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Students Get Jobs, and Bring a Fresh Perspective

January 7, 2014
Education, engineering, graduation, infrastructure, innovation, Leadership, Student Achievement, Uncategorized, utilities, water sewer management, water supplies
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We get to start the new semester this week.  The economy is looking up in Florida.  Unemployment is down, although the job growth appears to be mostly minimum wage jobs.  So it is useful to look at last semester’s graduates and see how they are doing.  The good news is they are getting jobs.  In fact our seniors mostly have jobs or internships and none of them are minimum wage jobs.  Excellent news, but let’s look at the new graduates and the workplace. 

A lot of our assumptions about the workplace will change in the 21st century.  The workplace at the “office” is less necessary and younger workers are more comfortable working outside the office environment.  They may be more productive than 20th century managers think they will be because of the side benefits that flex hours allow.  Their entry into the workforce places four generations at work at once:  Traditionalists, Baby Boomers, Gen X, and Gen Y or Millennials.  The latter are the fastest growing segment of the workforce, and are already a larger percent of the workforce than Gen X or Traditionists.  The Traditionalists are retiring and are expected to be under 8 % in 2015.  Gen X and Gen Y will encompass about a third of the workforce going forward.

All of these groups have different perspectives.  Recent studies indicate the following.  Baby Boomers grew up post-WWII in a time of change and reform.  Some believe they are instruments of change.  They are optimistic, hard-working and motivated by position.  Gen X grew up in an era of both parents working, so are resourceful and hardworking, but not as motivated by position.  They are independent, and prefer to work on their own.  And many are contributing to the way government operates throughout the world. They accept technology as a way to involve others.  The use of online means to solicit feedback in government is particularly a Gen X phenomenon.  Public participation, traditionally are arena where limited public involvement actually occurs except with highly unpopular issues.

Gen Y was born in an era when both parents worked, but in their off-time, the parents spent more focus on the kids.  Think of no winners or losers in sports, but at the same time they have had unprecedented access to technology and are often well ahead of their work mates with respect to the use of tools in the workplace.  But, they are resourceful and can easily overcome technology barriers in the workplace. They care about their image and the world around them.  We can use that to implement change.

However, Gen Y is facing a workplace that clearly has winners as well as some skepticism about technology.  While we can expect some difficulties, it is up to the Gen X and Baby Boomers to help Gen Y make the transition. They have fresh viewpoints as they have had to be creative to get ahead.  Just doing things “the same old way,” doesn’t cut it.  I actually find this refreshing and a positive challenge to me because I use these challenges to go back of evaluate what my thinking was (or is).  We need to embrace this perspective and channel their energy and independence to solving today’s problems. 

We need to help them acclimate to the business world, while understanding that their motivations are not the same as Dan Pink notes in his book “Drive.”  We need new ideas and perspectives while welcoming them to the workplace.  That is how we improve productivity, product new ways to work, and develop new tools.  We need all of these in the utility industry as we need better ways to upgrade infrastructure and deliver our services.

There is a lot of talk about the difficulties that Gen Y is having getting jobs.  They often lack experience, but how do you get experience if no one hires you.  It is circular logic and we have all been there. 

We need to give the kids a chance.  I see a lot of potential in our graduates, nearly all of whom are Gen Y.  I see many who are hard working and know how to find answers to their questions.   They are far better prepared than many think.  We get comments all the time about how good our students are.  That is good, because the truth is, especially in the engineering and utility world, the Gen Y workforce does not understand why things were done a certain way in the past, nor why they should remain that way.  I actually find this refreshing and a positive challenge to me because I use these challenges to go back of evaluate what my thinking was (or is).  We need to embrace this perspective and channel their energy and independence to solving today’s problems.  They offer fresh ideas – and don’t necessary understand why.  That’s ok.  Long-term engineering graduates will make contributions to our water, sewer and other infrastructure. 

Rural Utilities Part 2

December 21, 2013
economy, engineering, finance, funding, infrastructure, Leadership, Rural Utilities, Small systems, sustainability, Uncategorized, utilities, Water Funding, water sewer management
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In the last blog I talked about the challenge to rural utilities, many of which serve relatively few people and have used federal monies to pay for a lot of their infrastructure.  In this blog we will take a look at the trends for community water systems which are defined as systems that serve at least 15 service connections or serve an average of at least 25 people for at least 60 days a year. EPA breaks the size of systems down as follows:

  • Very Small water systems serve 25-500 people
  • Small water systems serve 501-3,300 people
  • Medium water systems serve 3,301-10,000 people
  • Large water systems serve 10,001-100,000 people
  • Very Large water systems serve 100,001+ people

Now let’s take a look at the breakdown (from NRC 1997).  In 1960, there were about 19,000 community water utilities in the US according to a National Research Council report published in 1997.  80% of the US population was served.  in 1963 there were approximately 16,700 water systems serving communities with populations of fewer than 10,000; by 1993 this number had more than tripled—to 54,200 such systems. Approximately 1,000 new small community water systems are formed each year (EPA, 1995). In 2007 there were over 52,000 community water systems according to EPA, and by 2010 the number was 54,000.  85% of the population is served. So the growth is in those small systems with incidental increases in the total number of people served (although the full numbers are more significant). 

