Monday, October 22, 2012

Bus vs. Rail – 2007 Comparison and 2012 Opinion from Los Angeles


2007

The Gold Line BRT opened in 2003, the Orange Line Rail in 2005. Each is about 14 miles long, and each has 13 stations, about a mile apart. How do they compare?
  • The BRT line was expected to start out at 5,000 to 7,500 average weekday boardings, growing to 22,000 by 2020. It actually achieved the 2020 goal by its seventh month.
  • The LRT, by contrast, was supposed to start off with 30,000 weekday boardings and double that by 2023. But its actual ridership has been lower than that of the BRT line—well below projections.
  • The capital cost of the BRT line was $349 million. The Light Rail cost was $859 million.
  • The operating costs also favor BRT, with the Orange Line costing $0.54 per passenger mile compared with $1.08 for the Rail. On a cost per boarding basis, it’s $3.79 for BRT versus $7.54 for Rail.
  • Lesson: A high-end BRT is far more cost-effective (bang for the buck) than a typical LRT, meaning you get a lot more transit per dollar spent.
  • If a city is short on transit dollars, then a simple express bus service on a major arterial can provide tremendous value per dollar spent.

Source: REASON FOUNDATION’S SURFACE TRANSPORTATION INNOVATIONS ISSUE NO. 45 - JULY 2007



2012
"When you look at the size of Honolulu (and) you look at the transportation problem they're seeking to solve, BRT is almost certainly a better investment,"
UCLA Prof. Brian Taylor said.


Taylor's research shows one of the greatest factors in determining a transit system's appeal is the ease with which riders can get to a transit line, whether it's BRT or rail. If a rider needs to go through various steps like walking, driving or transferring to get to a final destination, the less likely he or she is to use public transportation. "So, making the vehicle a little bit faster is not nearly as important as having a cutting down of the wait time," he said.

While the overall number of projected riders appears impressive, Taylor says it's not nearly enough to offset the tremendous capital cost needed to build the system, as well as the additional expenditures required to operate and maintain it. Heavy rail is much better suited for large, metropolitan cities like Tokyo, New York and London, which generate extremely large numbers of riders.

Source: UCLA expert weighs in on transit debate, Andrew Pereira, KITV
 




Monday, October 15, 2012

Honolulu Transit Megaprojects Compared


The same consultant conducting transit system estimations 6 years apart for the City and County of Honolulu has produced the figures tabulated below.

The conclusion is clear: BRT would provide the same transit ridership for about one tenth the cost.

All these figures are from official Final EIS documents.

 













 The final word is that the Rail Emperor truly has no clothes.

A Train Has the Capacity of Five Buses. So What?

Published on page 3 of Honolulu's Filipino Chronicle.

Thursday, October 4, 2012

B, C, E, 3, 9, 11, 20, 43, 53, 73, 81, 90, 91, 92, 93, 94, 96, 97, 98A, 101, 102, 103, 201, 202

The title of this article is not the code for a very nerdy version of the Hawaii-based LOST television series.

These are all the bus routes that will be eliminated or terminated to the nearest rail station. See Final EIS appendix D.

We all know how the public reacted to the relatively manini changes to TheBus last summer. Wait until two dozen routes are drastically changed.

Several of these routes are express providing a competitive service. Many of them are heavily used.

In addition several new and confusing "feeder" routes will be added. So basically the No.1 transit bus in the nation will be dismantled and reconfigured to provide life support for the rail.

Rail's ridership would be much closer to zero than the projected 90,000-some riders per day in the opening year, without dismantling and rearranging the majority of TheBus as we know it today, given that (1) nobody lives at the stations and (2) the whole rail line will have only four park-and-ride lots.

The total bus ridership that will be forced to transfer each day is found on page 46: 69,480 rail riders daily will come from the bus.  That's round trip.

So, over 30,000 bus riders daily will be forced to get out of their bus and transfer to rail going to their destination. They may also need to catch a bus at the other end to get to their final destination (i.e., from Ala Moana Center to UH, Waikiki, and from other stations to all the ridges and valleys that the rail does not serve.)  Coming home they will have the reverse transfers from bus to rail to bus. There will be chaos.

What is the logic of providing such a disservice to the loyal transit riders of TheBus?

In conclusion then, B, C, E, 3, 9, 11, 20, 43, 53, 73, 81, 90, 91, 92, 93, 94, 96, 97, 98A, 101, 102, 103, 201, 202 is the code for transit failure by design in Honolulu.

