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Introduction to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC

Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

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Page 1: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Introduction to The Tipping Bucket Rain Gauge

2011

Dr John Gorman, ARIC

Page 2: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Rainfall•Manual Rain Gauge

•HS TBRG Tester

•Tipping Bucket Rain Gauge

•Field Calibration Device

Page 3: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Rimco 7499 Tipping Bucket Rain Gauge (TBRG)

Siphon

Bucket LHSBucket RHS

StopscrewLHS

StopscrewRHS

Funnel

Base

Reed-switchAssembly

Magnet

Page 4: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Rimco 7499 Tipping Bucket Rain Gauge (TBRG)

Stopscrews

Locking nuts

Stopscrew

Height

Equilibrium Line

Slant Angle

LHS Terminal Block

RHS Terminal Block

Page 6: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

The Reed Switch

The output of a TBRG is a reed switch closure.That is, the resistance of the TBRG outputs goes to zero.

Page 8: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

The Siphon

The siphon delivers a “constant” rainfall rate to the buckets

This sets the momentum transferred to the buckets which would otherwise change as rainfall rate changed

Page 9: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

The Rimco 7499 TBRG

The effect of removing the siphon from a TBRG will change rainfall totals measured by 10 to 15%.

Adding a siphon makes the TBRG more “flatter” at low rainfall rates

Once the siphon breaks down the two curves are equal.

0 100 200 300 400 500

-15

-10

-5

0

5

Cor

rect

ion

Per

100

Tip

s

Rainfall Rate

With siphon Straight through

Page 10: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Water Retained in the TBRG

• At the beginning of a TBRG test the amount of water within the gauge is unknown.

• The bucket may contain between 0 and 1 tip.• The siphon may contain between 0 and 2 tips.• Therefore the gauge may contain between 0 and 3 tips!• The same is true at the end of the test.• Therefore some of the water delivered by the field

calibration device may not have led to a tip.

Page 11: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Water retained in buckets versus time

40100 40150 40200 40250 403000

1

2

3

4

5

6

Mas

s (g

)

Time (sec)

Water retained in buckets versus time.The gauge was subjected to a flow rate of approximately 100 mm/h.Note the cyclical nature of the retained water.The water sitting in the bucket while the siphon fills is the flat regions in the plot opposite.

Page 12: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Water retained in siphon versus time

100 150 200 250 300 350 4000

2

4

6

8

10

12

Average 4.25 g

Ret

aine

d W

ater

(g)

Time (s)

•When a constant stream of water was passed into a gauge the mass of water held in the buckets varied as shown opposite.•Rainfall rate was approximately 100 mm/h.•Note: sometimes it releases at approximately 1 tip (6.5 g) sometimes approximately 2 tips (13 g).•The scales may not have captured the completely full part of the cycle.

Page 13: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

This leads to:

0 2 4 6 8100

101

102

103

104

105

106

107

108

109

110

111N

umbe

r of T

ips

Trial NUmber

6 applications of an FCD

Page 14: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Ideal Calibration Curve for a TBRG with Siphon

-5 .0

-4 .0

-3 .0

-2 .0

-1 .0

0 .0

1 .0

2 .0

3 .0

4 .0

5 .0

0 5 0 1 0 0 1 5 0 2 0 0 2 5 0 3 0 0 3 5 0 4 0 0 4 5 0 5 0 0

R ainfall R ate (m m /h)

Cor

rect

ion

(%)

M ean Initial 1 % C orr InitialM ean Initial 1 % C orr RepeatM ean Initial 1 % C orr 10 TestsSpec % +Spec % -

NB: Black lines are the BoM Specification A1980(4)

Page 15: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

TBRG Testing -10 Years Ago

• Gravity fed Boyle bottles• Tests showed the variation was

approximately ¼ of a tip. • Lack of select ability of flow rate

due to the limited number of nozzles (6) and their fixed size.

• Variability of flow rate due to nozzles becoming blocked with time.

• Variability of nozzle flow from run to run.

Page 16: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

5 Years Ago - Peristaltic Pump

Page 17: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Disadvantages

• Some drift in rainfall rate (approx. 0.5% per 24 hours of operation)

• Tubing needs regular replacement (once a week during continuous operation).

• Equipment of the systems is expensive, approx $15k each system.

• Minimum of 300 tips required to reduce biases in the ‘taring’method.