 

TABLE 1 – U.S. Community Water Systems: Size Distribution and Population Served

 

Number of Community Systems Serving This Size Community a

Total Number of U.S. Residents Served by Systems This Size b>

Population Served

1963

1993

1963

1993

Under 500

5,433 (28%)

35,598 (62%)

1,725,000 (1%)

5,534,000 (2%)

501-10,000

11,308 (59%)

18,573 (32%)

27,322,000 (18%)

44,579,000 (19%)

More than 10,000

2,495 (13%)

3,390 (6%)

121,555,000 (81%)

192,566,000 (79%)

Total

19,236

57,561

150,602,000

242,679,000

a Percentage indicates the fraction of total U.S. community water supply systems in this category.

b Percentage is relative to the total population served by community water systems, which is less than the size of the U.S. population as a whole.

SOURCES: EPA, 1994; Public Health Service, 1965.

 

Updating these numbers, there are over 54,000 systems in the US, and growth is almost exclusively in the very small sector.  93% are considered to be small or very small systems—serving fewer than 10,000 people. Even though these small systems are numerous, they serve only a small fraction of the population. Very small systems, those that serve 3,300 people or fewer make up 84 percent of systems, yet serve 10 percent of the population.  Most critical is the 30,000 new very small systems that serve only 5 million people (averaging 170 per system).  In contrast, the very large systems currently serve 45% of the population.  Large plus very large make it 80%.  The 800 largest systems (1.6%) serve more than 56 percent of the population. 900 new systems were added, but large systems served an additional 90 million people.

What this information suggests if that the large and very large sector has the ability to raise funds to deal with infrastructure needs (as they have historically), but that there may be a significant issue for smaller, rural system that have grown up with federal funds over the past 50 years.  As these system start to come to the end of their useful life, rural customers are in for a significant rate shock. Pipeline average $100 per foot to install.  In and urban area with say, 60 ft lots, that is $3000/household.  In rural communities, the residents may be far more spread out.  As an example, a system I am familiar with in the Carolinas, a two mile loop served 100 houses.  That is a $1.05 million pipeline for 100 hours or $10,500 per house.  With dwindling federal funds, rural customers, who are already making 20% less than their urban counterparts, and who are used to very low rates, that generally do not account for replacement funding, will find major sticker shock. 

This large number of relatively small utilities may not have the operating expertise, financial and technological capability or economies of scale to provide services or raise capital to upgrade or maintain their infrastructure.  Keep in mind that small systems have less resources and less available expertise.  In contrast the record of large and very large utilities, EPA reports that 3.5 percent of all U.S. community water systems violated Safe Drinking Water Act microbiological standards one or more times between October 1992 and January 1995, and 1.3 percent violated chemical standards, according to data from the U.S. Environmental Protection Agency (EPA).. 

EPA and professionals have long argued that centralized infrastructure for water and sewer utilities makes sense form an economy of scale perspective.  Centralized drinking water supply infrastructure in the United States consists dams, wells, treatment plants, reservoirs, tanks, pumps and 2 million miles of pipe and appurtenances.   In total this infrastructure asset value is in the multi-trillion dollar range.  Likewise centralized sanitation infrastructure in the U.S. consists of 1.2 million miles of sewers and 22 million manholes, along with pump stations, treatment plants and disposal solutions in 16,024 systems.  It is difficult to build small reservoirs, dams, and treatment plants as they each cast far more per gallon to construct than larger systems.  Likewise operations, despite the allowance to have less on-site supervision, is far less per thousand gallons for large utilities when compared to small ones.  The following data shows that the economy-of-scale argument is true:

  • For water treatment, water distribution, sewer collection and wastewater treatment, the graphics clearly demonstrated the economy-of-scale of the larger utility operations versus small scale operations (see Figures 2-5). 
  • The administrative costs as a percentage of the.total budget parameter also demonstrated the economy-of-scale argument that larger utilities can perform tasks at a lesser cost per unit than the smaller utilities (see Figure 6).

Having reviewed the operations costs, the next step was to review the existing rates.  Given the economy-of-scale apparent in Figures 2 to 6, it was expected that there would be a tendency for smaller system to have higher rates.  Figures 2-6 demonstrate this phenomena. 

