup electricity generation capabilities in many instances, but it
is not designed for long term usage of weeks or months. At this time, the
writer cannot forecast one way or the other whether the natural gas system
will perform reliably come January 1, 2000.
National Fuel Gas (NFG) of Buffalo, NY is an integrated natural gas
company with annual revenues of about $1,200,000,000. NFG performed an
initial analysis of the Y2K problem in 1992, and a detailed analysis and
inventory in 1995. All information systems and non-information systems
(process control) are in the process of remediation and testing as of this
writing. All remediation and testing is scheduled to be completed by December
31, 1998. Everything is on schedule now. But what about the rest of the
natural gas industry?