6-Dust Meter D-r 820 F-En
Transcript of 6-Dust Meter D-r 820 F-En
D−R 820 F
D−R 820 F
Dust Concentration Meter
GmbH · Kollaustraße 105 · 22453 Hamburg · www.durag.de
Translation of the original owner’s manual Dust Concentration Meter D−R 820 F
Document: man_dr820f_de.doc
Version: 15.09.2008
Last update: 15.08.2008
Printdate: 20.08.2008
This documentation is valid for:
Software-SourceVersion 1.15 und 1.73
DURAG GmbH Kollaustraße 105 22453 Hamburg Telephone: +49 (40) 55 42 18 – 0 Fax : +49 (40) 58 41 54 E-Mail: [email protected] Internet: www.durag.de
This documentation:
• (approx. 122 pages) has been compiled with the greatest care. However, all liability must be ex-cluded.
• is not intended for the US American market. Documentation in accordance with ANSI Z535 stan-dard can be requested. Reference addresses can be found on page 121.
• or parts of it may not be duplicated or communicated without the express consent of DURAG GmbH, irrespective of by which method or means, electronic or mechanical, this occurs.
• refers to the complete equipment in principle, even if individual program modules or devices (de-vice parts) have not been purchased
• refers to the current status of the equipment design at the time of updating this documentation (see above).
• can be changed without notice with regard to content.
© DURAG GmbH 2008 Redaktion: Herbert Lange. All rights reserved.
Contents
D−R 820 F 3
Contents
0 Foreword 7
1 General 11 1.1 Brief overview of the contents 11 1.2 Typographical conventions 12 1.3 Meaning of the warnings and notes used 12
2 Safety instructions 17 2.1 General 17 2.2 Blower 18 2.3 Qualified personnel 19
3 Product Description 23 3.1 Notes on delivery 23 3.2 Notes on warranty 23 3.3 Notes on the product (overview) 23 3.4 Identification of the product 24 3.5 Scope of supply 25 3.6 Special accessories 26 3.7 Design 26 3.8 Function 32
4 Assembly 43 4.1 Selection of the measuring point 43 4.2 Installation of the weld-in socket 43 4.3 Installation of the probe 45 4.4 Installation of the rack frame 47 4.5 Electrical connection 48
5 Commissioning 53
6 Operation and Handling 59 6.1 Optical sensor 59 6.2 Display 59 6.3 Operating modes 60 6.4 Operation 61 6.5 Limit value input 62 6.6 Special displays 62 6.7 Parameter input 64 6.8 Calibration menu and reference point 65
Contents
4 D−R 820 F
6.9 Parameters 65
7 Decommissioning 75 7.1 Disassembly 75 7.2 Disposal 76
8 Calibration 79 8.1 Device calibration 79 8.2 Dust calibration 79
9 Maintenance 85 9.1 Safety 85 9.2 Maintenance work 86 9.3 Cleaning 86 9.4 Work on the optical sensor D−R 800 F 86
10 Error messages and error elimination 91 10.1 Events 91 10.2 Maintenance status 91 10.3 Maintenance requirement status 92 10.4 Fault status 92 10.5 Events 92
11 Technical data 99 11.1 General 99 11.2 Factory setting 100
12 EC Declaration of Conformity 103
13 Standards and regulations 103
14 Spare and wearing parts 105
15 Glossary 106
16 Index 107 16.1 List of illustrations 5 16.2 List of tables 5
17 Circuit diagrams and drawings 110
18 Menu plan 118
19 DURAG GROUP company addresses 121
Contents
D−R 820 F 5
List of illustrations
Figure 3.1: Position of the typeplates 24 Figure 3.2: Probe 27 Figure 3.3: Probe dimensions 27 Figure 3.4: View of probe (right side) Figure 3.5: View of probe (left side) 28 Figure 3.6: View of probe (front) 29 Figure 3.7: Probe ventilation 30 Figure 3.8: Control unit 31 Figure 3.9: Installation panel 31 Figure 3.10: Rack frame 32 Figure 3.11: D−R 820 F Functional diagram with 2 blowers 33 Figure 3.12: D−R 820 F Functional diagram with compressed air supply and probe ventilation 34 Figure 3.13: Gas operating plan in measuring mode 37 Figure 3.14: Gas operating plan in purge mode 37 Figure 3.15: Example signal course for zero and reference point control 38 Figure 3.16: 3/2-way ball valve in MEASUREMENT position 40 Figure 3.17: 3/2-way ball valve in PURGE position 40 Figure 3.18: 3/2-way ball valve side view 40 Figure 4.1: Inlet and outlet section 43 Figure 4.2: Weld-in socket (separate return) 44 Figure 4.3: Weld-in socket (integrated return) 44 Figure 4.4: Installation instructions part 1 45 Figure 4.5: Installation instructions part 2 46 Figure 4.6: Rack frame 47 Figure 4.7: Control unit connection 48 Figure 4.8: Probe connections 49 Figure 6.1: Display 59 Figure 6.2: Standard mode 60 Figure 6.3: Service mode 60 Figure 6.4: SET switch 64 Figure 7.1: Disassembly part 1 75 Figure 7.2: Disassembly part 2 76 Figure 8.1: Example - Gravimetric calibration 81 Figure 9.1: Position of the optical sensor in the probe housing D−R 820 F 87
List of tables
Table 8.1: Value table for calibration example 81 Table 9.1: Maintenance work 86 Table 10.1: Events 96 Table 11.1: Technical data 100 Table 11.2: Factory setting 102
Foreword
D−R 820 F 7
0 Foreword
The purpose of this manual is to help you to become acquainted with your DURAG product. In this publication you will find information and technical data on planning, in-stallation / commissioning, operation and maintenance of the D−R 820 F. This information is completed by the functional diagram for both the complete system and the equipment components, as well as a spare parts list. Our aim is to make a decisive contribution to your success with our products and services. We hope that the information provided here will enable us to do so. Should you have any further questions on products or applications from the DURAG GROUP, please use our Support & Service! You will find the relevant addresses and telephone numbers on page 121 (DURAG GROUP company addresses). Further information is also available from www.durag.de Please read the following information carefully! It is important for your safety and for preventing damage to the D−R 820 F and to the environment.
D−R 820 F
Dust Concentration Meter
0011 1 General 1.1 Brief overview of the contents 1.2 Typographical conventions 1.3 Meaning of the warnings and notes used
General
D−R 820 F 11
1 General
The product described in this manual left the factory in perfectly safe and in-spected condition. In order to maintain this condition and to achieve correct and safe operation of this product, it may only be used as described by the manufacturer. In addition, faultless and safe operation of this product requires appropriate transport, correct storage and installation, as well as careful opera-tion and maintenance. This manual contains the necessary information for proper use of the de-scribed product. It is intended for technically qualified personnel who have been familiarised with the product, who are specially trained or have pertinent knowledge in the field of measurement and control engineering, referred to as automation technology in the following. The knowledge and technically sound implementation of the safety instructions and warnings contained in this manual are a prerequisite for safe assembly and commissioning, as well as for safety during operation and maintenance of the described product. Only appropriately qualified personnel have the neces-sary expertise to interpret the safety instructions and warnings provided in a general manner in this document correctly in concrete individual cases and to apply the appropriate procedure. This manual is a fixed constituent of the scope of supply, even if the option of separate ordering or delivery has been provided for logistical reasons. For reasons of clarity, it does not contain all details for all versions of the described product and can also not take account of all conceivable circumstances for in-stallation, operation, maintenance and use in systems. Please pay particular attention to the warning and information texts. If you require further information or if problems occur which are not dealt with in sufficient detail in this document, please ask your competent DURAG GmbH representative for the required information (see page 121 DURAG GROUP company addresses).