So what to do?  This is the challenge.  Rate hikes are the first issue, a tough sell in areas generally opposed to increases in taxes, rates and charges and who use voting to impose their desires.  Consolidation is anothe5r answer, but this is on contrast to the independent nature of many rural communities.  Onslow County, NC  figured out this was the only way to serve people efficiently 10 years ago, but it is a rougher sell in many, more rural communities.  Infrastructure banks might help, the question is who will create them and will the small system be able to afford to access them.  Commercial financing will be difficult because there is simply not enough income to offset the risk.  The key is to start planning now for the coming issue and realize that water is more valuable than your iPhone, internet, and cable tv.  In most cases we pay more for each of them than water (see Figure 7).  There is something wrong with that…

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Figure 1  Breakdown of Size of Systems

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Fig 2 Cost of Water Treatment

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Fig 3 Cost of Water Distribution

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Fig 4 Cost of Sewer Collection

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Fig 5 Cost of Sewer Treatment

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Fig 6 Cost of Administration as a percent of total budget

 

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FIgure 7 Water vs other utilities

 

Rural Utilities To Feel The Squeeze

December 17, 2013
Climate, communciations, Congress, economy, engineering, funding, Holistic Water Planning, infrastructure, innovation, Leadership, management, Marketing water, politics, Revenues, Risk, Water Funding, water sewer management
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Several weeks ago we looked at the phenomenon of population, income, education and unemployment.  The impact to from the combination of these factors in certain communities can be difficult.  Let’s explore a little further as there is more, interesting data every day.  The US Department of Agriculture is releasing its report of rural America.  The findings are interesting and counter-intuitive to the understanding of voters in many of those communities.  Their findings include:

  • The rural areas grew 0.5 % vs 1.6% in urban areas from mid-2011-mid 2012
  • Rural incomes are 17% lower than urban incomes.
  • The highest income rural works (95th percentile) earn 27% less than their urban counterparts
  • 17.7% of rural constituents live in poverty vs 14.5% in urban areas
  • 80% of the high poverty rate counties were rural
  • All the high income counties are urban.

Wow!  So the ghetto has move to the country? According to these statistics there is truth in that statement.  Let’s look a little further using some on-line mapping. 

First let’s look at where these rural counties are.  Figure 1 is a map from www.dailyyonder.com  that shows (in green) the rural counties in the US.  Wikipaedia shows the 100 lowest income counties in Figure 2.  For the most part, these counties are rural, with the exceptions being a few areas in south Texas and in the Albuquerque/Santa Fe area of New Mexico. Raceonline.com shows the populations in poverty by county.  The red areas are the highest poverty rates.  The red areas in Figure 3 expand Figure 2 to include much of the rural deep south, Appalachia, more of Texas and New Mexico and part of the central valley in California.

Figure 4 shows how the number of young people has changed between 2000 and 2009 in rural counties (urban counties are white and not included – red means a decrease).  Figure 5 shows population growth (or not) by county. What you see in these two maps is that the young people are moving to the rocky mountain states and vacating the high poverty counties in Figure 3.  Yong people do not see jobs in the rural area – unemployment is 20% higher in rural America and the jobs that are there pay less.  Figures 6 and 7 show unemployment by County in 2008 after the start of the Great Recession and in 2013.  What these figures show is that with exception of the Plains states and Rockies, is that many of the areas with high poverty also had high unemployment, and that the unemployment has remains stubbornly high in many rural areas in the Deep South, Appalachia and New Mexico, plus high unemployment in parts to  the Great Lakes, but the poverty rates are still lower.  Education may by a factor in why the Plains states and Rocky Mountains have less unemployment – despite being rural their students are far more likely to graduate from high school than those in the deep South, Appalachia where unemployment remains high and incomes low. 

So what does this possibly have to do with utilities?  Utilities need to understand this problem as is demands some real, on-the-ground leadership.  Small and rural utilities are more costly to operate per thousand gallons than larger utilities.  A 1997 study by the author showed that economy-of-scale manifested itself to a great extent with water and wastewater operations.  The differences were not close – it is a lot less costly to operate large utilities vs small ones.  Rural utilities complicate the issue further because not only is the number of customers limited, but the pipe per customer is less so the capital investment per customer is far higher than in urban areas.  The impact is that utilities are under pressure to reduce rates to customers, or create a set of lower cost rates for those in poverty, while at the same time their costs are increasing and infrastructure demands are incrementally higher than their larger neighbors.  The scenario cannot be sustained, especially when large portions of rural infrastructure was installed with FHA grants, meaning the customers never paid for the capital cost in the first place.  There was no or lower debt, than what larger utility customers have.  The rural rates since these investments have been set artificially lower than they should as a result. But with Congress talking about reducing SRF and FHA programs, FHA is unlikely to step in to replace their initial investment, meaning that the billions of rural investment dollars that will be needed in the coming years will need to be locally derived, and rate shock will become a major source of controversy in areas that are largely very conservative politically and tend to vote against projects that will increase costs to them.

The good news is that much of the rural infrastructure may be newer when compared to much of the urban infrastructure.  So there is time to build the argument that local investment is needed.  The community needs to be engaged in this discussion sooner as opposed to when problems occur.  Saving for the infrastructure may be the best course since rural utilities will have limited access to the borrowing market because of their size, but that means raising rates now and keeping those saved funds as opposed to using them to deer rate increases.  If ongoing efforts in the House deplete federal funding further, the pinch will be felt sooner by rural customers who will lose the federal dollars from SRF and FHA programs. 