Fixing the Basics on Rail for Hawaii's Pro-rail Politicians

Full article in Hawaii Reporter. It closes as follows:

If Hawaii's pro-rail politicians are really interested in improving transit in the county of Honolulu, they may begin their education on the history of elevated rail in sunshine cities by simply reading about Miami's Metrorail, and San Juan’s Tren Urbano. Here are a few highlights for Metrorail and Tren Urbano.

Miami’s Elevated Heavy Rail: They got 80% Federal funds but still they run out of money due to cost overruns. (Honolulu gets only 30%).  Ridership forecast was about 200,000 riders (Honolulu's is about 120,000 riders).  When the first segment of the single line opened ridership was only 10,000.  In 1990, six years after opening, it reached only 25% of its forecast ridership or about 50,000! They too ordered trains from Ansaldo and there were allegations of conflicts in the procurement.

San Juan, Elevated Heavy Rail: They got 50% Federal funds but still there was a 74% escalation of construction costs (+74% over budget!)  There was a huge escalation of combined bus and rail operation and maintenance cost after the line was opened. Combined costs shot up by +250%!  There was a downgrade of Puerto Rico’s bond ratings and new taxes were enacted to pay the debt. There was a dramatic decline of total transit ridership (bus and rail) because the train dismantled their bus. It is now more than six years since its opening in 2006 and the train has not reached 50% of its opening year forecast ridership!

Bottom line is that trains are like wind mills. Their theoretical capacity is high and the promises for power and ridership are full of hype.  Once installed reality kicks in and they prove to be only ~25% productive...

Monday, September 24, 2012

Less Traffic Thanks to Telecommuting and Young Adults

"In 1888 Bertha Benz, wife of the carmaker Karl, drove 66 miles from one German city to another to prove to the world that the “horseless carriage” was suited to everyday use. Mrs. Benz succeeded beyond her wildest dreams."

This is The Economists' introduction of an article on urban transportation and the evolving trend of less car travel: "The road less travelled: Car use is peaking in the rich world. Governments should take advantage of that." Less travel? Can this be right? See Figure 1 below.



A few more quotes from the full article "The future of driving -- Seeing the back of the car -- In the rich world, people seem to be driving less than they used to" are as follows:
  • Modern life is unimaginable without the car. The automobile has powered the growth of cities and steered their sprawl. Its manufacture has created millions of jobs and eased the development of many millions more.
  • Cars are integral to modern life. They account for 70% of all trips not made on foot in the OECD, which includes most developed countries. 
  • In the European Union more than 12 million people work in manufacturing and services related to cars and other vehicles, around 6% of the total employed population.
  • The equivalent figure for America is 4.5% of private-sector employment, or 8 million jobs.

An interesting revelation of the research reported in The Economist is that current and future young people tend to travel less. There are several reasons for this:
  1. Young people tend to socialize more via digital media and meet less often.
  2. Car use has become more expensive for young people's parents to afford a car for them or for the young people to afford the sky-high insurance fees.
  3. At least some of young people's college or professional education can be via distance learning.
  4. Job opportunities for young people are less and lower rewarded in the stagnant economy of the EU and of several debt-laden states in the US.
  5. Young people are getting their licenses later than they used to (see Figure 2 above.)

In addition the full democratization of the automobile (meaning that women own and use cars at rates similar to men) concluded at the end of the last century. So this "catch up" trend leading to traffic growth has ended.

More and safer bikeways, subsidized vanpooling, supported telecommuting and, in some cases, clean and reliable mass transit chip away at the dominance of the car. See for example below the gains in vanpooling and telecommuting in Washington State.



Recall that Honolulu rail will increase transit share roughly from 6% of TheBus today to 7% for combined bus and rail. It would be much easier to obtain this 1% with more vanpools and telework!  There is a real world example  for this: Portland, the poster child for light rail. From 1980 to 2011, working at home (mostly telecommuting) increased by 55,000. This is more than three times the growth in rail transit commuting (17,500). During the last decade, working at home passed transit as a work access mode in Portland, and with virtually no public expenditures as opposed to the billions spent on rail lines.

Thursday, September 20, 2012

Car or Train? The Choice is Yours.

A picture is worth 1,000 words. 

Two pictures are worth 2,000 words.



Picture 1: A 2013 new mid-size car.
















Picture 2: Typical rush hour train commute.












 Any questions?

