Jump to content
  • Member Statistics

    17,608
    Total Members
    7,904
    Most Online
    Vesuvius
    Newest Member
    Vesuvius
    Joined

August 2021


wdrag
 Share

Recommended Posts

57 minutes ago, bluewave said:

Yeah, today is the 36th day to reach 90° at Newark. The airport finished the season with 45.7” of snow. So this could only be the 2nd time on record along with 2010 to reach 40” of snow and 40 days of 90°.
 

Time Series Summary for NEWARK LIBERTY INTL AP, NJ - Jan through Dec
Click column heading to sort ascending, click again to sort descending.
Rank
Year
Number of Days Max Temperature >= 90 
Snowfall
1 2010 54 47.9
2 1993 49 28.8
3 1988 43 22.8
4 2002 41 3.6
- 1991 41 21.5
5 2016 40 32.8
- 1983 40 31.0
- 1959 40 17.8

the good old days!  lots of snow in the winter and lots of heat in the summer!

didn't we have the same at LGA though in 2010?

 

Link to comment
Share on other sites

58 minutes ago, bluewave said:

Yeah, today is the 36th day to reach 90° at Newark. The airport finished the season with 45.7” of snow. So this could only be the 2nd time on record along with 2010 to reach 40” of snow and 40 days of 90°.
 

Time Series Summary for NEWARK LIBERTY INTL AP, NJ - Jan through Dec
Click column heading to sort ascending, click again to sort descending.
Rank
Year
Number of Days Max Temperature >= 90 
Snowfall
1 2010 54 47.9
2 1993 49 28.8
3 1988 43 22.8
4 2002 41 3.6
- 1991 41 21.5
5 2016 40 32.8
- 1983 40 31.0
- 1959 40 17.8

this is the list of what I would call the truly hot summers

2010, 1993, 2002, 1991, 1983

missing a few (1944, 1955, 1966, 1980, 1995, 1999)

 

Link to comment
Share on other sites

Much of the region saw temperatures rise into the upper 80s and lower 90s.

90° Days for Select Cities (through August 24):

Albany: 4 (2020: 13 days; 5-Year Average: 13.6 days)
Allentown: 21 (2020: 24 days; 5-Year Average: 27.6 days)
Baltimore: 45 (2020: 46 days; 5-Year Average: 44.6 days)
Boston: 21 (2020: 14 days; 5-Year Average: 17.2 days)
Bridgeport: 10 (2020: 11 days; 5-Year Average: 13.4 days)
Burlington: 12 (2020: 20 days; 5-Year Average: 13.0 days)
Harrisburg: 31 (2020: 35 days; 5-Year Average: 30.6 days)
Hartford: 21 (2020: 39 days; 5-Year Average: 29.0 days)
Islip: 6 (2020: 8 days; 5-Year Average: 9.4 days)
New York City-JFK: 9 (2020: 12 days; 5-Year Average: 10.2 days)
New York City-LGA: 22 (2020: 34 days; 5-Year Average: 29.4 days)
New York City-NYC: 14 (2020: 20 days; 5-Year Average: 18.2 days)
Newark: 36 (2020: 33 days; 5-Year Average: 31.2 days)
Philadelphia: 32 (2020: 36 days; 5-Year Average: 34.6 days)
Scranton: 16 (2020: 25 days; 5-Year Average: 16.4 days)
Washington, DC: 41 (2020: 46 days; 5-Year Average: 50.8 days)

New York City-Newark Average: 20 (2020: 22 days)
...Expected: 22 (based on regression equation tied to JFK-LGA-EWR data)

Tomorrow could be a degree or two warmer. In addition, the humidity will begin to increase. Much of the remainder of this week will feature unseasonably warm temperatures.

The ENSO Region 1+2 anomaly was -0.1°C and the Region 3.4 anomaly was -0.9°C for the week centered around August 18. For the past six weeks, the ENSO Region 1+2 anomaly has averaged +0.41°C and the ENSO Region 3.4 anomaly has averaged -0.43°C. Neutral ENSO conditions will likely prevail into mid-September. Afterward, La Niña could begin to develop.

The SOI was +12.20 today.

The preliminary Arctic Oscillation (AO) figure was -0.976 today.

On August 22 the MJO was in Phase 2 at an amplitude of 0.675 (RMM). The August 21-adjusted amplitude was 0.962 (RMM).

Based on sensitivity analysis applied to the latest guidance, there is an implied 87% probability that New York City will have a warmer than normal August (1991-2020 normal). August will likely finish with a mean temperature near 77.3° (1.3° above normal).