 

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Figures 1 – Rural Counties

The United States: By Rural, Urban and Exurban Counties

 

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Figure 2.  100 lowest income Counties in the US

 

http://en.wikipedia.org/wiki/List_of_lowest-income_counties_in_the_United_States

 

 

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Figure 3.  Estimated population in poverty

http://www.raconline.org/racmaps/mapfiles/poverty.jpg

 

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Figure 4.  Where the Young People Are

http://www.raconline.org/maps/topic_details.php?topic=55

 

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Figure 5.  Where people are moving to http://www.raconline.org/maps

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Figure 6  Unemployment 2008

http://en.wikipedia.org/wiki/Unemployment

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Figure 7  Unemployment 2013 http://www.huduser.org/portal/pdredge/pdr_edge_featd_article_040

 

Power to the Utilities?

December 13, 2013
communciations, Education, engineering, finance, funding, Holistic Water Planning, infrastructure, innovation, Leadership, local government, management, Marketing water, planning, power demands, power-water nexus, renewable power, solar power, utilities, Water Funding, water sewer management, wind power
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Local utilities are among the largest power users in their communities.  This is why power companies make agreements with utilities at reduced cost if the utilities will install backup power supplies.  The peak power generation capacity as well as backup capacity is at the local utilities and other large users.  Power companies can delegate this capital cost to large users without the investment concerns.  It works for both parties.  In addition, power companies spend effort to be more efficient with current power supplies, because recovering the costs for new, large plants is difficult, and in ways, cost prohibitive.  Hence small increment options are attractive, especially when they are within high demand areas (distributed power).  The use of localized wind, solar and on-site energy options like biogas are cost effective investments if sites can be found.  That is where the utilities come in.  Many utilities have sites.  Large water utilities may have large reservoirs and tank sites that might be conducive to wind or solar arrays.  Wind potential exists where there are thermal gradients or topography like mountains.  Plant sites with many buildings and impervious areas could also be candidates for solar arrays and mini-wind turbines.  Wastewater plants are gold mines for digester gas that is usually of high enough quantity to drive turbines directly.  So utilities offer potential to increase distributed power supplies, but many water/wastewater utilities lack the expertise to develop and maintain these new options, and the greatest benefit is really to power companies that may be willing to provide as much money in “rent” to the utilities as they can save.   Power entities obviously have the expertise and embedded experience to run distributed options optimally.  So why don’t we do this?

I would speculate several reasons.  First, the water/wastewater utilities have not really considered the option, and if they do there is the fear of having other folks on secure treatment sites.  That can be overcome.  The power entities have not really looked at this either.  The focus in the power industry is to move from oil-based fuels to natural gas to accumulate carbon credit futures, the potential for lower operating costs and better efficiency of current facilities to reduce the need for capital investments.  Power entities operate in a tight margin just like water/wastewater utilities do so saving where you can is a benefit.  There are limited dollars to invest on both sectors and political and/or public service commission issues to overcome to invest in distributed power options at water/wastewater facilities. 

But a longer-term view is needed.  While fossil fuels have worked for us for the last 100 years, the supply is finite.  We are finding that all that fracking might not give us 200 years, but more like 20-40 years of fuel.  We have not solved the vehicle fuel issue and fossil fuels appear to be the best solution for vehicles for the foreseeable future which means they will compete directly with power demands.  Natural gas can be used for vehicles fairly easily as evidenced by the many transit and local government fleets that have already converted to CNG. 

The long-term future demands a more sustainable green power solution.  We can get to full renewable power in the next 100 years, but the low hanging fruit need to be implemented early on so that the optimization of the equipment and figuring out the variables that impact efficiency can be better understood than they are now.  For example, Leadville, CO has a solar array, but the foot of snow that was on it last September didn’t allow it to work very well.  And solar arrays do use water to clean the panels.  Dirty panels are nowhere near as efficient as clean ones.  We need to understand these variables.

Area that are self sufficient with respect to power will benefit as the 21st century moves forward.  There are opportunities that have largely been ignored with respect to renewable power at water and wastewater facilities, and with wastewater plants there is a renewable fuel that is created constantly.  Wastewater plants are also perfect places to receive sludge, grease, septage, etc which increase the gas productions.  There are examples of this concept at work, but so far the effort is generally led by the wastewater utilities.  An example is East Bay Municipal Utility District (Oakland, CA) which produces 120% of its power needs at its wastewater plant, so sells the excess power back to the power company.  There are many large wastewater plants that use digester gas to create power on-site to heat digesters or operate equipment.  Others burn sludge in on-site incinerators to produce power.  But so far the utilities are only reducing their cost as opposed to increasing total renewable power supplies.  A project is needed to understand the dynamics further.  If you are interested, email me as I have several parties wishing to participate in such a venture. 