Friday, September 14, 2012

Island Heavy Rail Calamity: San Juan Repeats in Honolulu

Tren Urbano (or City Train) in San Juan, Puerto Rico is a perfect comparison with Honolulu's heavy rail:
  1. Both are heavy rail systems with a very high cost per mile of rail line.
  2. Both are systems on similar tourist/agriculture/military island communities.
  3. Both are under Federal Transit Administration oversight.
  4. Both received US federal funds.
  5. Both have the same lead planner, Parsons Brinkerhoff.
I have written in the past about Tren Urbano:
Recently, Cliff Slater of HonoluluTraffic.com has developed a documented 2-page summary of the consequences of Tren Urbano such as:
  • Huge escalation of construction costs (+74%).
  • Huge escalation of combined bus and rail operation and maintenance cost after the line was opened (+250%).
  • Downgrade of Puerto Rico’s bond ratings.
  • Dramatic decline of total transit ridership (bus and rail) because the Tren cannibalized their bus. This is happening to TheBus now.
  • It is now more than five years since its opening and Tren has not reached 50% of its opening year forecast ridership! (See link above where I provide comparisons that show HART ridership estimates are 2 to 4 times too high.)
Now all these terrible transit and financial outcomes occurred in San Juan where population is much higher, and average income and car ownership is much lower than Honolulu's (see 2000 data below). The Tren (like history) is repeating itself in Honolulu. The deliberate discounting of history by current elected officials and certain candidates is truly bewildering.


Thursday, September 13, 2012

Enough with The Chinese Straddle Bus!

The Straddling Bus has attracted a lot of attention. I got an early video of this concept developed in China almost two years ago. Now I get two emails a week about it. At least!

Here's my take on it. It's a cool concept, but in reality, it is impractical and difficult as a retrofit. However, it can be adopted in new cities in China, India and other new, highly populated urban areas.


Challenges of the Straddling Bus include but are not limited to these: 

1.       Very few real world streets and traffic lanes are perfectly straight or level... traffic lanes are not built to airport runway standards. Therefore, at a minimum, expensive lane strengthening and re-alignment would be needed in order to operate this bus.
2.       How do we manage a crash of such a huge vehicle on the street? How do we tow it or lift it if it becomes sufficiently incapacitated?
3.       We do not know how "the common distracted driver" will react when a “tunnel” drives over him or her. Driver startling and related crashes will be an issue. This is why I proposed that the straddle bus runs as an Express Bus over existing BRT lines.
4.       The concept requires elevated stations which adds significantly to the cost because all elevated stations need to be ADA compliant. Obviously this will be an express service with stops at intervals of 1 km or longer.
5.       Overpasses, cross wires, sign and signal gantries, and trees will present significant challenges.
6.       Trucks, buses and other large vehicles have to be regulated out of the two lanes that go under the Straddling Bus. Writing the ordinance is easy. Enforcing it is not, and one unfamiliar trucker will block the Straddling Bus for a while.
7.       Receiving U.S. DOT certification to operate it on US city streets won’t be trivial.
 
As of mid-2012 not a single prototype exists. So let China build it, and then we can copy it. That'll be a first!

Wednesday, September 12, 2012

Old Tires into New Roads: Save Cost and Cut Noise

Engineers are designing quieter streets by adding rubber “crumbs”, reclaimed from shredded tires, to the bitumen and crushed stone used to make asphalt.

Enough tires are recycled in America each year to produce 20,000 lane-miles of road pavement mix, enough to re-pave about 0.5% of America's roads, according to Liberty Tire Recycling, a Pittsburgh firm that handles around a third of America's recycled tires.(1)

It is now possible to make rubberized asphalt less expensively than the traditional sort because rubber can partially replace bitumen, the binding agent used to hold the crushed stones together in ordinary asphalt. Bitumen is derived from oil, which means its price has risen over the past decade alongside that of crude oil. (1)

Discarded tires are cheap and are likely to get cheaper. In rich countries, around one tire is thrown away per person per year. (1)

In Hawaii we burn tires at the AES coal plant. This is much better than dumping them in a landfill or wasting fuel to send them out of state. But we should be making new roads with them.

(1) The Economist, When the rubber hits the road, June 2012.

Tuesday, September 4, 2012

Honolulu Rail Forecast 2 to 4 Times Higher than Actual Systems

The City estimates that TheRail will have a ridership of 116,000 (boardings) in 2030, about 10 years after the system is supposedly completed.

While TheRail is actually a fully elevated, steel-wheel-on-steel-rail heavy rail system, it is designed to fail by combining two poor choices:
(1) It is fully elevated which means it costs well over 5 times the typical light rail system.
(2) It does not use large, heavy rail style, high capacity trains, but smallish light rail trains.
These two choices make it a high cost and low capacity system.