Page 18: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Now ..... Pump-Stepper Motor System.

extends range down to ≤

2 mm.hr-1

High precision in RFI and tips

Page 19: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Precision (Repeatability)

The repeatability of the pumps is a few parts per thousand

0 100 200 300 400 500-0.3

-0.2

-0.1

0.0

0.1

0.2

0.3

0.4

Calibration CorrectionPump 1 Several Trials

Cor

rect

ion

(%)

Rainfall Rate (mm/h)

Page 20: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Bureau Rainfall Traceability International- Masses

National - Masses

Bureau Masses

FCD

Field TBRG

Scales

Quirky

Kg

Page 21: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Real TBRGs

Rimco 7499 gauges ‘as received’ for testing

Repeatability of new gauges is a few per cent

Testing system is therefore about 10 times more repeatable than the gauge under test.

0 50 100 150 200 250 300-5

-4

-3

-2

-1

0

1

2

3

B ureau S pec.

B ureau S pec.

Cor

rect

ion

Per 1

00 T

ips

R a in fa ll R a te (m m /hr)

Page 22: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Hydrological Services TBRG Testing (TB-3)

• HS gauges showed bedding in similar to the 7499 gauges.

• There appeared to be an increase in sensitivity at low rainfall rates after bedding in. 0 50 100 150 200 250 300 350

-11

-10

-9

-8

-7

-6

-5

-4

-3

-2

-1

0

1

2

3

Bedded-In

As Recieved

Cor

rect

ion

Per

100

Tip

s

Rainfall Rate (mm/hr)

Page 23: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Environdata TBRG testing (RG-15)

Environdata TBRGs showed poor reproducibility

0 50 100 150 200 250 300

-22-20-18-16-14-12-10-8-6-4-202468

Cor

rect

ion

Per

100

Tip

s

Rainfall rate (mm/hr)

Page 24: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Characterisation. No siphon. Comparison of Normalisation vs Manual adjustment with stopscrew.

Cha r a c t e r i sa t i on Cur v e s f or Cor r e c t i ons. No S i phon. Cor r e c t i on pe r 10 0 t i ps v s Ra i nf a l l Ra t e f or TBRG 7 10 0 5 . 15 . 7 . 2 0 0 7 - 16 . 7 . 2 0 0 7 . 5 , 10 x 10 0 t i ps t r i a l s. Buc k e t s WI TH c e nt r a l wi r e .

-15

-10

-5

0

5

10

15

0 50 100 150 200 250 300 350 400 450 500 550

71005 normalised to range 127 - 250mm/hr NOT stopscrew adjusted 71005 NOT normalised adjusted with FCD 018

Page 25: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Error and drift in gauge after ‘rough’ treatment.

•% Error for a 7499 gauge versus total number of tips through the gauge.•The rough treatment included moderate shaking with the buckets free and moderate shaking while inverted with the buckets free.•Large initial errors can be expected while the buckets settle-in. 0 2000 4000 6000 8000 10000

-30

-25

-20

-15

-10

-5

0

% E

rror

Total tips

Page 26: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Long term drift in a New TBRG

• Graph of the relative error of a 7499 TBRG repeatedly tested from new over a period of 5 days.

• The drift of approximately 3% during the ‘bedding- in’ process is typical of this type of gauge.

• Typically a gauge takes approximately 5000 tips to before it stops drifting; that is about 1 metre of rain! 0 5000 10000 15000 20000

-6

-4

-2

0

2

4

6

% E

rror

Total Tips

Page 27: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Bedding-in of various new gauges

0 5000 10000 15000 20000 25000 30000

-7

-6

-5

-4

-3

-2

-1

0

1

2

3

4

5

6

TBRGs Tested From New

Cor

rect

ion

Per

100

Tip

s

Total Tips at 200mm/hr

S/N 84631 S/N 84646 S/N 84633 S/N 84628Opposite is the plots of 4

new 7499 gauges as they bed-in.

Page 28: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Attempts at Rapid ‘Bedding-in’

0 10 20 30 40 50 60 70 80-10

-5

0

5

10

15

20

Mean = -1.2Std Dev = 0.97

Moved

Mean = 1.7Std Dev = 0.90

Vibrated

Mean =10.2Std Dev = 6.0

Mean = 2.0Std Dev = 1.15

Mean = 2.75Std Dev = 4.55

Moved

Vibrated

Cor

rect

ions

Per

100

Tip

s

Trail Number

•Corrections required for a TBRG that has been subjected to a number of movements.•This was to simulate transport and unpacking etc. To rapidly bed the gauge in it was vibrated while it was in position.•The gauge was vibrated using an electric motor.•It settles the gauge very quickly but is not practical in the field.