SRF Wars in Congress – What it Means to Utilities

December 9, 2013
communciations, Congress, economy, Education, engineering, finance, Holistic Water Planning, infrastructure, innovation, Leadership, local government, management, Marketing water, planning, power-water nexus, Revenues, utilities, Water Funding, water sewer management
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As 2014 is only a month away, expect water and sewer infrastructure to become a major issue in Congress.  While Congress has failed to pass budgets on-time for many years, already there are discussions about the fate of federal share of SRF funds.  The President has recommended reduction in SRF funds of $472 million, although there is discussion of an infrastructure fund, while the House has recommended a 70% cut to the SRF program.  Clearly the House sees infrastructure funding as either unimportant (unlikely) or a local issue (more likely).  Past budgets have allocated over $1.4 billion, while the states put up a 20% match to the federal share.  A large cut in federal funds will reverberate through to local utilities, because many small and medium size utilities depend on SRF programs because they lack access to the bond market.  In addition, a delay in the budget passage due to Congressional wrangling affects the timing of SRF funds for states and utilities, potentially delaying infrastructure investments. 

This decrease in funding comes at a time when ASCE rates water and wastewater system condition as a D+ and estimates over $3 trillion in infrastructure investment will be needed by 2020.  USEPA notes that the condition of water and wastewater systems have reached a rehabilitation and replacement stage and that infrastructure funding for water and sewer should be increased by over $500 billion per year versus a decrease of similar amounts or more.  Case Equipment and author Dan McNichol have created a program titled “Dire Straits:  the Drive to Revive America’s Ailing Infrastructure” to educate local officials and the public about the issue with deteriorating infrastructure.  Keep in mind much of what has made the US a major economic force in the middle 20th century is the same infrastructure we are using today. Clearly there is technical momentum to indicate there is greater need to invest in infrastructure while the politicians move the other way.  The public, caught in the middle, hears the two sides and prefers less to pay on their bills, so sides with the politicians as opposed to the data. 

Local utilities need to join the fray as their ability to continue to provide high quality service.  We need to educate our customers on the condition of infrastructure serving them.  For example, the water main in front of my house is a 50 year old asbestos concrete pipe that has broken twice in the past 18 months. The neighborhood has suffered 5 of these breaks in the past 2 months, and the City Commission has delayed replacement of these lines for the last three years fearing reprisals from the public.  Oh and the road in front of my house is caving in next to where the leak was.  But little “marketing” by the City has occurred to show the public the problem.  It is no surprise then that the public does not recognize the concern until service is interrupted.  So far no plans to reinitiate the replacement in front of my house.  The Commission is too worried about rates.

Water and sewer utilities have been run like a business in most local governments for years  They are set up as enterprise funds and people pay for what they use.  Just like the private sector.  Where the process breaks down is when the price is limited while needs and expenses rise.  Utilities are relatively fixed in their operating costs and I have yet to find a utility with a host of excess: workers.  They simply do not operate in this manner.  Utilities need to engage the public in the infrastructure condition discourse, show them the problems, identify the funding needs, and gain public support to operate as any enterprise would – cover your costs and insure you keep the equipment (and pipes) maintained, replacing them when they are worn out.  Public health and our local economies depend on our service. Keep in mind this may become critical quickly given the House commentary.  For years the federal and state governments have suggested future funding may not be forthcoming at some point and that all infrastructure funding should be local.  That will be a major increase in local budgets, so if we are to raise the funds, we need to solicit ratepayer support.  Now!  

Communication in to Often Under-rated with Utilities

December 1, 2013
communciations, economy, Education, engineering, funding, graduation, innovation, Leadership, local government, management, Marketing water, water sewer management
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Communicating effectively in both written form and public speaking is critical for the success of the utility.  I have been reading several books on leadership and communication remains an ongoing issue throughout.  We see many schools trying to incorporate this into the engineering curriculum, but that leaves far too many outside the training “program.”  The problem is that many people think they communicate well, when in fact they do not.  Nothing is  more of a reality check than college students, too many of which write in “text message form” as opposed to real written words.  Presenting utility concepts and ideas to different audiences is an integral part of the profession and unfortunately the technical nature of many of our issues requires technical people to communicate concepts to non-technical audiences.  This s far more difficult than it appears, which is part of why the message may be lost.  .Knowing this fact, aspiring utility employees must become familiar with using visual aids and computer-based tools to convey the important design details, so that, the client, regulators, politicians, the public and even other engineers can envision what the final product will look like and evaluate their ability to successfully execute the project. 

We tell our students that technical communication for civil engineers is essential to the profession and is a prerequisite for a successful engineering career. It assists in conveying information, serves as a thought process tool, and is arguably just as essential as excellent analytical or computational skills. For some, writing well comes naturally, for others, it can be a struggle. The difference can be experience, confidence, and proper planning. Planning makes writing easier. A good place to start would be to make an outline of topics to adequately cover the necessary content and in the appropriate order that allows the reader to follow along in a logical fashion. Of course too many of them resist outlines and read very little.  