1.1 Brief overview of the contents This manual describes the following areas:
Chapters 1 + 2 Information on use of the manual, the pictograms used, safety instructions and requirements on operating and maintenance personnel.
Chapters 3 - 5 Information on the product, technical data, function and system descriptions as well as the available options.
Chapters 6 - 10 Information on use of the product D−R 820 F, in respect of installation, assembly, commissioning, operation, maintenance, error diagnostics, repair etc.
Chapters 11 - 19 Overview of technical data, standards and regulations to be complied with, spare parts list, certifications, glossary, index and company addresses.
General
12 D−R 820 F
1.2 Typographical conventions In order to make the text of this manual clear, text elements such as safety in-structions, warnings, tips, keyboard symbols, menu addresses etc. are dis-played differently. The following conventions apply in this manual: • Safety instructions and warnings appear as follows in this manual:
WARNING Danger from electrical equipment Before removing the housing or accidental-contact protection, the equipment must be disconnected from the power supply.
• A note or tip is shown like this:
No control cycle is started during test measurements and simulation.
• If a button is pressed on the control unit, it is shown like this:
• A ( ) indicates that the following term is explained in the glossary. • This manual is also available as pdf-file on CD/DVD! • Unless otherwise specified: all dimensions in mm
1.3 Meaning of the warnings and notes used Please always comply with the following warnings and safety instructions in this manual. They serve to avert dangers to life and limb of users and main-tenance personnel and to prevent damage to property. They are highlighted in this manual by the signs defined here. They are also marked by symbols at the points where they appear. The signs used have the following meanings for the purposes of this manual and the information on the product itself:
General
D−R 820 F 13
DANGER Failure to comply with instructions highlighted in this way can result in severe and even fatal injuries. Also means that substantial damage to property can occur, if the relevant pre-cautions are not taken. > Comply with all hazard warnings, in order to prevent injuries.
WARNING Failure to comply with instructions highlighted in this way can result in serious injuries or damage to property. > Comply with all warnings, in order to prevent injuries and to ensure safe op-eration of the system.
CAUTION Failure to comply with instructions highlighted in this way can result in minor injuries or damage. > Comply with all caution warnings, in order to prevent injuries and to ensure safe operation of the system.
In order to specify the potential risk the general warning sign can also be re-placed by a special warning sign.
General warning sign
Chemical burns
Electric current
Humidity
Danger of crushing
Explosive atmosphere
Hot surface
Electrostatically endangered compo-nents (ESD)
Laser radiation
In addition to the warnings and safety instructions, the following general notes and related pictograms are also used to draw your attention to particularly im-portant information:
Here you will find interesting information or tips on the product and its use.
Contains information on environmental protection
D−R 820 F
Dust Concentration Meter
0022 2 Safety instructions 2.1 General 2.2 Blower 2.2.1 Suction action 2.2.2 Blow-out action 2.2.3 Temperature 2.2.4 Noise development 2.3 Qualified personnel
Safety instructions
D−R 820 F 17
2 Safety instructions
Safety instructions and warnings are provided at the points in the respective chapters where the information is required. Some warnings are also provided repeatedly for this reason, to ensure that the potential danger arising from a given situation is always highlighted. Always observe and comply with the sa-fety instructions, caution notes and warnings provided in the chapters. Also observe the following warnings and safety instructions. They serve to a-vert dangers to life and limb of users and maintenance personnel and to prevent damage to property. They apply for all measures and tasks described in this manual, even if they are not explicitly indicated again at the relevant point.
2.1 General
WARNING Only operate the measuring device D−R 820 F in perfect condition and in strict compliance with the safety instructions!
• The Dust Concentration Meter D−R 820 F may only be connected to the
supply voltage shown on the typeplate (standard: 400V, 3~, 50Hz). • The D−R 820 F may only be operated on a power supply with an earthing
contact. The protective action must not be cancelled by an extension with-out an earthing contact. Any interruption in the protective earth conductor inside or outside the device is dangerous and is not permitted.
• The D−R 820 F must be protected with a 16 A fuse on the input side. • Before opening any device components, the Dust Concentration Meter
D−R 820 F must be disconnected from the power supply by operating the main switch or the series fuse.
• Electronic components are becoming ever smaller and more complex. As a result, their susceptibility to electrostatic discharge is also increasing. Mod-ern electronic components are very sensitive to electrostatic discharge. To protect these components, measures must be taken against electrostatic discharges (ESD protection) when performing any work on the open de-vice. To prevent static charging of the human body, we recommend that service personnel are equipped with a personal grounding system.
• Use of the D−R 820 F in potentially explosive areas and measurement in explosive gas mixtures is not permitted.
• Cables and gas lines should be laid so that risk of accident due to tripping or getting caught on the lines is excluded.
• Parts of the probe are electrically heated or come into contact with hot measuring gas and are therefore subject to high temperatures. Never touch these parts without temperature-resistant gloves or when the parts are live.
• The measuring system as a whole, as well as the individual components, may only be operated in the original design. If elements are replaced, the manufacturer's genuine parts must be used.
• Modifications to the configuration of the measuring system, i.e. the adjust-ment of parameters which are not normally available to the user, can com-promise the safety of the Dust Concentration Meter and are carried out at own risk! Therefore, have configuration modifications carried out by an authorised service technician or by the manufacturer's factory personnel.
Safety instructions
18 D−R 820 F
• Covers inside the D−R 820 F may only be removed when the system is disconnected from the power supply.
• Subassemblies are configured device-specifically and are therefore not in-terchangeable between different D−R 820 F.
WARNING Installation, operation, maintenance activities and any repairs must be per-formed exclusively by qualified personnel of the manufacturer, taking account of the pertinent requirements (Zentralverband der Elektrotechnik- und Elektro-industrie e.V./Central Association of the Electrical Engineering and Electronics Industry).
2.2 Blower
2.2.1 Suction action Warning: Objects, articles of clothing and even hair can be sucked in (risk of injury!). Do not stand near the suction intake during operation. Never operate the blo-wer with the suction intake open. This must be covered with an air filter with fi-ne filter cartridge. Do not reach into the suction intake.
2.2.2 Blow-out action Warning: Very strong blow-out action at the discharge nozzle. Sucked-in ob-jects can be ejected at high speed (risk of injury!). The blower is only suitable for conveying clean air. Foreign bodies or impuri-ties that could be blown out must be filtered out before entry into the blower. The blower must never be operated with the discharge nozzle open and must therefore be covered with a guard in accordance with DIN EN 294. Do not reach into the discharge hole.
