This research Vessel was originally built under Military specifications in Yugoslavia in 1987 and is now under the Spanish Flag. She was re-built in 1996 and again 2003 by the present owner. The information below is extensive. The owner says she is in excellent condition and available for inspection near Spain. She has accommodations for 8 crew and 12 Scientists.
VESSEL IDENTIFIER: EVA10
Price: EUROS 2,100,000.00 FIRM
PARTICULARS |
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| Feet | Meters | |
| Length | 118 | 36 |
| Breadth | 29.5 | 9 |
| Draft | 8.2-9.8 | 2.5-3 |
| Speed | 10 Knots | |
| Fuel Consumption | ||
| Equipment | |
| Main Engine | MAN BW 9L 20/27 900 KW 1224 CV |
| Propulsion | 2 Rolls Royce Aquamasters |
| Generator |
3 units Scania 230 CV 220V 50 HZ |
| Bow Thruster | |
| Fuel Capacity | 40 Cubic Meters |
| Range | |
| Water Maker | 6 M3 per 24 Hrs. at 300 PPM |
| Water Tanks | 36 Cubic Meters |
| Air conditioning | Yes, Independent Areas |
| Crane | 6 Tons |
| Air Compressors | Two |
TRB: 365 Tons
Free area in deck For diverse auxilliar equipments and two 20” containers
Auxilliar boat Polar Circle 7 m with a 150 CV engine. With plotter echosounder and VHF SIMRAD 8400
Electronics:
Autopilot
Simrad Robertson AP50
Radar 1
Furuno Mod. FR 1505 Mark 2
1 Simrad Mod. CR 50
Plotter – GPS
Simrad CR 50
VHF DSC
Sailor
VHF
Simrad 8400
Radio USB
Furuno
AIS
Simrad
Mini M
Nera 00871763059860
GSM Phone
Yes
Echosounder of navigation
Navtex
ICS
Gyrocompass with 4
repeaters
Resources:
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Merlin
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Neptune (I’ts
possible the postprocess the Reson raw data in Neptune and integrate it with the
EM3000, then when the data from both echosunders are combined in C-Floor the
result could be a bathimetry since 0 to – 3000 m. We can send samples.)
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Poseidon
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Triton
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C-Floor
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PDS 2000
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CDI
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Sonar Pro
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Sonar web
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Klein
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Valeport
· ROV Seaeye Falcon for 300 Metres depth and 400 metres cable with broadcast video camera and manipulator support and communication for the Valeport CTD with transmission of sampling data in real time, and DVD recorder.
RESON SEABAT 8160
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Description |
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The SeaBat 8160 can be used in
the following application areas: |
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Frequency: |
50 kHz |
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Depth Resolution: |
2.4 cm / 9.6 cm |
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Swath Coverage |
Greater than 4x water depth |
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Max Operational depth: |
3000 m |
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Number of beams: |
126 |
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Along-Track Beamwidth: |
1.5° |
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Across-Track Beamwidth: |
1.5° |
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Pitch Stabilization: |
+/- 10° |
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Accuracy: |
IHO Special Order |
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Operating Speed: |
Up to 20 knots |
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Max. Update Rate: |
15 times/sec |
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Transducer depth rating: |
100 m |
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EM
3000S Multibeam echosounder
EM 3000S multibeam echosounder is a short range, high resolution echosounder with up to 127 narrow beams of 1,5 x 1,5 degrees, and a sounding accuracy which satisfies the requirements for IHO S-44 special order surveys.
Suited for portable use
The system is suited for portable use, and is easily plugged together, calibrated and set to work. The sonar head is made of durable and non-corrosive titanium. The swath coverage is up to 4 times the distance from the transducer face to the bottom, and the flat faced horizontal transducer produces data which is very robust towards local variations of the sound velocity profile in the water. The system is thus well suited for mapping difficult areas like estuaries and river outlets, as well as rivers, canals, harbors, harbor entrances and coastal regions.
