Jump to content

Saffir–Simpson scale

From Simple English Wikipedia, the free encyclopedia
(Redirected from Saffir-Simpson scale)
Saffir–Simpson Hurricane Scale
Category Wind speeds
Five ≥70 m/s, ≥137 knots
≥157 mph, ≥252 km/h
Four 58–70 m/s, 113–136 knots
130–156 mph, 209–251 km/h
Three 50–58 m/s, 96–112 knots
111–129 mph, 178–208 km/h
Two 43–49 m/s, 83–95 knots
96–110 mph, 154–177 km/h
One 33–42 m/s, 64–82 knots
74–95 mph, 119–153 km/h
Related classifications
Tropical
storm
18–32 m/s, 34–63 knots
39–73 mph, 63–118 km/h
Tropical
depression
≤17 m/s, ≤33 knots
≤38 mph, ≤62 km/h

The Saffir–Simpson Hurricane Wind Scale is a scale that is used to sort tropical cyclones in the Western Hemisphere. It is only used for storms that are stronger than "tropical storms", and become actual hurricanes. The categories into which the scale separates hurricanes are noted by the strength of their maximum sustained wind speeds. The classifications are used mainly to predict the possible wind damage a hurricane will create when it makes landfall. It does not measure rainfall or storm surge or how wide the storm is.

The scale is also used to classify subtropical cyclones after a change in the rules made by the National Hurricane Center in 2002.

The Saffir-Simpson Hurricane Scale is used only to describe hurricanes that form in the Atlantic Ocean and northern Pacific Ocean, to the east of the International Date Line. Other areas call their tropical storms by other names, and use their own classification scales.

Examples

[change | change source]

Category 1

[change | change source]
Category 1
Sustained winds Most recent landfall
33–42 m/s

64–82 kn 119–153 km/h

74–95 mph

Debby at its 2024 landfall in florida

Dangerous winds will produce some damage

Category 1 storms may damage roofs, shingles, vinyl sidings, and gutters to well-constructed frame homes. Large branches of trees will snap and shallowly rooted trees may be toppled. Extensive damage to power lines and poles likely will result in power outages that could last a few to several days.

Hurricanes that peaked at Category 1 intensity and made landfall at that intensity include: Agnes (1972), Juan (1985), Ismael (1995), Gaston (2004), Stan (2005), Humberto (2007), Isaac (2012), Manuel (2013), Earl (2016), Hermine (2016), Nate (2017), Barry (2019), Hanna (2020), Isaias (2020), Nana (2020), Julia (2022), Lisa (2022), and Nicole (2022), and Debby (2024)

Category 2

[change | change source]
Category 2
Sustained winds Most recent landfall
43–49 m/s

83–95 kn 154–177 km/h

96–110 mph

Francine in 2024 at landfall in Lousiana

Extremely dangerous winds will cause extensive damage

Category 2 storms may produce extremely dangerous winds that will cause extensive damage: Well-constructed frame homes could sustain major roof and siding damage. Many shallowly rooted trees will be snapped or uprooted and block numerous roads. Near-total power loss is expected with outages that could last from several days to weeks.

Hurricanes that peaked at Category 2 intensity and made landfall at that intensity include: Able (1952), Alice (1954), Ella (1958), Fifi (1974), Diana (1990), Gert (1993), Rosa (1994), Erin (1995), Alma (1996), Juan (2003), Alex (2010), Richard (2010), Tomas (2010), Carlotta (2012), Ernesto (2012), Arthur (2014), Sally (2020),Olaf (2021), Rick (2021), Agatha (2022), and Francine (2024).

Category 3

[change | change source]
Category 3
Sustained winds Most recent landfall
50–58 m/s

96–112 kn 178–208 km/h

111–129 mph

Radar loop of Milton at landfall in Siesta Key, Florida

Devastating damage will occur

Tropical cyclones of Category 3 and higher are major hurricanes, and devastating damage will occur: Well-built framed homes may incur major damage or removal of roof decking and gable ends. Many trees will be snapped or uprooted, blocking numerous roads. Electricity and water will be unavailable for several days to weeks after the storm passes.