2.2.3 Temperature Warning: The blower housing heats up during operation. If the temperature exceeds + 50°C, the blower must be protected from direct contact by the op-erator (risk of burns!).
2.2.4 Noise development The noises emitted by the blower vary in the range up to approx. 80 dB(A) sound-pressure level LA. In certain unfavourable cases, sound insulation is required (measurements by the operator recommended). The operator must provide this sound insulation to prevent exceeding of the legally permitted maximum values at workstations in the blower environment.
Safety instructions
D−R 820 F 19
2.3 Qualified personnel In the event of unqualified operations on the device or failure to comply with the warnings provided in this manual or affixed to the device, physical injuries and/or damage to property can occur. Only appropriately qualified personnel may therefore perform operations on this device. Qualified personnel for the purposes of the safety-related instructions in this manual or on the product it-self are persons who • either as project planning personnel, are familiar with the safety concepts of
automation technology • or as operating personnel, are instructed in handling automation technology
equipment and are familiar with the contents of this manual relating to op-eration
• or as repair and/or service personnel, have training that qualifies them to repair such automation technology equipment or have authorisation to commission, earth and identify circuits and devices/systems in accordance with the safety-related standards.
D−R 820 F
Dust Concentration Meter
0033 3 Product Description 3.1 Notes on delivery 3.2 Notes on warranty 3.3 Notes on the product (overview) 3.3.1 Use 3.3.2 Features 3.3.3 Measuring procedure 3.3.4 System design 3.4 Identification of the product 3.5 Scope of supply 3.6 Special accessories 3.7 Design 3.7.1 Probe (in GRP protective housing) 3.7.2 Control unit (with electrical distribution) 3.7.3 Rack frame 3.7.4 Blower 3.7.5 (optional) Vortex Cooler 3.8 Function 3.8.1 Measuring principle 3.8.2 Gas ducts 3.8.3 Thinning, dilution 3.8.4 Zero and reference point 3.8.5 3/2-way ball valve
Product Description
D−R 820 F 23
3 Product Description
D−R 820 F In this chapter you will find information on scope of supply, special accessories, approvals, guarantee, fields of application - in short, everything relating to the.
3.1 Notes on delivery The respective scope of supply is listed on the shipping documents accompa-nying the delivery, in accordance with the applicable purchase contract. Check that the delivery is complete and intact. The Dust Concentration Meter D−R 820 F is delivered in two packaging units. The device parts or components listed in chapter 3.5 from page 25 are gener-ally included. We recommend storing the packaging in case the device needs to be returned for service or repair. Please inform the forwarding agent and the DURAG GROUP of all damage in transit immediately. (For addresses see page 121 (DURAG GROUP company addresses).
3.2 Notes on warranty Please note that the contents of this device manual are not part of nor an a-mendment to a previous or existing agreement, undertaking or legal relation-ship. The warranty for equipment from the DURAG GROUP is generally 12 months from the date of delivery. All obligations result from the respective pur-chase contract, which also contains the complete and solely valid warranty regulation. These contractual warranty terms are neither extended nor limited by the comments in this document. Modifications and alterations to the Dust Concentration Meter are not permit-ted. Any interventions on the device will result in lapsing of the guarantee. Faultless and safe operation of the device also requires appropriate transport, correct storage, installation and assembly as well as careful operation and maintenance by qualified personnel.
3.3 Notes on the product (overview) The DURAG Dust Concentration Meter D−R 820 F is used for the continuous measurement of dust concentration. As well as monitoring the efficiency of filter plants by recording the residual dust quantity, this device also instantaneously reports unacceptably large dust or flue gas emissions. Consequently, it is often possible to intervene directly in the process of the monitored system and thus to ensure reliable observance of the prescribed limit values.
3.3.1 Use The D−R 820 F is used to measure the dust concentration in wet gases. Use with adhesive dusts with a tendency to cake is possible, e.g.: • Measurements in saturated gas after desulphurization plants • After wet cleaning plants • Waste incineration plants • Chipboard manufacture • Urea industry • Manufacture of insulation
Product Description
24 D−R 820 F
• Technological processes In all situations where unacceptable dust emissions could result in environ-mental pollution, DURAG dust concentration monitors reliably monitor adher-ence to the legal limit values.
3.3.2 Features The D−R 820 F is a highly sensitive system for continuous ( ) extractive dust concentration measurement in accordance with the scattered light principle. It is characterised by the following features: • Compact design • No need for laborious gas removal • Very little maintenance required • In-situ measuring procedure with continuous measurement) (( ) in situ) • High sensitivity • No laborious device adjustment • Automatic function test with soiling correction
3.3.3 Measuring procedure A defined partial current is removed from the exhaust gas flow. This partial current is continuously heated and diluted with clean, tempered ambient air. The diluted partial current is optically measured in the measuring chamber. The signal that results from the diverted current is a measurement of the dust content of the exhaust gas. For a detailed explanation see chapter 3.8.1 Measuring principle from page 34.
3.3.4 System design The system comprises a special sampling probe, the laser dust monitor, a gas conditioning plant (dilution, tempering), an injector, two blowers and an elec-tronic evaluation unit. The sampling probe and the measuring chamber form a unit. The electronic evaluation unit and one side-channel compressor for oper-ating the injector and one for generating the diluting air are mounted together on a rack frame. For more detailed information on function, see chapter 3.8 from page 32.
3.4 Identification of the product The typeplate is located • on the control unit • on the probe in the GRP protective housing
Figure 3.1: Position of the typeplates
Product Description
D−R 820 F 25
3.5 Scope of supply The Dust Concentration Meter D−R 820 F comprises the following compo-nents as standard:
D−R 820 F Control unit with electric power supply, fuses etc. Control cabinet key 2 off side-channel compressors or blowers (except for supply with compressed air or nitrogen) Rack frame for mounting the control unit and both blowers (with protec-tive cover)
Probe in GRP protective housing Length of measuring lance 800 mm incl. gooseneck 1000 mm
Connection cable 3 m or on demand
Purge air hose with fixing clamps 2 hoses, length 5 m (or on demand, max 10 m) 25 mm, 13 mm diameter
Brush set for cleaning the gas-transporting parts
Printed brief introduction and detailed manual on CD
Variations may occur in the technical design depending on the ordered configuration.
Product Description
26 D−R 820 F
3.6 Special accessories
Flange with welded-in pipe 130 mm (ST37) and seal Alternatively also available in V4A (with separate or integrated return nozzle)
Compressed air or nitrogen distribu-tion unit (optional)
1 Vortex Cooler (optional)
3.7 Design The Dust Concentration Meter D−R 820 F comprises the following compo-nents: • Probe (in GRP protective housing) (described from page 26) • Control unit (with electrical distribution) (described from page 31) • Rack frame (described from page 32) • Blower (described from page 32) • (optional) Vortex Cooler (described from page 32)
3.7.1 Probe (in GRP protective housing) The probe of the D−R 820 F comprises several components. The probe or sampling tube is a heated double jacket tube with integrated dilution. The dilu-tion is carried out with a mixing nozzle (see Figure 3.11). Processing of the sampled measuring gas and recording of the measured values occur in the probe. The probe is integrated into a two-piece GRP protective box. This is fi-xed directly to the flange (see Figure 3.2).