Because of its low capacity, it is comparable to existing light rail systems. The table below includes all US light rail systems that (a) may be characterized as "modern" by having been developed after 1980, and (b) are over 8 miles of length. This comes to 11 comparable systems with route miles ranging from approximately 10 to 42 miles.

The average daily boardings of these 11 existing systems is 38,852 and the average route miles is 28. This yields 1,536 daily boardings per mile or 1,500 boardings per mile for a round number. (Remember we are talking about year 2030 and roughly 20% of TheRail’s users have not been borne yet.)

When one looks at statistics, it is advisable to remove the highest and lowest values and re-check the averages. By doing so for daily boardings and route miles, systems 3, 6 and 9 drop out. The resulting average daily boardings of the eight systems is 37,822 and the average route miles is 27. This yields 1,528 daily boardings per mile. This again rounds to 1,500 so this estimate is quite robust.

Using this estimate of 1,500 times the 20 miles of TheRail yields 30,000 daily boardings. Now let's give a huge break to Honolulu because of the H-1/H-2 congestion, the high cost of living and the higher average density (although high density does not apply west of Middle Street): Let's double this estimate to 60,000 boardings. This will be the likely maximum boardings of TheRail.

What's the City's estimate that FTA approved? 116,000 daily boardings, which is laughable.

Both Parsons Brinkerhoff and FTA received dozens of eggs on their face for the island heavy rail Tren Urbano in San Juan, Puerto Rico where they estimated 80,000 boardings on the opening year and they got 25,000 in 2006.

There is no lesson for PB, FTA and HART to learn. There is no accountability or penalties. They are all dedicated promoters of TheRail. Honolulu's ridership estimates simply prove that history (and unabashed deception) simply repeats itself.

Wednesday, August 29, 2012

Honolulu Rail Cost Escalation

It is important to understand how much costs escalate in megaprojects. All these costs in bond-financed public projects are to be borne by the taxpayer. Oahu has fewer than 400,000 taxpayers so the possibility of a twelve billion dollar bill for a long rail line presents a staggering liability. Over $30,000 per taxpayer.

In 2005 Mayor Mufi Hanneman and his supporters went to the Legislature and asked for a temporary (20 year) 1% tack on to Hawaii's 4% general excise tax in order to develop a large rail system for an approximate cost of $2.7 Billion. The Legislature approved a 0.5% tack on to the GET in hopes that Federal Transit Administration and other taxes will cover the total. Here is the letter to The Honolulu Advertiser by Mayor Mufi Hannemann promising that the 20 mile system will cost $3 Billion.

In 2008 General Elections there was a City Charter Amendment asking the city to install a steel on steel fixed guideway system. The cost of the 20 mile system had grown to $4.6 billion and almost $1 Billion was the contingency funds. TheBus funds were not touched in 2008.

In 2010 outgoing governor Lingle procured a financial analysis report for the rail that she had supported, in light of the escalating costs of rail and the 2008-2009 fiscal crisis. IDG, a reputable financial and risk analysis consultant based in Washington, D.C., estimated that the 20 mile cost will be more likely $7.2 Billion.

Despite these facts, Governor Abercrombie signed off on the State EIS and Mayor Carlisle dismissed the financial report as "an anti-rail tirade."

In summer 2012 the City submitted its final application to the FTA for a Full Funding Agreement. In it, the cost of the 20 mile line has grown further to $5.17 Billion but contingencies have been reduced to about $600 Million and another $150 Million is "borrowed" from TheBus fleet funds. In other words, the 2012 cost estimate would be $5.7 Billion if they did not fudge the amounts and kept them at the 2008 level.

In May 2012 Councilmember Kobayashi asked HART to estimate the cost of the full 34 mile system from West Kapolei to the UH and Waikiki. HART's response was $9.03 Billion.

If we apply IDG's cost escalation of the 20 mile system to the 34 mile system we get $12.6 Billion. Hanneman's rail has ballooned from $3.6 Billion to $12.6 Billion!


Rail was a bad idea at a cost of $3 Billion. Now that the likely cost is three times higher, the choice is clear. People have made their choice quite clear by handing both mayors Hannemann and Carlisle their walking papers.

Friday, August 24, 2012

Honolulu Rail on Trial

Malia Zimmerman interviews Professors Randy Roth (law) and Panos Prevedouros (engineering). In this video filmed on O'lelo's Palolo studio a week ago, Professor Roth correctly predicts the outcome of the State Supreme Court. See below.

