Friday, August 31, 2012

Chris' Dive Experiences: Mola Mola Bonanza Diving The Eureka Oil Rig, Long Beach





Diving in southern California and reading the local diving publications has long put diving the Eureka oil rig on my radar. It’s not too often a dive site offers a man-made reef sitting in over 600 feet of salt water. Being surrounded by open ocean, you also have a chance to see pelagic species. Diving the oil rigs may conjure up video of the military doing parachute jumps with everyone geared-up in a line, jumping in one after the other. This is called a “live boat”, meaning the boat is never moored and is under power at all times; divers line up and jump in all at the same time.

We awoke on the day of the trip to beautiful clear skies and flat seas as we motored out on the Sundiver Express. It only took us 20 minutes to reach the Eureka rig. I was surprised by just how big the rig was when we got close; it rose to around 10 stories tall. We were briefed on the diving procedure and told to gear up and get in line. Once ready, the boat backed right up to the rig pilings and two by two all of us did a giant stride in.


Photo courtesy of Lesley Alstrand
As I descended, I was instantly struck by the explosion of life. Every single inch of the pilings were covered with strawberry anemones, white anemones, brittle stars, sea stars, scallops, muscles, nudibranchs, and urchins. As we continued down to 130 feet, we were also mesmerized by some of the pelagic jellies and salps that we passed by, many of which just defy logic of how they look and move. The life on the piling at 130 feet was just as dense as the life near the surface no matter which direction you looked. It could keep you occupied for hours instead of the mere minutes that we had. As we worked our way back toward the surface I couldn’t believe it when I saw in the corner of intersecting beams a group of lobsters inching out to see what I was. Thinking of the journey that these lobsters made to end up this high on the pilings and crossbeams, with the sea floor more than 500 feet below, was amazing to me.

Around this time I started looking and moving out into the blue that surrounded us, hoping to see something special. After only a few minutes of slowly ascending and moving back and forth along the pilings, I saw something coming toward the piling. I couldn’t quite figure out what it was. Once it got closer I couldn’t believe my eyes. I was finally getting to dive with a mola mola! The mola mola came very close, checking us out with one of its big eyes as it passed very calmly. At this point everyone in the water was very excited at what we just got to see. Little did any of us know this experience would be trumped in less than a minute. I had my eyes peeled, hoping to see the mola mola coming back and trying to be in the right place to film it on its return. As I looked into the blue I saw the shape of the mola mola coming towards us and then another, and another and another. No less than ten mola molas coming right up to the pilings and divers this time; not only checking us out but also playing in the bubbles from the divers. The mola molas stayed with us for the rest of the dive, calmly making close passes by us. It was very exciting to see this unique and hard to find species and get loads of time interacting with them.

The mola molas seemed to enjoy us as much as we enjoyed them.


Photo courtesy of Lesley Alstrand

Friday, August 24, 2012

Scuba Cylinders - Misconceptions & Maintenance


There are a few things I would like to cover in this installment of the equipment blog.  First would be the big misunderstanding between cubic feet and psi. Then I will go over the different types of bottles, (metals and sizes).  Finally, I will cover safety and maintenance as well.


CUBIC FEET vs PSI  

Which tank holds more air:  1) aluminum 80 at 3000 psi, or 2) steel 65 at 3442 psi?  Most people would pick the steel tank because of the higher pressure at 3442 psi.  Well, if you are one of them, I am sorry to say you have been misinformed.  So let’s cover the difference between cubic feet and psi.  I have heard people say they want a tank a greater psi because it means it holds more air.  In a way they are correct.  An aluminum 80 with 3000 psi has more air than an aluminum 80 with 2000 psi, but a steel low pressure 120 at 2400 psi has more air than the aluminum 80 at 3000 psi.  It comes down to this, the cubic feet (cu ft) tells you how much air the tank will hold or the capacity of the cylinder while the pounds per square inch (psi) tells you the pressure (how full the bottle is).  So when you talk about an aluminum 80, this tank has a storage capacity of 80 cu ft which is less than a steel 120 (a storage capacity of 120 cu ft) regardless of the pressure.

So when picking out a tank, you need to know how much air you want to take with you.   If you are someone who uses a lot of air while diving and are tired of being the one who makes the group turn around due to air consumption, then you may want a bigger tank.  When I say bigger I mean a bottle with a greater storage capacity (cu ft) and not worry about the psi.