Product Description
D−R 820 F 27
dr82
0f_0
01_0
000_
Sond
eal
lgem
ein_
de
Plug connector, heat element
Housing closure open
Plug connector, ext. housing ventilation (optional)
Probe ventilation inlet filter Housing closure closed
Plug connector (signals)
Plug connector (power supply)
Flange
Probe tube (heated)
Sampling tube
Housing cover
Diluting air heat element connection cable
Diluting air connection
Diluting air heat element
Probe ventilation fan filter (installed on the left)
Housing
Figure 3.2: Probe
dr82
0f_0
02_0
000_
Sond
e A
bmes
sung
en_e
u
ca. 7
50 m
m
ca. 1
050
mm
470 mm 1.000 mmca. 600 mm
520 mm
16 mm
270
mm
155 mm
Figure 3.3: Probe dimensions
Product Description
28 D−R 820 F
dr82
0f_0
03_0
000_
Sond
e An
sich
t rec
hts_
eu
I
F
A
B
E
D
K
P
O
H
dr82
0f_0
04_0
000_
Sond
e An
sich
t lin
ks_e
u
M
A
CB
E
D
L
P
N
O
H
Figure 3.4: View of probe (right side) Figure 3.5: View of probe (left side)
A Probe electronics (optical sensor) I Diluting air connection B Measuring chamber K Exhaust air connection C Injector L Injector air connection D 3/2-way ball valve M Temperature measurement E Diluting air distribution N Diluting air connection F Δp-Measurement O Diluting air heat element
H Probe heat element connection P Solenoid valve
Product Description
D−R 820 F 29
dr82
0f_0
05_0
001_
Son
de A
nsic
ht F
ront
al_e
u
Figure 3.6: View of probe (front)
A Probe electronics (optical sensor) K Exhaust air connection
B Measuring chamber L Injector air connection
C Injector M Temperature measurement
D 3/2-way ball valve N Diluting air connection
E Diluting air distribution O Diluting air heat element
F Δp-Measurement P Solenoid valve
G Filter purge air optical sensor R Check valve purge air optical sensor
Product Description
30 D−R 820 F
3.7.1.1 Probe ventilation The probe of the D−R 820 F is thermostatically ventilated with a blower fan or a Vortex Cooler supplied with compressed air or nitrogen, depending on de-sign (see Figure 3.7).
dr82
0f_0
06_0
000_
Sond
enbe
lüftu
ng_V
orte
xC
oole
r_de
Compressed air / N 2 Vortex Cooler
Cooling medium
Inlet filter
Housing fan
Outlet filter Outlet filter
Figure 3.7: Probe ventilation
Product Description
D−R 820 F 31
3.7.2 Control unit (with electrical distribution) The control unit is designed as a three-piece 19" protective box (48.3 cm). The complete electrical connection, the signal calculation and the display and out-put of the measured dust values take place in the control unit. The display and control unit can be accessed by opening the inspection win-dow. The following illustration explains the components of the control unit.
RS 232
Valve position: MEASURING
dr82
0f_0
07_0
000_
Bed
ieng
erät
DU
RAG
_de
SET switch (behind the cover)
Cable entry
Manual maintenance switch Valve position: PURGE
Mainte-nance ON/OFF
Figure 3.8: Control unit
The installation panel is installed inside the control unit.
dr82
0f_0
08_0
000_
Bedi
enge
rät M
onta
gepl
atte
_de
Kabeleinführung
K01
K03
F01 S01 S02 F02 -F06
X01
X03K04K02
Figure 3.9: Installation panel
Cable entry
Cable entry
Product Description
32 D−R 820 F
3.7.3 Rack frame The control unit and the two blowers are mounted on a rack frame. This can be easily fixed to a wall or the floor.
A
B
CD
E
ca. 600 mm ca. 550 mm
ca. 1
.750 m
m
ca. 430 mm
dr82
0f_0
09_0
01_G
este
llrah
men
_de
Figure 3.10: Rack frame
A Control unit D Blower diluting air
B Cable run E Blower injector air
C Air filter
3.7.4 Blower Information on the blower can be found in the Service Manual.
3.7.5 (optional) Vortex Cooler Information on the optional Vortex Cooler can be found in the Service Manual.
Product Description
D−R 820 F 33
The Dust Concentration Meter D−R 820 F is a highly sensitive system for con-tinuous, optical, extractive dust or dust concentration measurement. A defined partial current is removed from the exhaust gas current. This partial current is continuously heated and diluted with clean, tempered ambient air. The partial current is optically measured in the measuring chamber. The signal that results from the diverted current is a measurement of the dust content of the exhaust gas. The microcontroller integrated into the control unit generates a dust-proportional signal. This is output as a 4 ... 20 mA signal. In addition, the cur-rent measured value is displayed on the control unit display. Various parame-ters (e.g. relating to the display) can be entered and adjusted using the key-board.
Figure 3.11: D−R 820 F Functional diagram with 2 blowers
The D−R 820 F can alternatively be operated with compressed air or nitrogen. These can also be used to cool the probe housing. This can be seen in a vari-ant of the functional diagram Figure 3.12.
3.8 Function
Product Description
34 D−R 820 F
dr82
0f_0
11_0
001_
Funk
tions
sche
ma
mit
Dru
cklu
ftver
sorg
ung
und
Son
denb
elüf
tung
_de
Figure 3.12: D−R 820 F Functional diagram with compressed air supply and probe venti-lation
3.8.1 Measuring principle
3.8.1.1 General This Operating Manual describes all aspects of extractive dust measurement. The design and measuring principle of the optical sensor are described in the Appendix.
3.8.1.2 Functional diagram of the optical probe The optical probe of the D−R 820 F operates according to the forward scatter-ing principle. The concentrated and modulated light of a laser diode penetrates the measuring volume. The light scattered by the dust particles is largely scat-tered forwards, therefore the receiving lens is positioned here. The scattered light is generated in proportion to the dust concentration pre-sent, so the more dust, the more scattered light. The light is guided by an opti-cal waveguide to the receiving diode, where it is processed to the desired end size by a sensitive electronic unit. The obtained measuring result is calibrat-able and can, in accordance with directive EN 13284-1, be displayed on the dust concentration in mg/m³.
For the automatic function test and the legal control cycle, a beam splitter with a shutter has been used inside the electronic housing in this system. It swit-
Product Description
D−R 820 F 35
ches between the actual optical measurement and the comparison path. Con-sequently, there are no moving parts in the corrosive exhaust gas. This also ensures that the termination between optical probe and electronic housing is gas-tight. The basic calibration of the system can be carried out by software. A pollution measurement is performed every 5 min in order to record dust de-posits on the optical boundary surfaces and the ageing of the optical elements.