Reading and writing go hand in hand.  If you read a lot, you have a better chance of being a good writer than those o do not.  The saving grace of the vampire books, Hunger Games, Game of thrones and 50 Shades series is that someone is actually reading the books. That is a first step.  Of course the news is another matter.  History, of course no so much.  For utility folks, it is technical materials that must be read, digested and conveyed to the ratepayers.  People are naturally suspicious of those they cannot understand, a huge barrier for the industry to overcome. I remind our students than when the general public is asked what engineers do, more than half answer:  drive trains.  Wow.  the disconnect!

It is important to avoid overly long documents with too much technical detail, jargon or specialized terms, distractions and tangents.The consequences of poor communications clearly justify the amount of time and effort required to write well because, for example, the written word in a document is permanent; therefore, the bad impression left with the reader of sloppy work can be extremely damaging.  We need to engage the public in a positive way.  Communication needs to be a more robust goal for all of us than it currently is to engender that needed support.

Do Students Reject Learning Based on Job Expectations?

October 31, 2013
economy, Education, Leadership, management, planning, Student Achievement, water sewer management
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I worked for a while in rural North Carolina.  I confronted two issues there that are instructive. The first was that many people did not value education because for the most part they expected to do menial labor activities on farms or in construction.  They figured they did not need much education. That was the adults!!  Kids in such situations have little hope of succeeding academically when their parents do not value education, and in some cases may either ridicule their efforts or at least be un-supportive of same.  The second was the idea that the “guys” who could not work anywhere but needed a job should get a job with the “city.”  Wow, I’d like to hope we are past both of these, but the Census statistics clearly show we are not on the education part at least.  Census data indicates that when you look at educational spending, per capita income, graduation rates and unemployment rates, the bottom 10 states are:

North Carolina

Tennessee

South Carolina

Nevada

Kentucky

Alabama

Mississippi

West Virginia

Louisiana

Arkansas

All but Nevada (#35) are in the bottom 12 in spending per student and the academic achievement of their students appears to indicate the efforts are inadequate.  For the most part these are largely rural southern states, so my experiences 25 years ago may be no different now. Kids see low wages, higher unemployment and figure what does education get them?, so it perpetuates the myth of their parents. Or maybe it is not a myth afterall?  Interesting these are primarily the states with the highest number of students in poverty, lead my Mississippi’s whopping 71%.  All are over 50%. All among the states with highest rates of food stamp recipients.  So the kids are living the low income expectations.

Where I currently am I periodically interact with inner-city kids. No surprise, there is a similar mindset – the kids see their future as minimum wage jobs that require no skills, or the expectation that the violence of their surroundings will catch up to them (crime, welfare, etc).  None of their expectations require education (although it is surprising how sophisticated their understanding of all of these issues are), so many do not pursue learning with vigor after 10 or 12 years old. Skipping school, suspensions, lower scores and grades are common.  Too many parents do not encourage their kids and the mindset creates deterioration of urban schools. Periodically I have students who are actively trying to escape the stereotypes, but they will confirm that school is not a priority for far too many  inner city kids.  No surprise they learn this from their parents who are often underemployed or lack good employment because they never obtained the education needed to escape the neighborhood. 

In both cases the problem is lack of employment expectations. The kids look around them and figure they have no hope of escaping the minimum wage, limited skill jobs. Unfortunately our job resurgence indicates that these are the jobs we are producing the most on far too many areas.  In the past 2 years, the State of Florida suggests that 90% of the jobs created are minimum wages jobs.  The local casinos are advertising for hundreds of jobs – as waiters, kitchen help, maintenance, etc. most starting at or just above minimum wage rate.  The hospitality industry is full or low wage, limited skill jobs. So is agriculture in rural areas. The problem is the message sent to kids?  Education is not rewarded, so why bother.

So what does this have to do with utilities?  Utilities are everywhere and inn every community. Education affects utilities because as technology grows, we need better job skills from workers.  Gone are the days of hiring people to dig ditches that may not need to read, write or do math.  We are computerizing everything.  As a result all of our jobs, regardless how much labor may be involved, need skills.  Utility field people are the face of the utility.  We need qualified, employees to can represent the utility well, not uneducated, ignorant people who can’t answer questions or who cannot communicate with the public about what they are doing.  The question is how to solve this problem especially in rural areas where education may not be valued. 

First, we need to get into the schools.  Not colleges, but middle schools.  That is where many students appear to be lost.  They get to be 16 and drop out.  Hanging out, not working, gangs, crime, drug cultures, etc all appear to be “easier” than going to school and then working to earn a living.  We need to create value in all of our jobs.  Certainly not all jobs need a college education, but  a high school diploma with basic abilities to read, write, do math and communicate to the public are needed to create value for us. We need to impress on rural communities and inner city kids that we provide desirable jobs and encourage them toward us.  That may mean internships, student efforts in schools, tours, and lots of interaction with teachers.  It takes time, but may be worth our while on many levels.  