 

Link to comment
Share on other sites

1 hour ago, gravitylover said:

A 3 week winter... kinda like the one we just went through, same timing too.

I wasn't alive in 1914 (hard to believe) but I was for the Jan 15-Feb 4, 1961 onslaught...1913-14 was like 1966-67 without the snowstorm for Christmas...

  • Like 2
Link to comment
Share on other sites

2 hours ago, gravitylover said:

A 3 week winter... kinda like the one we just went through, same timing too.

one of a few winters that got at least 30" of snow in 30 days...

30" in 30 days...
The short list..............................Newark...
02/24-03/24, 1896.....32.0"......
02/06-03/07, 1914.....35.2"......2/13-3/14, 1914.....32.5"
12/26-01/24, 1948.....43.4"......12/26-1/24/48.......42.1"
01/15-02/13, 1961.....34.1"........1/15-2/13, 1961......44.8"
01/16-02/14, 1978.....37.2"........1/16-2/14, 1978.....44.9"
02/02-03/03, 1994.....30.8".....2/8-3/9, 1994........28.6"**est...
12/14-01/12, 1996.....35.2".......12/14/95-1/12/96...42.7"

...................................................1/20-2/18, 2003.....30.7"
01/28-02/26, 2010.....38.2".....1/28-2/26, 2010......34.0"
01/07-02/05, 2011.....37.6"......12/26-1/24, 2011.....42.1"

01/21-02/19, 2014.....42.1"......1/21-2/19, 2014.......41.7"

01/17-02/15, 2016.....31.5"......1/17-2/15, 2016.......30.9"

..................................................1/31-3/1, 2021.........32.1"...as of 2/21

  • Thanks 1
Link to comment
Share on other sites

5 hours ago, bluewave said:

Today will probably be the lowest humidity of the heatwave as dew points are really high to our west.

a lot of building air systems are barely designed to handle the kind of dews we have been seeing the last few years.  among the billion things I do at my job, i review air handler specifications before i buy them, and 80F is basically the upper limit of the cooling coils we spec.  maybe there's some sensitive areas with even more robust design requirements but i haven't seen it.  this is for 100% outside air laboratory air handlers.  no recycling.  the office air handlers recycle air and so are design to mix, say, 50/50 recycled air and outside air.

last year due to COVID we went to a 100% outside air protocol for ALL air handlers, even for office areas that were simply not designed to do that.  rain in the building became a problem where moist air condensed on the cold surfaces of air diffusers and started to drip.  we looked like assholes to the users but it wasn't our fault.

as global warming continues its long march to the sea, we are going to spend more and more energy just trying to fend it off--another feedback loop of doom.

edit: i know that had little to do with your post but i spent all day sweating to death and, you know, i'm not looking forward to more of it.

  • Like 1
Link to comment
Share on other sites

37 minutes ago, Will - Rutgers said:

a lot of building air systems are barely designed to handle the kind of dews we have been seeing the last few years.  among the billion things I do at my job, i review air handler specifications before i buy them, and 80F is basically the upper limit of the cooling coils we spec.  maybe there's some sensitive areas with even more robust design requirements but i haven't seen it.  this is for 100% outside air laboratory air handlers.  no recycling.  the office air handlers recycle air and so are design to mix, say, 50/50 recycled air and outside air.

last year due to COVID we went to a 100% outside air protocol for ALL air handlers, even for office areas that were simply not designed to do that.  rain in the building became a problem where moist air condensed on the cold surfaces of air diffusers and started to drip.  we looked like assholes to the users but it wasn't our fault.

as global warming continues its long march to the sea, we are going to spend more and more energy just trying to fend it off--another feedback loop of doom.

edit: i know that had little to do with your post but i spent all day sweating to death and, you know, i'm not looking forward to more of it.

Tell you what, with sea level rise happening, these ugly high dew points and droughts and wild fires in the West, I would seriously consider more efficient desalinization machines being built so we can use the water from the oceans.  It would be a muscular move to solve multiple problems at once- if we were able to use enough ocean water at a high enough rate we could solve our drought problems and negate sea level rise at the same time.  The question is how long it will be when we have machines powerful enough to desalinate water from the oceans and use it and take it out fast enough to negate sea level rise.

Link to comment
Share on other sites

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now
 Share

  • Recently Browsing   0 members

    • No registered users viewing this page.
×
×
  • Create New...