Product Description
36 D−R 820 F
3.8.1.3 Extractive dust measurement In the case of the D−R 820 F, another mathematical relationship results be-tween the physical values in relation to the optical in-situ measurement (see also chapter 3.8.1 Measuring principle from page 34). The optical signal Cal (scattered light) is dependent on the dust content of the measuring gas, the set dilution of the extracted measuring gas, the temperatures and absolute pres-sures of the gases. The mathematical relationship therefore appears as follows:
(Indices: "without" measuring chamber, "D" diluting air and "M" measuring gas) The relationship with the measuring gas results from:
FM Extracted measuring gas volume flow [m³/h]
F Volume flow in the measuring chamber [m³/h] DM FFF −≈
FD Volume flow diluting air [m³/h] A contamination-related decrease in the volume flow and an environment-related temperature change are corrected with this correction. The absolute pressures and TM are preset as constants! The D−R 820 F outputs the dust-proportional signal CiB on the display and at the analog output (4 ... 20 mA). CiB then corresponds to the above-specified relationship. In addition, the cal signal (scattered light) is always provided via an analog output. The unit [V] for the cal signal was defined during the development of the Dust Concentration Meter D−R 820 F. The two parameters for gravimetric correction of the dust signal A and D are preset at delivery. A and D are determined during a gravimetric comparison measurement and can be stored in the control unit. Default setting: A = 1 D = 0 (see chapter 8.2 Dust calibration page 79)
ci.B. Dust concentration [mg/m³]
cal Measuring signal [V] (corresponds to scattered light)
F Volume flow [m³/h]
A, D Constants from the dust calibration
DFCF
FcalACD
Bi +⎥⎦
⎤⎢⎣
⎡⋅−⋅
⋅=..
B, C Constants from the device adjustment (input after production)
Product Description
D−R 820 F 37
3.8.2 Gas ducts The course of the measuring gas can be seen in Figure 3.13. The D−R 820 F continuously samples a partial current from the exhaust gas (suction is per-formed by an injector). As the measuring gas usually contains a strong con-centration of the particles to be measured, a defined (heated) diluting air cur-rent is added to the extracted partial gas current at the probe input of the D−R 820 F (see 3.8.3 Thinning, dilution page 38) , i.e. the measuring gas is di-luted to a defined extent. At the same time, the gas mixture is heated up to a set temperature (see 11.2 Presetting page 100), at which the moisture is evaporated, but the particles to be measured are present in solid state. This extracted, diluted and heated measuring gas then passes the measuring cell and then leaves the measuring device. The course of the measuring gas can be seen in Figure 3.13.
dr82
0f_0
12_0
000_
Gas
lauf
plan
Mes
sbet
rieb_
de
HeatingDiluting air
Heated probe
Measuring gas
3/2-way ball valve Measuring cell
Injector
Exhaust air
BlowerInjector air
Blower Diluting air
Air filter
Air filter
Purge valve
Ball valve
Control valve
Figure 3.13: Gas operating plan in measuring mode
For diagnostic and cleaning purposes, the D−R 820 F automatically executes a purge operation. This includes a zero and reference point control (see 3.8.3 Thinning, dilution page 38) and cleaning of the ducts that conduct the measur-ing gas (see 3.8.5 3/2-way ball valve page 39). The purge operation is illus-trated in Figure 3.14.
dr82
0f_0
13_0
000_
Gas
lauf
plan
Spül
betri
eb_d
e
Heated probe
Purge gas
3/2-way ball valve Measuring cell
Injector
Exhaust air
Blower Injector air
Blower Diluting air
Air filter
Air filter
Purge valve
Ball valve
Control valve
HeatingDiluting air
Figure 3.14: Gas operating plan in purge mode
Product Description
38 D−R 820 F
3.8.3 Thinning, dilution Thinning or ( ) dilution is a measure for the concentration of the extracted measuring gas. The dilution is specified in [%].
D Dilution / thinning [%]
mM& Extracted mass flow rate [kg/s]
M& Mass flow rate in the measuring chamber [kg/s]
FM Extracted measuring gas volume flow [m³/h]
100100 ⋅⎟⎠⎞
⎜⎝⎛≈⋅⎟⎟
⎠
⎞⎜⎜⎝
⎛=
FF
MMD Mm&
&
F Volume flow in the measuring chamber [m³/h] Normal values for the dilution are in the range between 35.0 % and 70.0 %. Where the following apply: D = 100 % no diluting air D = 0 % only diluting air (theoretical value, means FM = 0 m³/h)
3.8.4 Zero and reference point To guarantee a precise measurement, the D−R 820 F performs an automatic zero and reference point control every 4 hours (default value, starting with switch-on). First of all the current zero point of the sensor is checked. This is followed by checking of the pollution and then the reference value of the sen-sor, in comparison with the calibrated reference value (see chapter 8 Calibration page 79). In this way the sensor is checked for correct functioning. If the deviations are too large, this indicates a maintenance requirement or a fault (see chapter 10 Error messages and error elimination page 91). The fol-lowing figure provides an example of the signal course:
Time
0
2
4
6
8
10
12
14
00:0
0
00:3
0
01:0
0
01:3
0
02:0
0
02:3
0
03:0
0
03:3
0
04:0
0
04:3
0
05:0
0
05:3
0
06:0
0
06:3
0
07:0
0
07:3
0
08:0
0
08:3
0
09:0
0
dr82
0f_0
14_0
000_
Bsp
Nul
l-Ref
eren
zpun
kt
Dus
t con
tent
[mg/
m³]
Figure 3.15: Example signal course for zero and reference point control
Product Description
D−R 820 F 39
3.8.5 3/2-way ball valve For self-diagnosis and cleaning of the probe's measuring gas-conducting ele-ments, the 3/2-way ball valve and the purge valve are set to the purge position every 24 hours (default value), so that the probe is cleaned. Ball valve and purge valve are actuated automatically. This cleaning procedure is also executed when a fault is detected in the ( ) extractive Dust Concentration Meter D−R 820 F, in order to protect the measuring device from heavy pollution. The volume flows and temperatures are monitored with the aid of the preset parameters. Further internal tests are also carried out on the measuring device to check correct functioning (e.g. in-ternal memory, communication sensor - control unit, sensor temperature) The ball valve can also be operated manually for diagnostic purposes. For this purpose it is possible to change between PURGE and MEASURING with the
and keys on the control unit of the D−R 820 F. Alternatively, the rotary switch on the ball valve can also be operated manu-ally. For this purpose the Automatic/Manual adjusting hand wheel on the left side of the ball valve must be set to MANUAL (the ball valve must be reset af-ter completing the diagnosis or maintenance activity).
CAUTION For continuous dust measurement, the Automatic/Manual adjusting handwheel must be in the AUTOMATIC position!
After switching from purge to measurement, the D−R 820 F remains in Pur-ge/Maintenance status for another minute!
If the D−R 820 F is in fault status, the ball valve cannot be moved into the measurement position!