EM 3000S Multibeam echosounder mounting
Portable mounting arrangements can be offered. EM 3000S multibeam echosounder can be fitted to ROV's and towed sensor platforms, using fiber optic data communication. A special version can be offered for UUV's. Maximum deployment depth is 1500m.
SIDE SCAN SONAR KLEIN 3000
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THE DIFFERENCE IS IN THE IMAGE The new System 3000 presents the latest technology in digital side scan sonar imaging. The simultaneous dual frequency operation is based on a new transducer design as well as the high resolution circuitry developed for the Klein 5000 multi-beam focused sonar. The System 3000 performance and price is directed to the commercial, institutional, and governmental markets. |
TPU Topside Unit
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3000 Towfish Deployment |
ADCP RDI LONG RANGER
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VALEPORT 606+
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MIDAS CTD+ Multiparameter Profiler |
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The MIDAS CTD+ is a revolutionary Multiparameter CTD, with a wide choice of standard sensors. Featuring Valeport's latest 400 Series electronics, the CTD+ will sample all fitted sensors at exactly the same instant, at up to 8Hz. Advanced setup software allows a variety of sampling regimes including burst modes, delay starts, and conditional sampling. With up to 32Mbyte memory and internal battery pack, as well as a selection of real time output formats, the CTD+ is perfect for both profiling or fixed mooring applications. In addition, the CTD+ may be used with Valeport own water bottle carousel. |
Valeport applies its unique distributed processing technology to the M CTD+ (formerly known as the Model 606+), resulting in a multi-parameter CTD that is essentially tailor made to suit each customer’s requirements. The instrument is able to accept any combination of a range of industry standard sensors, giving calibrated data in both autonomous and real time operations. A choice of titanium or acetal construction makes it suitable for coastal or deep water operations, and the intuitive software allows a range of both simple and complex sampling regimes.
IDAS
As part of our policy of continuing development, we reserve the right to alter
at any time, without
notice, all specifications, designs, prices and conditions of supply of all
equipment.
Datasheet Reference Number: M CTD+ v1A
IDAS
Sensors
The M CTD+ is fitted with CTD sensors as standard, plus your
choice of optional additional sensors, either remote or bulkhead
mounted. The CTD+ can also operate with Valeport’s water sampler
system, described on a separate brochure.
Other sensors also available - please consult Valeport.
IDAS
Sensor Type Range Accuracy Resolution
Conductivity Inductive Cell 0 - 80mS/cm ±0.01mS/cm 0.002mS/cm
Temperature PRT -5 to +35°C ±0.005°C 0.002°C
Pressure Strain Gauge Up to 500Bar ±0.04% 0.005%
Pressure Quartz To 10000psi ±0.01% 0.001% max
Turbidity Seapoint STM 0 - 2000FTU ±2% 0.002% DO
Clark Cell 0 - 16ml/l ±0.07ml/l 0.017ml/l pH
Electrode 2 - 12 ±0.05 0.01
ORP(Redox) Electrode ±1500mV ±1mV 0.1mV
Chlorophyll Fluorometer 0 - 150µg/l ±0.03µg/l 0.005%
PAR LICOR 10,000 ±1% 0.5µmol/s/m²
µmol/s/m²
Data Acquisition
Memory
The M CTD+ uses the concept of distributed processing, where
each sensor has its own microprocessor controlling sampling and
calibration of readings. Each of these is then controlled by a
central processor, which issues global commands and handles all
the data. This means that all data is sampled at precisely the same
instant, giving superior quality profile data. It also allows additional
sensor to be added or replaced in the field, without the need for
factory recalibration.
Regular output from all sensors at 1, 2, 4 or 8Hz.
Regular sampling pattern, where instrument takes a
number of readings, then sleeps for a defined time.
Data is output as a chosen parameter changes by a
set value, usually Pressure for profiling.
Instrument sleeps until a selected parameter
reaches a set value.