Page 29: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Manual testing with HS Field Calibration Devices (FCD)

Gauges are also tested manually using 200 mm.h-

1 FCDs (Volume ~ 654 ml).

This is done because it:•

confirms the results of

the automated testing;•

replicates the field

calibration of the gauge;•

is quicker.

Page 30: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

TBRG ToleranceSensor Comparison Method Uncertainty Field Tolerance

RainfallTBRG with syphon

TBRG Calibration tool 3% (<250mm/h

)4%

(>250mm/h )

6%6%

RainfallTBRG without syphon

TBRG Calibration tool 8% 8%

INSPECTION HANDBOOK CHAPTER 3.2 March 2008

FCDs (Volume ~ 654 ml)Rimco

7499 bucket volume: 6.473 mlHS TB3 volume: 6.28 ml

654/(6.473) = 101.654/(6.28) = 104.

Page 31: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

The Hydrological Services Field Calibration Device

• the mass of water delivered.• the time taken to empty;• the repeatability of the FCD;• the reproducibility of the FCD.• The FCD delivers a volume of

water, the TBRG is essentially a balance and tips on mass.

• Volume and mass are related via the temperature of water.

• Note the flow rate is essentially constant until the last 10 tips.

0 100 200 300 4000.0

0.5

1.0

1.5

2.0

2.5

fLOW RATE OF AN FCD VERSUS TIMEFl

ow R

ate

(g/s

)

Time (s)

644

646

648

650

652

654

656

658

660

VARIABILITY OF FCD DELIVERED MASS

Del

iver

ed M

ass

(g)

FCD

Page 32: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Expected number of tips

Expected number of tips including temperature and retained water effects

Temperature (oC)

Expected tips

4 300.920 300.440 298.560 295.98

Page 33: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Effect of water temperature on the number of expected tips for three applications of the FCD.

Temperature (oC)

Density (kg/m3)

Correction (tips)

4 999.99 0.0

20 998.23 0.5

40 992.25 2.4

60 983.89 4.9

Example: TBRG in direct sun (Kimberley?),has been reported to be ~ 60 °C

Page 34: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Options for correction strategiesAt least four options suggest themselves:

ignore the bias introduced by variations in water temperature and increase the uncertainty of rainfall measurement;

supply a correction table and measure the temperature of the water used in the FCD;

keep the water cool ( 20oC);

apply a correction of 0 if the water temperature is below body temperature and +3 tips if the water temperature is above body temperature.

Page 35: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Field testing with an FCD

0 2 4 6 8 10 12 149293949596979899

100101102103104105106107108

Dry

Tips

Trial Number

As received 39 After bedding 39 As received 42 After bedding 42

Opposite is a plot of the number of tips recorded for repeated testing of 4 new TBRGs

using the same FCD.Two of the TBRGs

take 4 or more applications before they settle in (red & black).These gauges were set up according to the instructions in the surface obs

handbook.

Page 36: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

TBRG performance w.r.t. FCD tests.

The following slides study TBRG performance at site YFG, with weekly tests of five applications of FCD on two TBRGs.

Data is graphed in the following X-bar/Range Charts.(X-bar = average. Range = max –

min).

The charts need to be compared simultaneously; conclusions should relate to the overall structure of the X-bar and the Range charts.

Page 37: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Performance of TBRG 1, w.r.t. FCD tests. (5 FCD ~ 3 FCD) Control Chart limits included.

Control Limit Chart for Mean and Range in Tips using FCD at YFGTBRG 1 FCD2: 22/12/2005 - 28/04/2007. Process Mean: 106.7. LCL 104.8. UCL 108.5.

F unnel Swap 7/ 10 / 2 0 0 6 . Grass removed 2 0 / 0 1/ 2 0 0 7.

85

90

95

100

105

110

115

22/12 /20055/01/200620/01 /20066/02/200616/02 /20064/03/200618/03 /20061/04/200614/04 /20066/05/200620/05 /0603/06 /0617/06 /0601/07 /0622/07 /0605/08 /0618/08 /062/09/200616/09 /20067/10/200614/10 /200628/10 /0615/11 /0602/12 /0616/12 /0606/01 /0720/01 /0728/01 /0717/02 /0710/03 /0701/04 /0714/04 /200728/04 /2007

Date

Mea

n FC

D T

ips

-5

0

5

10

15

20

25

Ran

ge in

FC

D T

ips

3FCD Mean UCL LCL3FCD Mean5FCD Mean5FCD Mean UCL LCL1FCD3FCD Range3FCD Range UCL LCL5FCD Range5FCD Range UCL LCL

Page 38: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Performance of TBRG 2, w.r.t. FCD tests. (5 FCD ~ 3 FCD) Control Chart limits included.