Product Description
40 D−R 820 F
Please note following positions of the ball valve:
dr82
0f_0
15_0
000_
Kug
elha
hnM
esse
n
Purge/Measuring adjusting handwheel Automatic/Manual adjusting handwheel
Plug connector
MEASURING
PURGE
Figure 3.16: 3/2-way ball valve in MEASUREMENT position
dr82
0f_0
16_0
000_
Kug
elha
hnSp
ülen
Plug connector
MEASURING
PURGE
Purge/Measuring adjusting handwheel Automatic/Manual adjusting handwheel
Figure 3.17: 3/2-way ball valve in PURGE position
Adjusting handwheel: Position: Automatic
Adjusting handwheel: Position: Manual
dr82
0f_0
17_0
000_
Kuge
lhah
nS
eite
nans
icht
Figure 3.18: 3/2-way ball valve side view
D−R 820 F
Dust Concentration Meter
0044 4 Assembly 4.1 Selection of the measuring point 4.2 Installation of the weld-in socket 4.3 Installation of the probe 4.4 Installation of the rack frame 4.5 Electrical connection 4.5.1 Control unit 4.5.2 Probe
Assembly
D−R 820 F 43
4 Assembly
4.1 Selection of the measuring point The installation position of the probe should meet the requirements of the gui-delines applicable in-situ (e.g. EN 13284-1) (in Germany VDI 2066 page 1). In case of doubt, we recommend that the installation position is determined by the responsible measuring institute (measuring point in accordance with §§ 26/28 ( ) BImSchG/Federal Immission Control Act). We recommend that the inlet and outlet section is at least 5 x diameter of the exhaust gas channel.
Correct!
Correct!
Incorrect!
3 x D 3 x D
< 5 x D
2 x D 5 x D
3 x D VDI 2066 p. 1 5 x D EN 13284-1
3 x D VDI 2066 p. 1 5 x D EN 13284-1
VDI 2066 p. 1 EN 13284-1
dr82
0f_0
18_0
000_
Aus
wah
l der
Mes
sstre
cke;
Ein
- und
Aus
lauf
stre
cke
Figure 4.1: Inlet and outlet section
In principle it should be noted that the dust and flue gas distribution must be as homogeneous as possible at the measuring point, in order to obtain a repre-sentative recording of the dust load across the duct cross-section.
4.2 Installation of the weld-in socket The weld-in socket of the D−R 820 F is installed in accordance with Figure 4.2 or Figure 4.3 . The installation position of the probe is horizontal. As a rule the D−R 820 F is arranged with a sample gas recirculation. An acci-dental blocking of the outgoing air with the risk of strong contamination of lenses and filter, will thus be prevented. Figure 4.2 and Figure 4.3 are showing how to handle the sample gas recirculation. A separate routeing of the outgoing air with additional return nozzle to the stack or a direct recirculation (>10 m!) to the mounting flange is expedient.
Assembly
44 D−R 820 F
2°...5°
2°...5°
dr82
0f_0
19_0
001_
Eins
chw
eißs
tutz
en (s
epar
ate
Rüc
kfüh
rung
) Mounting flange
Return nozzle(optional)
Channel wall
Figure 4.2: Weld-in socket (separate return)
2°...5°
dr82
0f_0
20_0
001_
Eins
chw
eißs
tutz
en (i
nteg
rierte
Rüc
kfüh
rung
)
Mounting flangeReturn nozzle(optional)
Channel wall
Figure 4.3: Weld-in socket (integrated return)
In principle the sample gas recirculation could take place back into the room, because it is a matter of highly diluted (injector and diluting air) stack gas. But this gas has a lot of heat energy and will warm-up the room. A recirculation out-of-doors is more suitable. In either case it should be seen that the hose is correctly laid to prevent a blocking. The sample gas leaves the probe with a temperature of over 70° C. By com-pliance with the max. length of hose (10 m), there is no probability that the hose would freeze.
The mounting of the weld-in socket on the measuring channel has to carry the weight of the socket (approx. 10 kg) and the weight of the complete probe (approx. 60 kg). If necessary the channel has to be strengthened by a support-ing structure.
Assembly
D−R 820 F 45
4.3 Installation of the probe Danger of contamination of the measuring cell!
For mounting and during the time up to commissioning the ball valve has to be set to MANUAL and PURGE!
For mounting the probe it is recommended to do the following steps: 1. Set the ball valve to MANUAL and PURGE, 2. remove optical sensor while mounting (unfasten 4 nuts, separate screwed
cable gland and remove sensor), 3. insert probe into flange (don’t forget gasket!), 4. tighten probe with the 4 nuts and bolts provided,
(Installation position as in picture: angle plug on the left towards the center of the D−R 820 F unit).
5. reinsert optical sensor, 6. set check valve vertically (purge air optical sensor),
Flow arrow of valve points upwards (to optical sensor).
Always pay attention that the check valve, above the purge air filter of optical sensor, is in an upright position. (see „R“ in Figure 3.6 on page 29).
dr82
0f_0
21_0
000_
Ein
bauv
orsc
hrift
Teil
1
A. Insert probe
1. CAUTION: FIRSTset the ball valveto MANUAL + PURGE!
( Screw probe tightlyto flange 4x)3.
( Insert probe)2.
Exhaust gas duct/chimney Exhaust gas/flue gas
Optical sensor
Figure 4.4: Installation instructions part 1
7. connect plug of cable from control unit with matching part on probe 8. connect hoses of blower outlet with inputs of the probe . 9. connect hose (di=25mm) from recirculation socket with output of the probe
(see Figure 4.2 and Figure 4.3 on page 44).
Assembly
46 D−R 820 F
dr82
0f_0
22_0
001_
Einb
auvo
rsch
rift T
eil 2
( Connect hoses)
5.
Control unit
BlowerInjector air
BlowerDiluting air
Air filter
Analog and status signals
Power supply
Heating Diluting air
Injector airmax. 10 m, di=25 mm
Deluting air max. 10 m, di=13 mm
( Connectcables)
4.
Exhaust gas duct/chimney
( Screw frame to peripherye.g. open-mesh floor, guard rail or wall)
6.
B. Connect cables and hoses(Representation of probe+chimney rotated)
Figure 4.5: Installation instructions part 2
Hoses and cables between rack frame and probe have to be connected ac-cording to Figure 4.5.
Assembly
D−R 820 F 47
4.4 Installation of the rack frame The rack frame is manufactured from easily assembled profiled supports. It can be easily fixed to a wall or the floor. The control unit and the two blowers are permanently installed and wired on the rack frame. This arrangement should not be changed. The maximum distance between rack frame and probe is specified in chapter 11.1 Technical data General on page 100.