Congratulations to Paulette Kaleikini and her native Hawaiian hui for scoring this legal victory: Rail Construction Shouldn’t Have Started, Hawaii Supreme Court Rules. In other words, Mayor Carlisle and HART clearly broke the law.

Ninth Circuit Court Judge Teshima heard the Federal Lawsuit against Honolulu rail. Listen to the YouTube above where I indicate how the attorney for FACE clearly lied to the judge. Professor Roth expects that this lawsuit will also be successful. Decision expected in a couple months.


Thursday, August 23, 2012

TECHNOLOGY and INNOVATION Survey -- The Economist and Hawaii Results

I like people, global and local issues, and numbers ... so I present a mini-series of surveys on major issues which have been debated at The Economist. Obviously the results only represent people with at least a basic level of computer and Internet savvy. However, the results may be sufficiently indicative because most questions along with the careful wording of questions lead to a straightforward answer: Agree, Disagree or Do Not Know. The Economist has received a few thousand responses to each of their questions. I post results only when Hawaii surveys exceed 100 responses.

TECHNOLOGY Results (click to take the survey, part 1, and technology survey part 2.)

The results are summarized in the Table and discussed below.


The original debate questions in The Economist address various issues relating to technology. Ten questions were selected and International and Hawaii responses are compared.

For the first four issues, both The Economist and Hawaii respondents agree. For the next two issues either International or Hawaii responses are neutral, and for the last four issues the opinions are clearly opposite.

Both Hawaii (80%) and international response (62%) disagrees with the position that genetically modified crops and sustainable agriculture are complementary. Both agree that the Internet is making journalism better and that we are now in a new tech bubble. More international respondents (61%) than Hawaii respondents (56%) agreed that social networking technologies will bring positive changes to education.

Economist respondents want NASA to send astronauts to the moon but Hawaii is clearly ambivalent on this. Hawaii respondents believe that innovation works best when government does least but The Economist habitual government subsidy readers overwhelmingly place government at the center of innovation (84%). It does not take a genius to know who's right. Just think about the last time that a PC, smartphone or search engine was invented in Europe...

Hawaii respondents clearly agree (81%) that if the promise of technology is to simplify our lives it is failing, but The Economist respondents mildly (53%) believe that technology has simplified our lives. Technology has simplified my life. As an engineer and researcher, the Internet and digital scholar tools have cut down by annual time spent at the university library from 1 to 2 weeks a year in the late 1980s to less than two hours per year after 2000.

Exact opposite responses to the argument that the continuing introduction of new technologies and new media adds little to the quality of education: 56% of international respondents disagree and 57% of Hawaii respondents agree. In other words, Hawaii respondents believe that technology doesn't do much for education. Maybe that's a generic response because public education in Hawaii produces poor outcomes. Or, perhaps in Hawaii we buy a lot of technology for schools but don't use it in an effective and exciting manner. (However, that's not the case at Liholiho Elementary that my 5th grader attends since kindergarten.)

Underutilized technology is certainly the case with intelligent transportation systems (ITS) on our highways. Hawaii has spent upwards of $500 million on ITS and signal infrastructure since 2000. Yet traffic signals still operate mostly like Christmas lights and, like Chicago in the 1970s, we get our traffic conditions from ... Jason Josuda on FM radio. In 1994 I bought a Saab 900 with a Radio Data System. The car could show on the dash messages about road conditions. It was disabled for the US and if I still had it, it could be useless in Hawaii in 2012.

Hawaii respondents got the next one right: 65% agree that we're on a post-PC era, and that smartphones and tablets will soon dominate. No question that this will be so by 2020 in most of the US. Only 28% of international respondents agreed to this. Much lower disposable income (due to lower incomes and higher taxes) do not allow Europeans to change technology items frequently.

Finally from President Obama, to Linda Lingle and many luminaries in the between, math and science education is the best way to stimulate future innovation. Correctly, 74% of international respondents agreed but only 33% of Hawaii respondents agree. Sun, surf and R&R does not jibe with STEM (science, technology, engineering and math!)

Thursday, August 16, 2012

Innovations We Can't Live Without: US and Hawaii


Earlier this year Consumer Reports published a small survey in a sidebar answering this question: Which of these innovations of the past few decades would be hardest to live without?