ALUMINUM vs STEEL


So what bottle do you get?  You basically have two options aluminum cylinders or steel cylinders.  From there you can break down the steel ones into two more categories; low pressure (2400) or high pressure (3442 or 3500 psi).  Here is a chart on the differences on the tanks:
LOW PRESSURE Steel

In sea water with valve
LP77
LP85
LP95
LP108
LP121
Service Pressure
2400+ psi
2400+ psi
2400+ psi
2400+ psi
2400+ psi
True Capacity @ 2640 psi
77.0 cuft
82.9 cuft
93.3 cuft
108.6 cuft
120.0 cuft
Buoyancy *FULL
- 6.8 lbs
- 7.1 lbs
- 10.1 lbs
- 10.7 lbs
- 11.1 lbs
Buoyancy *EMPTY
-1.0 lbs
- 0.7 lbs
- 3.0 lbs
- 2.6 lbs
- 2.0 lbs
Weight Empty
32.5 lbs
36.8 lbs
41.9 lbs
45.95 lbs
49.9 lbs
Outside Diameter
7.25 in
7.25 in
8.0 in
8.0 in
8.0 in
Length +/- 0.125”
23.2 in
24.7 in
23.7 in
26.5 in
29.2 in


HIGH PRESSURE Steel

In sea water with valve
X7-65
X7-80
X7-100
X7-120
X8-119
X8-130
Service Pressure
3442 psi
3442 psi
3442 psi
3442 psi
3442 psi
3442 psi
True Capacity @ 2640 psi
66.4 cuft
81.0 cuft
99.5 cuft
120.6 cuft
123.0 cuft
131.4 cuft
Buoyancy *FULL
- 8.7 lbs
- 9.0 lbs
- 10.0 lbs
- 11.0 lbs
- 10.9 lbs
- 11.7 lbs
Buoyancy *EMPTY
- 3.9 lbs
- 3.0 lbs
- 2.5 lbs
- 2.0 lbs
- 2.0 lbs
- 2.0 lbs
Weight Empty
25.1 lbs
29.9 lbs
33.1 lbs
39.7 lbs
42.5 lbs
44.7 lbs
Outside Diameter
7.25 in
7.25 in
7.25 in
7.25 in
8.0 in
8.0 in
Length +/- 0.125”
16.7 in
19.8 in
22.7 in
27.7 in
23.9 in
25.3 in

Now the nice thing about steel tanks as compared to the aluminum, is that they are more negative buoyant (Most people can take off about 6-8 lbs of lead when diving) and the high pressure tanks are also a bit shorter.

ALUMINUM

In Sea water with valve
AL50
AL63
AL80
ALN80
AL100
Service Pressure
3000 psi
3000 psi
3000 psi
3300 psi
3300 psi
True Capacity
48.4 cu ft
63.0 cu ft
77.4 cu ft
77.4 cu ft
98.8 cu ft
Buoyancy* FULL
- 2.3 lbs.
- 2.2 lbs.
- 1.4 lbs.
- 5.7 lbs.
- 4.3 lbs.
Buoyancy* HALF
- 0.5 lbs.
+ 0.2 lbs.
+ 1.5 lbs.
- 2.8 lbs.
- 0.6 lbs.
Buoyancy* 500 psi
+ 0.8 lbs.
+ 1.7 lbs.
+ 3.4 lbs.
- 0.9 lbs.
+ 1.9 lbs.
Weight EMPTY
21.2 lbs.
26.7 lbs.
31.4 lbs.
35.4 lbs.
41.0 lbs.
Outside Diameter
6.90 in.
7.25 in.
7.25 in.
7.25 in.
8.00 in.
Cylinder Length
19.0 in.
21.9 in.
26.1 in.
25.8 in.
26.2 in.


As you compare the charts you can see which bottle is going to be the best for you.  Aluminum tanks are less expensive but the steels have more benefits.

MAINTENANCE & SAFETY
Both Rod & Chris are certified
by PSI to perform visual inspections 

Once you get your cylinder you need to make sure you are safe with it and you properly maintain it. It is fairly easy to take care of the bottles; you just need to make sure you follow through. You can rinse off the bottle - this will help keep the salt away from the coating.  If you do choose to rinse your tanks, make sure you do not get water into the valve.  Make sure you always leave some air in the tank as well.  Never bring an empty bottle to the shop for air. If you do, a visual inspection will have to be conducted prior to any air fill to assess the condition of the tank.


The big maintenance exams for scuba cylinders are what are called a visual inspection and a hydrostatic test.  "Visuals" should be performed on your tanks annually, while "hydros", at least here in the U.S., should be performed every 5 years.  There are other times this maintenance has to be preformed: if there looks to be damage to the bottle, as if it appears to have been dropped; if the air inside has an odor; noise is made from inside the tank; increased weight; or if the valve has been removed.  In most cases though, under normal usage, just the basic visual will be done once a year and the hydro every 5 years in order for your tanks to be filled by a certified air station.

Now here is a little bit on safety.  Everyone should know not to leave tanks standing, especially with gear is attached. "Why is this?" you ask. Because if the tank falls, it could damage the valve or other equipment like your regulator or mask, or worse, could roll down the driveway or into the street. Strange how round things tend to roll down hill.  Another nice little safety tip is how to carry your tank properly.  When you grab the valve you should have the air outlet pointing away from the palm of the hand.  This will make sure the pressurized stream of air does not blow into your hand, and holding the knob in this manner will turn it into the off position ensuring air will not leak from the valve.



So remember, when you are ready to buy a tank make sure you are getting what fits your diving. Do you want small and compact, or do you want all the air possible?  No matter what one you get, make sure you are safe with it and take the proper measures to ensure the bottle will last a lifetime.  That is about it for cylinders, maybe next time I will talk about the valves. Or is there something you want to know a bit more about? Just let me know.