A
B
CD
E
ca. 600 mm ca. 550 mm
ca. 1
.750 m
m
ca. 430 mmdr
820f
_009
_001
_Ges
tellr
ahm
en_d
e
Figure 4.6: Rack frame
A Control unit D Blower Diluting air
B Cable run E Blower Injector air
C Air filter
Assembly
48 D−R 820 F
4.5 Electrical connection
4.5.1 Control unit All connections are implemented as screw terminals in the control unit. A dis-tinction is made between different terminal strips, see Figure 4.7. The terminal strips can be accessed after opening both doors of the control unit (using the control cabinet key). • Terminal strip X01: Internal voltage distribution • Terminal strip X03: Outputs for customer • Terminal strip X04: Probe connection
dr82
0f_0
08_0
000_
Bed
ieng
erät
Mon
tage
plat
te_d
e
K b l i füh
K01
K03
F01 S01 S02 F02 -F06
X01
X03K04K02
Figure 4.7: Control unit connection
-F01 Main fuse 10 A -S02 Diluting air blower protective motor switch
-F02 Power unit miniature fuse 5 A slow-blow -K01 Probe heat element Solid State
relay
-F03 Probe heat element miniature fuse 4 A slow-blow -K02 2-changeover relay, 3/2-way ball
valve / solenoid valve
-F04 Miniature fuse, 3/2-way ball valve / solenoid valve 0.25 A slow-blow -K03 Diluting air heat element Solid
State relay
-F05 Diluting air heat element minia-ture fuse 4 A slow-blow -K04 2-changeover relay, probe blower
-F06 Probe housing fan miniature fuse 0.25 A slow-blow -X01 Voltage distribution terminal strip
-S01 Injector air blower protective motor switch -X03 Signal transfer terminal strip
The configuration of terminals and connectors is specified in the Appendix.
Assembly
D−R 820 F 49
4.5.2 Probe Three sockets are located on the right side of the probe housing for the electri-cal connection of the probe (signals, power supply and diluting air heat ele-ment). The pin configuration of the connectors is specified in the Appendix (see chapter 17 Circuit diagrams and drawings from page 110)
dr82
0f_0
01_0
000_
Sond
eal
lgem
ein_
de
Plug connector, heat element
Housing closure open
Plug connector, ext. housing ventilation (optional)
Probe ventilation inlet filter Housing closure closed
Plug connector (signals)
Plug connector (power supply)
Flange
Probe tube (heated)
Sampling tube
Housing cover
Diluting air heat element connection cable
Diluting air connection
Diluting air heat element
Probe ventilation fan filter (installed on the left)
Housing
Figure 4.8: Probe connections
D−R 820 F
Dust Concentration Meter
0055 5 Commissioning
Commissioning
D−R 820 F 53
5 Commissioning
CAUTION Risk of measuring cell pollution! Before commissioning, the 3/2-way ball valve must be set to PURGE and AU-TOMATIC (see 3.8.5 3/2-way ball valve page 39)!
Figure 5.1: Mounting position optical sensor
1. After removing the housing cover (GRP cover) first insert the optical sensor (D−R 800 F) with its measuring lance into the measurement chamber. There is no need to open the device for that purpose. The adjustment is done as shown in Figure 5.1 (arrow), with angle plug towards middle of the device. Tighten optical sensor with the self-locking nuts to the flange.
2. Check wiring at control unit and sampling probe. 3. Connect external series fuse. 4. Check value and direction of rotation of voltage (400 V) at control unit input. 5. Connect main fuse F01. 6. Connect fuses F02 to F04 and the two protective motorswitches S01 and
S02 one after another.
Figure 5.2: Mounting position ball valve injector air
7. The valve on the blower for the injector air (blue lever in Figure 5.2) is closed during dispatch. Now it has to be opened for operating, but only approx. 80%.
Commissioning
54 D−R 820 F
It is advisable, to remove the blue lever after commissioning and keep it readily available nearby, fastened for example with a cable connector. For this reason it is prevented that the valve position (80%) is modified unchecked.
Figure 5.3: Mounting position valve for allocation of diluting air
8. Inside the probe the valve for allocation of diluting air (Figure 5.3) has to be opened. This valve is also closed during dispatch. It is secured by a two-piece pipe clamp. It is sufficient to untighten only the left side of the pipe clamp. After this, the valve can be opened with some turns. Finally the pipe clamp protection is tightened on the opened valve.
9. Wait until the diluting air has reached a value of min. 1 m³/h.The value is shown in the display behind identifier FD.
10. Connect the diluting air heat element with fuse F05 11. Connect the probe ventilation with fuse F06
CAUTION Condensate formation! Risk of measuring cell pollution! Cancellation of the preheating is not recommended!
12. The device is in the mode Preheating = ON (see 6.9.11 Set probe heat
element | page 72). The preheating time ends after 30 minutes. 13. After expiry of the preheating time, the device switches to measuring mode. 14. After switching from purge (preheating) to measurement, the device re-
mains in maintenance status for 1 minute. 15. The measured values, shown in the display of the control unit (Value T and
TD is displayed alternately), should be consistent with the values specified in Table 5.1. If the displayed value FD (volume flow) is not yet in the range of ap-prox. 3 ... 6 m³/h, the valve of the blower injector air has to be opened or closed respectively (see point 7 above).
dr82
0f_0
28_0
000_
DU
RA
G D
ispl
ay+_
eu
Commissioning
D−R 820 F 55
Temperature T (setpoint value): e.g. 120 °C Volume flow F: 8 ... 12 m³/h
Temperature TD (setpoint value): e.g. 120 °C Volume flow FD: aprox.
3 ... 6 m³/h Table 5.1: Reference values
16. To alter operating or device parameters (see chapter 6.9 from page 65) remove the narrow cover on the right side of the display and activate the push-button behind (see Chapter 6.7 and Figure 6.4 on page 64).
17. Calibrate device probe calibration (see chapter 8 Calibration page 79) 18. Check, set and save software parameters (see 6.9.12 Output parameters |
Send to terminal page 72)
WARNING Risk of burns! Parts of the probe are electrically heated, wear safety gloves!
D−R 820 F
Dust Concentration Meter
0066 6 Operation and Handling 6.1 Optical sensor 6.2 Display 6.3 Operating modes 6.4 Operation 6.5 Limit value input 6.6 Special displays 6.7 Parameter input 6.8 Calibration menu and reference point 6.9 Parameters
Operation and Handling
D−R 820 F 59
6 Operation and Handling
6.1 Optical sensor The optical sensor is described in detail in a separate manual (D-R 800). Ho-wever, this information is generally irrelevant for use as a measuring probe in the D−R 820 F, as all necessary settings are performed and monitored by the D−R 820 F system. Therefore the user does not need to perform any settings on the sensor. The D−R 820 F is operated with the factory setting.
Do not change any settings on the optical sensor! Otherwise, control by the D−R 820 F and functioning of the complete system will no longer be guaran-teed. Checking or changing the settings of the D−R 800 F is only necessary and ex-pedient in exceptional cases. Checks or changes should therefore only be car-ried out after consulting the Service department. You will find the relevant ad-dresses and telephone numbers on page 121 (DURAG GROUP company ad-dresses)
6.2 Display The D−R 820 F displays all necessary information for operation of the measur-ing device in a 4-line display. 1. Current measured values (measuring and operating variables) 2. Error messages
dr82
0f_0
28_0
000_
DU
RA
G D
ispl
ay
Figure 6.1: Display
The display has two different operating modes: Standard mode and service mode. You can switch between standard and service mode by means of pa-rameter input (see 6.9.5 Ouput mode | Select output mode page 69).
Operation and Handling
60 D−R 820 F
6.3 Operating modes
6.3.1 Standard mode In standard mode, the display shows the corrected value of the dust content at the measuring point, the currently set measuring range and the operating vari-ables temperature and volume flow. Any status messages are displayed cycli-cally in the bottom line (until the fault or event has ended).