Happy BIrthday

October 28, 2013
Climate, Dad, Fall, Holistic Water Planning, infiltration, infiltration gallery, management, Michigan, sea level rise, Sediments in Water, water supplies
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Happy 91st Pop! It’s been 2.5 years since you were last with us, but it’s funny how many things popped (no pun intended) up today that connect to you. Clearly you are still watching what goes on. We had a family summer cottage located 8 miles east of Grayling Michigan. So today I came across an old book entitled the Old AuSable written in 1963 by Hazen Miller, a U of M doctor (you were a U of M aerospace engineer) who wrote about the area back in the day (1870s to 1920s), just before your father purchased property along the AuSable River. It mentions the great grandfather of my dad’s summer playmates, one of whom just died last summer - his obit came up in my email today. Reminded me of many places I went as a kid. Funny it also reminded me of some of the old “names” that are now being lost to time, but created what exists today. It also helped with some perspective on a proposal I have been working on regarding water supplies and quality. The grayling fish disappeared by 1912 as a result of hanged on water quality (warming and silt), human impacts of logging on the fish and the introduction of other species. My proposal looks at impacts of human activity on SE Florida, especially as it relates to sea level rise and the need to capture additional soil storage capacity through infiltration trenches. The water cannot be discharged to tide due to Human-induced nutrient and roadway pollutants of the potential exists to impact fish populations. So we are looking at moving the infiltrated water to water plants in the future. We can treat the water there, cost effectively while solving another problem – diminishing water supplies for urban populations. This would diminish our need to deal with desalination and the disposal of concentrate, another proposal. Funny how sometimes it all comes together….Good times back then and up there. Making progress today. Thanks and keep on watching out for us!!

WHERE IS GROWTH COMING?

October 21, 2013
Development loans, economy, engineering, Environment, finance, Leadership, local government, management, sustainability, Water Funding, water sewer management
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I recent Wall Street Journal article outlined where growth is likely to be coming.  Of no surprise, Arizona, Las Vegas, Central Valley, San Antonio, Dallas, Houston, Denver, Albuquerque, Boise, Pensacola, Tallahassee, Raleigh, Atlanta, and the Washington DC area.  Only one of those areas is has water much water availability.  It means that all of these communities are in areas that are water limited.  We already know that Texas, Las Vegas and Arizona have lots of water problems.  Most of these areas have had issues in the past as well, and will have more in the future. 

Low growth areas:  Detroit, Cleveland, Chicago, Buffalo, Cincinnati, Omaha, and a variety of areas with plenty of water, but old infrastructure and limited funding.  So the big questions is how do we redirect development to areas with plenty of water as opposed to allowing development in areas where we know that there will be serious water supply consequences in the future?  It’s a leadership issue, but local officials and states are so in need to the growth we have discussed in prior blogs, that the long-term realities of water supply limits overrides the short term need to show growth in the communities to delay tax increases, water increases and the like.  But is delays the inevitable, with potentially serious future impacts.

 

SUSTAINABILITY OF UTILITIES – PART 2

October 11, 2013
Environment, finance, funding, infrastructure, Leadership, local government, management, planning, politics, Risk Management, sanitary sewer, sustainability, Uncategorized, water sewer management
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SUSTAINABILITY OF UTILITIES – PART 2

Let’s take a look at some scenarios. Let’s assume you are a utility that serves 20,000 people (8000 customers), with 60 miles of water pipe, 60 miles of sewer pipe, 17 lift stations, and a water and wastewater plant.  Replacing this infrastructure might be valued at $90 million for pipe, $35 million for treatment plants, water supply and pumping equipment (current day dollars).  Let’s also assume that their annual budget is $11 million and the typical demands are 3 MGD yielding a monthly bill of $115/mo (water and sewer).

Let’s make some general assumptions like that the pipe infrastructure might last 100 years, but clearly the treatment and mechanical parts would mot.  They would need ongoing maintenance and replacement.  50 years is probably too long, but let’s go with it.  If the overall costs increase at 3% per year and money is set aside for repair and replacement. The utility will see fairly steady rates if the customer base grows 2-3% per year.  Ten years out, the budget will be $16 million.  Now for the scenarios.

