Tag Archive for: NOAA

How Unusual Were Recent Storms? New NOAA Data Sheds Light

New Atlas-14 data from the National Oceanographic and Atmospheric Administration (NOAA) sheds some light on the intensity of storms in the last week. How unusual were they?

May 3rd was a 200-year storm. May 7 was a 100-year storm. And we can expect a week that wet about once every 5-10 years. Here’s how to find the probability for any storm, location or interval.

Step One: Find Gage Nearest You

Large variations in rainfall totals exist even within small geographic areas. So finding the gage nearest you is the first step. For instance, in this week’s storms, official gages in New Caney and Humble registered differences of more than 25% for the same event. Harris County Flood Control has a Flood Warning System that shows all gages in Harris County and many in surrounding counties. You can also use your own data if you have a rain gage.

Step Two: Determine Time and Volume

When you’re obtaining the official gage data, try to narrow down the duration as close as possible. That’s because you’re estimating rainfall INTENSITY – a function of both time and volume. A two-inch rain spread out over a day is NOT the same as a two-inch rain in ten minutes.

Step Three: Find Average Recurrence Interval

Once you know how much rain fell in your area in a given amount of time, the next step is to determine the “average recurrence interval (ARI).” That tells you how often you’re likely to experience a storm of that intensity. Here’s where and how to find it.

To determine the ARI for any location, go to this page on the NOAA site.

Example

Once you’re at the NOAA site, click your location on the map. Here, I clicked on the approximate location of Elm Grove in Kingwood.

A chart showing the average recurrence intervals for Kingwood will appear below the map.

From NOAA Atlas-14. NOAA offers both tabular and graphical formats, but the tables seem easier to interpret. Atlas 14 includes the latest data, including Hurricane Harvey.

On Friday, May 3, Kingwood received 5-6 inches in less than an hour. Scrolling down to the 60-minute line and over to the column that shows 5.49 inches, we can see that that was an estimated 200-year rainfall.

On Tuesday, May 7, the Porter/New Caney area received about 8-10 inches of rain in less than six hours. That was an estimated 100-year rain.

For the seven days starting May 3, gages in the Lake Houston area averaged 10-12 inches. We can expect a week that wet about every 5-10 years.

Probabilities Can Be Mind-Benders

But wait! How can that be? How can you get a 200-year rain and 100-year rain four days apart? And how can we get weeks this wet in 2015, 2016, 2017 and 2019 if it’s supposedly a 5-year event? Simple. You’re dealing in probabilities of independent events. If you toss a coin ten times and it comes up heads each time, the chances of it coming up heads on the 11th toss are still 50%.

It’s the same way with weather. Just because you won the lottery last week doesn’t mean you can’t win it again this week. With that happy thought, I’ll wish you pleasant skies today.

Posted by Bob Rehak on 5/11/2019 with help from Diane Cooper

620 Days since Hurricane Harvey

New 100-year 24-Hour Rainfall Map and Data Released by NOAA Today

New data shows the 100-year rainfall for this area has increased 4-5 inches since the NOAA study in 1961 or 2-3 inches since the USGS study in 2004. This is why flood mitigation and reducing sedimentation are so important. Basically, what we used to think of as a 100-year storm is now almost a 25-year storm.

NOAA Atlas 14, Volume 11: The New Go-By for Everything Related to Rainfall

Today, the Hydrometeorological Design Studies Center of the NOAA’s Office of Water Prediction released updated precipitation frequency estimates for Texas.

They are published as  NOAA Atlas 14 Volume 11: Precipitation-Frequency Atlas of the United States, Texas.

The new precipitation frequency estimates supersede the NOAA estimates published in 1961, 1964, and 1977, and the USGS estimates published in 2004. The new NOAA estimates include data from Harvey and all of the huge storms we have had since 1994 including Tropical Storm Allison, the Tax Day Flood and the Memorial Day Flood. Here’s what the 100-year/24-hour rainfall map looks like. Note that the Houston to Beaumont area is in the bulls-eye.

The new 100-year 24-hour Rainfall Intensity Map. Accompanying documentation, describing the data used in this project and project methodology, will be published in December 2018.

For a full scale map like the one above, download this PDF: tx100y24h rainfall intensity pdf.

Zooming in on the Houston area shows that the new 100-year 24-hour rainfall for the Lake Houston area is between 17 and 18 inches depending on your exact location.

To find precise figures for your location, go to the Precipitation Frequency Data Server – PFDS.

The data varies by location, so…

First, select your location in the map, then click on the gage nearest you.

Next, review the rainfall table associated with that gage. Clicking on the other tabs or “print” brings up additional information.

Then review the new data for different time periods and recurrence intervals. This may be the information you want to keep handy for ready reference.

Comparison to Previous Studies

From this data, we can see that – for the gage at the San Jacinto and US59 – the new, official 100-year rainfall is 17.3 inches in a 24-hour period.

Compare a previous dataset published. Look on page 58 for the 100-year/24 hour data from 1961. Twelve inches in 24-hours represented the old 100-year rainfall for our area for decades.

USGS also published a precipitation frequency study in 2004.  See the USGS Rainfall Maxima Guide for Texas (Warning: 40 meg PDF). I believe it became the basis for the current flood-plain maps redrawn after Tropical Storm Allison that were released in 2007. It shows the 24-hour, 100-year rainfall to be about 13 inches.

How New Data Will Be Used

What does it mean that the 100-year rainfall has increased 4-5 inches?

First and foremost, it means that all of the floodplain maps will be revised. One expert I talked to suspected that the new 100-year floodplain could be close to where the 500-year flood plain is now. However, that is far from certain and not official.

Floodplain Maps

The flood plain maps have not yet been redrawn, as Matt Zeve, Harris County Flood Control Director of Operations, discussed at the September meet of the Lake Houston Area Grass Roots Flood Prevention Initiative. The next step is for the County to process the new rainfall data in a new 2-D model that the Flood Control District has developed with new high-resolution LIDAR data. Contour internals in the new models will shrink from feet to inches. The LIDAR data also reflects new conditions in the watershed (developments, road expansions, siltation in ditches, etc.), so predictions should become much more accurate.

Insurance

Based on the new rainfall data, flood insurance rates could also change.

Construction

Finally, the new data will become crucial in city planning, construction and permitting. The City is already demanding that new construction be raised to two feet above the 500-year flood plain. Perhaps Mayor Turner had a hint of what the new numbers would show when he suggested the new construction standards.

Infrastructure

The larger rainfall totals also mean that cities must use larger storm drains and sewers in new developments. Everything will change.

For more information about the new data, review this quarterly newsletter from NOAA.

Posted on September 27, 2018 by Bob Rehak

395 Days since Hurricane Harvey