Hurricanes that peaked at Category 3 intensity and made landfall at that intensity include: Easy (1950), Carol (1954), Hilda (1955), Audrey (1957), Celia (1970), Ella (1970), Caroline (1975), Eloise (1975), Olivia (1975), Alicia (1983), Elena (1985), Roxanne (1995), Fran (1996), Isidore (2002), Jeanne (2004), Lane (2006), Karl (2010), Otto (2016), Zeta (2020), and Grace (2021), John (2024) and Milton (2024)

Category 4

[change | change source]
Category 4
Sustained winds Most recent landfall
58–70 m/s

113–136 kn 209–251 km/h

130–156 mph

Helene at its landfall in the Big bend region, Florida

Catastrophic damage will occur

Category 4 storms may cause catastrophic damage. Well-built framed homes can sustain severe damage with loss of most of the roof structure and/or some exterior walls. Most trees will be snapped or uprooted and power poles downed. Fallen trees and power poles will isolate residential areas. Power outages will last weeks to possibly months. Most of the area will be uninhabitable for weeks or months.

The 1900 Galveston hurricane, the deadliest natural disaster (at the time) to hit the United States, peaked at an intensity that corresponds to a modern-day Category 4 storm. Other examples of storms that peaked at Category 4 intensity and made landfall at that intensity include: Donna (1960), Flora (1963), Cleo (1964), Betsy (1965), Carmen (1974), Frederic (1979), Iniki (1992), Iris (2001), Charley (2004), Dennis (2005),Ike (2008), Joaquin (2015), Harvey (2017), Laura (2020), Eta (2020), Iota 2020), and Ida (2021), Lidia (2023), and Helene(2024)

Category 5

[change | change source]
Category 5
Sustained winds Most recent landfall
≥ 70 m/s

≥ 137 kn ≥ 252 km/h

≥ 157 mph

Hurricane Otis nearing its landfall in October 2023 in Guerrero

Near-total damage will occur

Category 5 is the highest category of the Saffir–Simpson scale. These storms cause roofs to break apart on many buildings, and some building may break apart, with small utility buildings blown over or away. Collapse of many roofs and walls, especially those with no inside supports, is common. Very heavy and unfixable damage to many wooden buildings and total destruction to mobile/manufactured homes is common. Only a few types of buildings can survive, and only if located at least 3 to 5 miles (5 to 8 km) inland. They include office, condominium and apartment buildings and hotels that are of concrete or steel frame construction, multi-story concrete parking garages, and residences that are made of either lots of brick or concrete/cement block and have roofs with slopes of no less than 35 degrees from a horizontal angle and no overhangs of any kind, and if the windows are either made of hurricane-resistant safety glass or covered with shutters. Unless most of these requirements are met, the catastrophic destruction of a structure may occur.

The storm's flooding causes major damage to the lower floors of all structures near the shoreline, and many coastal structures can be completely flattened or washed away by the storm surge. Virtually all trees are uprooted or snapped and some may be debarked, isolating most affected communities. Massive evacuation of residential areas may be required if the hurricane threatens populated areas. Total and extremely long-lived power outages and water losses are to be expected, possibly for up to several months.

Historical examples of storms that made landfall at Category 5 status include: "Cuba" (1924), "Okeechobee" (1928), "Bahamas" (1932), "Cuba–Brownsville" (1933), "Labor Day" (1935), Janet (1955), Camille (1969), Edith (1971), Anita (1977), David (1979), Gilbert (1988), Andrew (1992), Dean (2007), Felix (2007), Irma (2017),[1] Maria (2017),[2] Michael (2018),[3] Dorian (2019), Ian (2022) and in the eastern pacific basin, Otis (2023).

References

[change | change source]
  1. "Famous Hurricanes of the 20th and 21st Century in the United States" (PDF). www.weather.gov/crh/.
  2. Blake, Eric (September 20, 2017). Hurricane Maria Tropical Cyclone Update (Report). Miami, Florida: National Hurricane Center. Retrieved September 20, 2017.
  3. John L. Beven II; Robbie Berg; Andrew Hagen (April 19, 2019). Tropical Cyclone Report: Hurricane Michael (PDF) (Technical report). National Hurricane Center. Retrieved April 19, 2019.