Instrument sleeps until predefined start time
The M CTD+ is fitted with 8Mb solid state non-volatile FLASH
memory. Total capacity depends on sampling mode; continuous &
burst modes have a single time stamp at the start of the file, trip
mode (profiling) stores a time stamp with each reading. Each
parameter uses 2 bytes per sample and a time stamp uses 7 bytes.
The examples are for an instrument measuring CTD and 3 other
parameters. 695,000 data points 430,000 data points (30 profiles to 6000m).
IDAS
Continuous:
Burst:
Trip/Profile:
Conditional:
Delay:
Continuous:
Profile:
Electrical
Communications
Physical
Software
Ordering
Internal:
External:
Power:
Battery Life:
Connector:
RS232
RS485
RS422
FSK
USB
Baud Rate:
Protocol:
Materials;
Depth Rating:
Instrument Size:
Weight:
Shipping:
8
x D cells, 1.5v alkaline or 3.6v lithium
9
- 30vDC
1.7W (sampling), <1mW (sleeping)
100 hours operation (alkaline)
250 hours operation (lithium)
Subconn Titanium MCBH10F
The instrument will operate autonomously, with setup and data
extraction performed by direct communications with PC before and
after deployment. It also operates in real time, with a choice of
communication protocols for a variety of cable lengths, some fitted as
standard and selected by pin choice on the output connector:
Up
to 200m cable, direct to serial port.
Up
to 1000m cable, addressable half duplex comms
Up
to 1500m cable, addressable full duplex comms
2
wire power & comms up to ~3500m cable
(maximum cable length depends on cable
specification - consult Valeport for confirmation)
For rapid upload or laptops without serial port
2400 - 115200 (FSK fixed at 19200, USB 460800) 8
data bits, 1 stop bit, No parity, No flow control
Titanium or acetal housing, polyurethane &
acetal sensor components, stainless steel cage
6000m (Titanium), 500m (acetal)
150mmØ x 590mm long
15kg (titanium), 9kg (acetal)
860 x 530 x 310mm, 31kg (titanium),25kg (acetal)
System supplied with DataLog 400 Windows based PC software, for
instrument setup, data extraction and display. DataLog 400 is
licence free.
Standard Options
0606002 MIDAS CTD+ (specify titanium or acetal), supplied with 3m communications lead, software, manual and transit case. 0400021 Turbidity sensor 0400017 DO Sensor 0400018 pH Sensor 0400019 Redox (ORP) Sensor 0400023 Chlorophyll Fluorometer 0400025 PAR Sensor
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Seaeye
Falcon
Seaeye Falcon Features:
Introduction Seaeye Falcon is the first ROV designed and built by Seaeye Marine to meet the operational requirements of coastal and inshore operators. In developing this system the same criteria of performance, reliability and ease of operation were set but with the added challenge of creating a system that was to be portable and affordable.
The Seaeye Falcon incorporates many of the features that have proved so successful in other Seaeye ROVs but with a number of technical innovations never before seen in a lower cost ROV. The Seaeye Falcon sets a new standard for inshore and coastal operations to 300 metres depth. THE VEHICLE
Chassis
Buoyancy
Propulsion
These thrusters run cool without being oil filled and having no moving shaft seals, are low maintenance, extremely reliable and ideal for use in sensitive areas such as fisheries and on reefs.
Thruster vector angles can be changed by the operator to reconfigure the vehicle to best suit the particular mission requirements.
Control System
These 'nodes' are controlled by a master processor in the Surface Unit and are fully isolated to maximise system reliability. Each node is connected to the Network's Star Point at the ROV junction box. The Star Point is a printed circuit board that provides each node with its own fused power supply and telemetry. This modular approach eliminates the need for a complex central electronics pod and significantly reduces the number of subsea connectors used. The result is a very flexible modern and simplified system architecture designed to improve reliability and ease of maintenance.
Control System Diagnostics
Camera System
Lighting
Navigation System & Auto Functions
SURFACE EQUIPMENT
Power Requirements
Standard Surface Unit
Standard Hand Control Unit
Vehicle Controls
Video Overlay
UMBILICAL CABLE
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