I used my AIKEA FOR HONOLULU newsletter and Facebook page to invite people to respond to an identical survey and make two choices among these innovations: Bank ATM – Broadband (fast) Internet service – Cable or satellite TV – Cell phone – Digital camera – GPS – Home computer – Microwave oven – Smart phone. The survey is still live; feel free to take it if you haven't done so.

The results are summarized below. They are listed from high to low according to their Hawaii share. For six out of nine innovations, the USA and Hawaii results are very similar, i.e., within two percentage points (green cells.) However, the other three reveal a different pattern:
  • USA folks are more focused on food and ready-to-eat meals. They chose the microwave oven as their top innovation!
  • Hawaii folks are more focused on technology with personal computers and fast Internet connections being their top two choices.
We have to be cautious with this outcome because Hawaii respondents were contacted by email and Internet social media, thus my survey touched only a computer savvy Hawaii population sample. However, both surveys agree that four innovations based on Intelligent Technology (IT), namely PC, digital TV, Internet and cell phones get the lion's share of the responses: 58% in the Consumer Reports USA survey, and 74% in my limited, computer-based Hawaii survey.


Sunday, August 12, 2012

Faith-based Transportation Policy

Washington Post, George F. Will, A Golden State train wreck, August 8, 2012.
  • In faith-based transportation policy, rail worshipers think people will park their cars in Tampa and then rent cars in Orlando.
  • California Governor Brown’s reverence for his rail bauble is fanaticism.

How will people in Honolulu

  • go to their second job ...
  • manage their school and job ...
  • take kids to school ...
  • go surfing ...
  • go eating ...
  • go to their doctor, hospital, blood test lab, dialysis location ...
  • do their groceries and run other errands ...
  • have a diverse and fulfilling life ...

... without the independent transportation on roads with cars and buses that serve all neighborhoods?

Railigion is the affliction or belief that most "other people" will be able to use the rail regularly to make the trips that take them to the activities above. This is faith, affliction or outright stupidity. Whatever you call it, professional and responsible transportation planning is not.

Thursday, August 9, 2012

HOT Lanes and Tunnels are Hot and Free to the Taxpayer

$52 Billion Chicago Plan. Carefully targeted investment to modernize the greater Chicago region's highway system would reduce projected 2040 congestion by 10% overall and by 20% within Chicago itself, according to a major report from the Reason Foundation's Galvin Mobility Project. The plan includes a 275-mile HOT lanes network, a new Outer Beltway, and several urban highway tunnels. All the new capacity would be variably priced, and projected revenues of $58 billion would exceed the $52 billion construction cost, according to detailed modeling carried out for the study.

Steps Toward DC-Region Express Toll Network. On August 1st, Virginia DOT and the Fluor/Transurban joint venture that is nearing completion of the Capital Beltway (I-495) Express Lanes, reached commercial and financial close on the $940 million I-95 project. It will convert the existing two reversible HOV lanes to three reversible Express Toll lanes along 28 miles of I-95. Across the river in Maryland, the Maryland State Highway Administration is studying potential express toll lanes for the I-270 corridor, which heads northwest from the Beltway.

Largest Infrastructure Fund Exceeds $7 Billion. Infrastructure Investor reported on July 31st that the world's largest infrastructure investment fund, Global Infrastructure Partners II, has amassed $7.02 billion in capital, towards its target of $8 billion. Overall, such funds have raised an estimated $200 billion over the past decade.

Port of Miami Tunnel at Half-Way Mark. The massive tunnel boring machine that is creating the tunnel between the Miami area's expressway system and the Port of Miami on Watson Island has completed the first of two 4,200-foot tunnels under Government Cut. The next step is for the TBM to be turned around to dig the parallel tube over a six-month period. The $607 million tunnel is being procured under a 30-year concession.

Dutch Pension Fund Buys Stake in Texas Managed Lanes. Pension fund APG from the Netherlands has invested $300 million to acquire a 12.3% equity stake in the North Tarrant Express and a 13.3% stake in the LBJ managed lanes project. Both are being developed by a Cintra/Meridiam concession company. Both concessions are for 52 years.

Source of the summaries: Robert Poole, the Reason Foundation.

Tuesday, August 7, 2012

Take the Rail to Watch a Rainbow Warriors Game?

It's 2023. The rail hui won and got rail running.

The Rainbow Warriors of the University of Hawaii are having their homecoming game. Two families of four, one from Makiki and another from Kapolei are getting ready to attend the game. Both of them will go by rail.

How much will each family pay in fares? Thirty four dollars for eight adult tickets at $4.25 each. Not a bargain. (The $4.25 is based on city estimates. Actual fare will likely be higher. For example today’s adult fare on the BART from the Fruitvale TOD to Embarcadero is $3.55.)