If the customer base has grown at 3% per year, the customers will increase to almost 27,000.  More of an issue is what happens if that increase in demand (from 3 to over 3.4 MGD) needs to come from a new water source and requires new capacity.  Many utilities will use impact fees to offset this cost to current customers so as not to adversely impact current customers too severely .That’s the current assumption.  The result looks like this at 10 and 20 years:

 

Component

  

Value today

10 years

20 years

Customers

  

20000

26878

36122

 

Accounts

  

8000

10751

14449

 

Water  Pipe

60 mi

 $   45,000,000

 $     98,509,418

 $215,646,786

Sewer Pipe

60 mi

 $   45,000,000

 $     98,509,418

 $215,646,786

Treatment Plants and Pumping

3 MGD

 $   35,000,000

 $     76,618,436

 $167,725,278

Operations budget

  

 $     9,000,000

 $     16,255,001

 $  29,358,340

Capital Budget

  

 $     1,600,000

 $       3,502,557

 $    7,667,441

Debt

  

 $        400,000

 $         400,000

 $      400,000

Monthly Amount

  

 $              115

 $                156

 $             216

Increase per year

    

5%

5%

 
         

 

Assume 1% of pipe Replacement Costs +2% Plant

    

 

Assume operating budget inc 3%/yr but construction increases 5%/yr

  

 
                     

 

But what if the new treatment and supply are 50% more costly and impact fees assume the lower investment (typical)?  The cost for the budget and for the infrastructure replacement increases (with the delta from debt).  Cost are 50% higher:

 

Component

  

Value today

10 years

20 years

Customers

  

20000

26878

36122

Accounts

  

8000

10751

14449

Water  Pipe

60 mi

 $   45,000,000

 $     98,509,418

 $215,646,786

Sewer Pipe

60 mi

 $   45,000,000

 $     98,509,418

 $215,646,786

Treatment Plants and Pumping

3 MGD

 $   35,000,000

 $     92,289,117

 $202,029,937

Operations budget

  

 $     9,000,000

 $     23,731,487

 $  42,861,706

Capital Budget

  

 $     1,600,000

 $       3,815,971

 $    8,353,534

Debt

  

 $        400,000

 $       1,325,000

 $    2,825,000

Monthly Amount

  

 $              115

 $                224

 $             312

Increase per year

    

8%

7%

 

The normal assumptions are that growth will continue, but what if it does not?

 

What can be gleaned as a result of a non-growth or net decrease scenario?  How does sustainability get affected?  Let’s look at the no growth scenario.  In this light, rates will need to increase at least 5% per year to insure that the utility remains rate neutral.  If there is significant deferred maintenance, which is typical of may utilities, that cost will be added to the bill.  There are examples of utilities in Florida who finally caught up with deferred obligations which doubled their customers’ bill.  This scenario is doable, but the only real assumption changes that can be made are related to the lack of growth.  Deferring maintenance will once exacerbate the problem as there is not guarantee that growth will return.  Rate neutrality becomes a public relations issue, but not insurmountable.

 

Component

  

Value today

10 years

20 years

 

Customers

  

20000

20000

20000

Accounts

  

8000

8000

8000

Water  Pipe

60 mi

 $   45,000,000

 $     73,300,258

 $119,398,397

Sewer Pipe

60 mi

 $   45,000,000

 $     73,300,258

 $119,398,397

Treatment Plants and Pumping

3 MGD

 $   35,000,000

 $     57,011,312

 $  92,865,420

Operations budget

  

 $     9,000,000

 $     12,095,247

 $  16,255,001

Capital Budget

  

 $     1,600,000

 $       2,606,231

 $    4,245,276

Debt

  

 $        400,000

 $         400,000

 $      400,000

Monthly Amount

  

 $              115

 $                157

 $             218

Increase per year

    

5%

5%
               

Now let’s look at the decline issue.  If the population decreases by 25% over the ten year horizon, what does this say?  The costs will remain relatively constant, but the number of customers and demands for water will drive the rates up significantly. In ten years the rates could double in a community that is likely economically disadvantaged.  The higher rates may begin to discourage economic development, rate neutrality exacerbate the problem and may increase in costs for regulatory or deferred maintenance obligation becomes a significant issue:

 

Component

  

Value today

10 years

20 years

Customers

  

20000

16341

13352

 

Accounts

  

8000

6537

5341

 

Water  Pipe

60 mi

 $   45,000,000

 $     73,300,258

 $119,398,397

 

Sewer Pipe

60 mi

 $   45,000,000

 $     73,300,258

 $119,398,397

 

Treatment Plants and Pumping

3 MGD

 $   35,000,000

 $     57,011,312

 $  92,865,420

 

Operations budget

  

 $     9,000,000

 $     12,095,247

 $  16,255,001

 

Capital Budget

  

 $     1,600,000

 $       2,606,231

 $    4,245,276

 

Debt

  

 $        400,000

 $         400,000

 $      400,000

 

Monthly Amount

  

 $              115

 $                193

 $             326

 
     

7%

7%

 
         

 

Assume 1% of pipe Replacement Costs +2% Plant

    

 

Assume operating budget inc 3%/yr but construction increases 5%/yr

  

 
                         

 What can we glean from this?  Interestingly the failure to accumulate costs for growth, and the declining rate base end up with similar monthly costs.  Only by the no growth and collecting appropriate impact fees will costs be controlled, and even in that case, costs will double every 20 years or less.  The reality is that the failure to follow proper revenue collection protocols will severely limit the utility in future years.  High capital costs impact rates significantly.  Leaving it to some future commissioner to raise the rates is unfair to both the future decision-makers and customers.  It does not make you a leader either.