Control Limit Chart for Mean and Range in Tips using FCD at YFGTBRG 2 FCD4: 22/12/2005 - 28/04/2007. Process Mean: 107.0. LCL 105.1. UCL 108.2.

F unnel Swap 7/ 10 / 2 0 0 6 . Grass remo ved 2 0 / 0 1/ 2 0 0 7.

85

90

95

100

105

110

115

22/12 /20055/01/200626/1/200611/02 /200625/02 /200611/03 /200626/03 /20068/04/200621/04 /200613/05 /200627/05 /0610/06 /0624/06 /0608/07 /0629/07 /0612/08 /200626/08 /069/09/200623/09 /20067/10/200621/10 /200604/11 /0626/11 /0609/12 /0623/12 /0613/01 /0720/01 /0703/02 /0703/03 /0717/03 /0706/04 /0722/04 /2007

Date

Mea

n FC

D T

ips

-5

0

5

10

15

20

25

Ran

ge F

CD

Tip

s

3FCD Mean UCL LCL3FCD Data5FCD Data5FCD Mean UCL LCL1FCD3FCD Range Data3FCD Range UCL LCL5FCD Range Data5FCD Range UCL LCL

Page 39: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

Effect of stop-screw adjustment for one 7499 TBRG

TBRG: 69510Graph One- UP

y = 0.8864x2 + 1.0712x + 80.618R2 = 0.9894

708090

100110120130140150160170180

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16

Number of full turns

69510 up LHS 69510 up RHSPoly. (69510 up RHS) Linear (Series1)

Page 40: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

•The BoM allows 3% to 4% variation for new TBRGs. The long-term process standard deviations for TBRGs are also estimated to be 3 to 4 tips.Water temperature affects the water density in the FCD and the siphon; …allow the short-term test (“spot check”) with an FCD to be 6% (6 tips) for 101 tips; When adjusting to 101 tips, the stop-screws should first be wound down to the assembly bed. This should minimise the time for adjustment. There seems little difference between 3 or 5 applications of an FCD. From an initial study, wind speed, wind gust, temperature and rainfall totals do not seem to affect the mechanical performance of the 7499 TBRG. A possible “bedding-in” seems to apply to some 7499 TBRGs, estimated at a rate of about 2% per 1000 tips.

Some points from the presentation.

Page 41: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

End

Questions???

Page 42: Introduction to The Tipping Bucket Rain Gauge 2011 to The Tipping Bucket Rain Gauge 2011 Dr John Gorman, ARIC Rainfall • Manual Rain Gauge • HS TBRG Tester • Tipping Bucket Rain

RIC Reports relating to TBRGs and FCDs

ITR 679 - The Uncertainty of the HS Field Calibration Device (11/10/2004)•

ITR 675 - Laboratory Evaluation of the Bureau designed Heated Tipping Bucket Rain Gauge (15/10/2003)

ITR 673 - Evaluation of the Environdata Precipitation Gauge Tipping Bucket Model RG-15 (27/2/2003)

ITR 672 - Evaluation of the Rimco Precipitation Gauge Tipping Bucket Model 7499 (18/2/2003)

ITR 671 - Evaluation of RIC Designed Pumped TBRG Tester [Rex] (1/9/2003) •

ITR 669 - Evaluation of the Hydrological Services Precipitation Gauge Tipping Bucket Type TB-3 (17/2/2003)

ITR 660 - Stability of five McVann Model 7499 TBRG (22/8/2001) •

ITR 655 - Acceptance Tests of 20 Hydrological Services TB-3B Tipping Bucket Rain Gauges (17/9/1999)

ITR 652 - Evaluation of a Tipping Bucket Rain Gauge Calibrator (13/1/2000) TN2004_005 - Testing of prototype Hydrological Services 1 mm FCD (29/11/2004)

TN2004_004 - McVann RIMCO TBRGs 2004 (10/11/2004) •

TN2004_003 - McVann 7499 TBRGs 2004 (21/10/2004) •

TN2004_002 - Woodgate refurbished TBRGs (29/09/2004)