The rail does not go to Makiki or Kapolei as it does not go to over 90% of places and neighborhoods on Oahu.

Walking to the nearest station is too far and they are thinking that by the time they’re back it'll be too late to wait for a bus. Both decide to drive to the nearest station. So both families spend 10 to 15 minutes and gas to get to the station by car.

The Makiki family cheated and parked at Ala Moana Center, but the lots were quite full so it took them a while to find a spot. The shopping center is working on a plan to curb rail freeloaders. The Kapolei family drove to the park-and-ride facility but the lot was full so, like many others, they parked on the grass and hoped to avoid a ticket.

It's Saturday and instead of the weekend schedule the City is paying heavy overtime to run trains at a fast schedule to accommodate the Aloha Stadium ridership. The Rainbow Express and other bus routes to the stadium have been cut. All transit users have to take a feeder bus to a rail station. The glory days of TheBus are over. It’s been “restructured.”

Trains run every 5 minutes. Trains run full with 300 passengers and half of them are standings all the way. In two hours, full trains manage to get 12,000 people to Aloha Stadium. But this fills only 24% of Aloha Stadium’s seats. The other three quarters must arrive by car, taxi, limo or bus.

So far the two families spent about 45 minutes to reach the crowded Aloha Stadium rail station. After a long walk and a couple road crossings they are at their seats.

UH wins. Go Warriors!

Now 12,000 people start walking to the station. They are tired and would like to go home. Many have an early church service or other early to dos on Sunday. (They'll need a car for those activities.)

The trains are running like mad. People pack in like sardines. Each train picks up 300 people at a time…. 300 eastbound and 300 westbound. But there are 12,000 people who need to go home.

How long do they have to wait? The very first 600 people got lucky and had no wait. The very last 600 had to wait for 76 minutes!

The average waiting time to board a train for all the folks who went to Aloha Stadium by rail was 38 minutes.

Tempers flare, BO and beer smells. Pushes, shoves. Some groping and pickpocketing too. The Kapolei and Makiki families are tired, frustrated and very late.

Thirty four bucks for this? Never again!

Rail wins? We lose!

It's a lose-lose. Here is why:

If rail is a success and people use it in large numbers, then it'll be overcrowded, smelly, and expensive. Most people will travel as standees and a lot of time will be wasted in waiting and transferring. Why is this better than using a bus or being in bumper to bumper traffic? Why did the average family of four have to pay $20,000 to build this rail?

If rail is a failure and only ex-bus riders, carpool passengers and a few others use it (these are the usual riders of modern rail systems) then why did we spend six billion dollars for an underutilized system that did nothing to relieve traffic congestion?

If we install a 19th century "solution" for our 21st century problem of traffic congestion, then there’s no win.

Today’s population has a complex and diverse demand for mobility that stems from our independent, multi-purpose life-style. Only unscrupulous transit professionals and misinformed politicians would claim that a single line of rail with 20 stations is a mobility and congestion solution for our island.

Friday, August 3, 2012

Free Bus?

That's a question that comes up often in public forums I attend. Why don't we make public transit like Honolulu's TheBus free?

The Transportation Research Board, a unit of the National Academy of Engineering has just released a report titled Implementation and Outcomes of Fare-Free Transit Systems.

The quotes below help us conclude that tiny systems like the one on the Big Island are better of being free because it costs more to collect money than the money that will be actually collected. Large systems like Honolulu's can't be run for free. They will run out of funds quickly and they'll likely become movable homeless shelters. Recall that TheBus is cutting routes because it cannot afford its fuel bill. Actual ridership of free bus systems also showed that free bus does not translate into less traffic congestion because even at zero cost, too few motorists switch to the bus.

Here are the main findings of the report:
  1. No public transit system in the United States with more than 100 buses currently offers fare-free service. (Honolulu TheBus has over 550 buses.)
  2. The largest jurisdictions currently providing fare-free service are Indian River County, Florida, and the island of Hawaii, both with populations of approximately 175,000. (The free bus on the Big Island basically transports workers from Hilo to resorts in Kailua-Kona.)
  3. Fare-free public transit makes the most internal business sense for systems in which the percentage of farebox revenue to operating expenses is quite low. In such cases, the cost associated with collecting and accounting for fares and producing fare media is often close to, or exceeds, the amount of revenue that would be collected from passengers.
  4. Providing fare-free public transit service is virtually certain to result in significant ridership increases no matter where it is implemented. Ridership will usually increase from 20% to 60% in a matter of just a few months. (Note: It's worth exploring a low cost bus fare between the Waianae coast communities and the Kapolei transit center.)
  5. Some public transit systems that have experimented with or implemented a fare-free policy have been overwhelmed by the number of new passengers or been challenged by the presence of disruptive passengers, including loud teenagers and vagrants.
  6. Systems offering fare-free service in areas of higher potential demand for public transit need to be aware that increased ridership might also result in the need for additional maintenance, security, and possibly additional equipment to provide sufficient capacity and/or maintain schedules.
  7. A relatively small percentage of the additional trips (from 5% to 30%) were made by people switching from other motorized modes. Most new trips were made by people who would have otherwise walked or used a bicycle, or would not have made the trip if there was a fare to pay.

Thursday, August 2, 2012

New Lane on EB H-1 Freeway!

Bravo Hawaii DOT. Now the Koko Head bound (east-bound, or EB) direction at Makiki has four through lanes between Ward Ave. and Punahou St. With a simple re-stripping, the freeway viaduct over Piikoi St. changed from a total of 6 lanes to 8. That's a 30% improvement for "peanuts."

Before the EB Vineyard Boulevard on-ramp the freeway has its the typical 3-lane configuration, like so:


The new lane is the continuation of the fourth lane that comes from the Vineyard Boulevard on-ramp like so:


The Ward Avenue on-ramp adds a fifth lane but this lane merges onto the fourth lane. Now next to the Piikoi Street on-ramp the freeway is 4 lanes wide!


This location was a perennial midday bottleneck. Now outside the peak hours, flow should be much smoother on both directions. Recall that the west-bound direction was modified from 3 to 4 lanes a couple weeks earlier, as presented here.

Monday, July 30, 2012

BUS RAPID TRANSIT: Projects Improve Transit Service and Can Contribute to Economic Development

I am pleased to present the summary findings of this hot-off-the-press report by the U.S. Government Accountability Office report to the U.S. Senate.

U.S. bus rapid transit (BRT) projects we reviewed include features that distinguished BRT from standard bus service and improved riders’ experience. However, few of the projects (5 of 20) used dedicated or semi-dedicated lanes— a feature commonly associated with BRT and included in international systems to reduce travel time and attract riders. Project sponsors and planners explained that decisions on which features to incorporate into BRT projects were influenced by costs, community needs, and the ability to phase in additional features. For example, one project sponsor explained that well-lighted shelters with security cameras and real-time information displays were included to increase passengers’ sense of safety in the evening. Project sponsors told us they plan to incorporate additional features such as off-board fare collection over time.

The BRT projects we reviewed generally increased ridership and improved service over the previous transit service. Specifically, 13 of the 15 project sponsors that provided ridership data reported increases in ridership after 1 year of service and reduced average travel times of 10 to 35% over previous bus services. However, even with increases in ridership, U.S. BRT projects usually carry fewer total riders than rail transit projects and international BRT systems. Project sponsors and other stakeholders attribute this to higher population densities internationally and riders who prefer rail transit. However, some projects—such as the M15 BRT line in New York City—carry more than 55,000 riders per day.

Capital costs for BRT projects were generally lower than for rail transit projects and accounted for a small percent of the Federal Transit Administration’s (FTA) New, Small, and Very Small Starts’ funding although they accounted for over 50% of projects with grant agreements since fiscal year 2005. Project sponsors also told us that BRT projects can provide rail-like benefits at lower capital costs. However, differences in capital costs are due in part to elements needed for rail transit that are not required for BRT and can be considered in context of total riders, costs for operations, and other long-term costs such as vehicle replacement.

We found that although many factors contribute to economic development, most local officials we visited believe that BRT projects are contributing to localized economic development. For instance, officials in Cleveland told us that between $4 and $5 billion was invested near the Healthline BRT project—associated with major hospitals and universities in the corridor. Project sponsors in other cities told us that there is potential for development near BRT projects; however, development to date has been limited by broader economic conditions—most notably the recent recession.

While most local officials believe that rail transit has a greater economic development potential than BRT, they agreed that certain factors can enhance BRT’s ability to contribute to economic development, including physical BRT features that relay a sense of permanence to developers; key employment and activity centers located along the corridor; and local policies and incentives that encourage transit-oriented development. Our analysis of land value changes near BRT lends support to these themes. In addition to economic development, BRT project sponsors highlighted other community benefits including quick construction and implementation and operational flexibility.