T TD
alternately: Measuring cell temperature [°C] Diluting air temperature [°C]
D Dilution of measuring gas [%]
F Total volume flow in the measuring chamber [m³/h]
FD Volume flow diluting air [m³/h]
CiB Dust content of exhaust gas [mg/m³]
T 1 1 9 . 7 ° C D 8 5 . 2 %
F 1 1 . 2 F D 2 . 1 m 3 / h
C _ i B 1 2 . 6 m g / m 3
f i x m e a s u r e r a n g e * *
„*“ Heat element states: Star 1: "*" = Diluting air heat element = On Star 2: "*" = Probe heat element = On
Figure 6.2: Standard mode
The measured values for temperature and volume flow relate to operating variables in the measuring device!
6.3.2 Service mode In service mode, the uncorrected measured value of the dust sensor (cal/scattered light), the differential pressures P1/P2 and the temperature T/TD are output. Service mode can be switched on and off by means of parameter input (see chapter 6.9.5 on page 69).
In service mode the D−R 820 F is in maintenance status!
cal Sensor measured value [V]
T Temperature in the measuring chamber [mA]
Ts Diluting air temperature [mA]
S 1 = 1 . 9 S 2 = 1 . 6 %
T = 1 0 . 4 T D = 1 0 . 2 m A
P 1 = 6 . 4 P 2 = 8 . 2 m A
f i x m e a s u r e r a n g e * * P1 Differential pressure via measuring chamber [mA]
P2 Differential pressure of diluting air (via measuring orifice) [mA]
Figure 6.3: Service mode
Operation and Handling
D−R 820 F 61
In service mode, the signals cal (measuring range as set) and pollution of the optical sensor are output at analog outputs 1 and 2 in percent as 4 ... 20 mA. In addition, the automatic measuring range switching for CiB is not active.
6.4 Operation
6.4.1 Keys The D−R 820 F is operated using the keyboard. The keys have the following meaning:
MODE -> Call Limit Values or Special Displays menu
right -> Continue, move cursor to the right, etc.
Down -> To the left in the main menu, exit submenu
ENTER -> Select menu, accept value, store value, etc.
...
0, 1, 2, 3, 4, 5, 6, 7, 8, 9 -> Numeric input, menu selection
/
+, - -> Change preceding sign, switch between PURGE and MEASURE-MENT in standard mode
6.4.2 Numeric input A mathematical notation is used for numeric input.
The representation is: 00000.1 ++= EIn this example the view means: 11011 0 =⋅+=
Example 2 530103,52E300.5 2 =⋅=++
Numeric input in the example: Input factor A
Move the cursor to the corresponding position with
Change preceding sign with and
Set desired value at the position with to
A =
+ 1 . 0 0 0 0 E + 0
P o s i t i o n < - > >
S e t < E N T E R >
Save value and exit sub-item with
Operation and Handling
62 D−R 820 F
6.5 Limit value input The D−R 820 F can monitor two independent limit values. A message is gen-erated in the display (only in standard mode) to indicate that the limit value has been reached or exceeded, the corresponding relay is opened and the relevant digital output is set. The value for the limit value can be entered with the keyboard. Press the key to enter the limit values.
i n p u t l i m i t v a l u e s Selection of the limit value to be entered:
l i m i t v a l u e 1 Press to enter limit value 1
l i m i t v a l u e 2 Press to enter limit value 2 e n d < - > > Press to end input and store limit values
l i m i t v a l u e 1 Example: Input limit value 1:
+ 5 . 0 0 0 0 E + 2 m g / m 3 Standard: 500 mg/m³
P o s i t i o n < - > >
e n d < E N T E R >
l i m i t v a l u e 2 Example: Input limit value 2:
+ 5 . 0 0 0 0 E + 2 m g / m 3 Standard: 500 mg/m³
P o s i t i o n < - > >
e n d . < E N T E R >
6.6 Special displays The D−R 820 F makes different displays available if you repeatedly press the
key. These are identical in standard and service mode.
After approx. 60 seconds without keyboard input, the display automatically returns to the current operating mode (not for Special displays | Alternative values and Special displays | Current signals!).
Operation and Handling
D−R 820 F 63
6.6.1 Special displays | Language
d i s p l a y l a n g u a g e i s
e n g l i s h
c h a n g e < - > > Change language (German/English)
s e t < E N T E R > Save, return to current value display
6.6.2 Special displays | Alternative values
T D 1 1 9 . 7 ° C D 8 5 . 2 % T/TD alternately
F 1 1 . 2 F D 2 . 1 m 3 / h FD/FM (extracted measuring gas volume) alternately
c a l 1 . 2 0 V cal signal
f i x m e a s u r e r a n g e * * Status display + heat element
This display does not change back automatically!
6.6.3 Special displays | Current signals
T i m e : 1 5 : 3 3 1 2 . 0 6 . 0 7 Date and time
I 1 = 5 . 2 0 I 3 = 4 . 0 0 m A Act. current at output 1 and 3
I 1 = 5 . 7 2 I 3 = 1 4 . 3 1 m A Act. current at output 2 and 4
f i x m e a s u r e r a n g e * * Status display + heat element
This display does not change back automatically!
6.6.4 Special displays | SW version 1
C u s t o m e r : A B C D E F G H Customer's name (factory setting)
s e r . : N o 1 2 3 4 5 6 7 8 Control unit serial number (factory setting)
s w - v e r s i o n : 1 . 1 5 a Control unit software version
F r e e R T O S . o r g : 4 . 1 . 2 Control unit software version + operating system type
Operation and Handling
64 D−R 820 F
6.6.5 Special displays | SW version 2
b u i l d t i m e : 1 4 : 5 7 : 4 3 Compilation time of control unit SW
b . d a t e : A p r 0 4 2 0 0 8 Compilation date of control unit SW
s e n - s w - v e r : 1 . 1 7 Software version of optical sensor in the probe
s e n - s n o : 1 2 3 4 5 6 7 8 Serial number of sensor in the probe
6.7 Parameter input The D−R 820 F has an operating or parameterisation level for the input of specific parameters and for calibrating the device. You can access this level by pressing the SET switch see Figure 6.4. The cover on the right of the keyboard must be unscrewed to access the SET switch. Input of the parameters is large-ly self-explanatory (see above). The arrangement of the individual input values and the key sequence can be found under point 6.9 Parameters page 65 .
dr82
0f_0
24_0
000_
SE
T-S
chal
ter_
de
SET switch (behind the cover)
RS 232
Valve position: PURGE
Valve position: MEASURING
Figure 6.4: SET switch
After pressing the SET switch, you have two options: Calibration and parame-ter input.
c h a n g e p a r a m e t e r
o r r c a l i b r a t i o n
c a l i b r a t e < - > > Call up Calibration menu
c h a n g e < E N T E R > Call up Parameter menu
The normal functioning of the D−R 820 F is not interrupted during parameter input! The Dust Concentration Meter is only put into Maintenance status.
The complete menu plan can be found in Appendix on page 118.
Operation and Handling
D−R 820 F 73
6.8 Calibration menu and reference point In the Calibration submenu you can enter calibration factors, i.e. the analysis function after a gravimetric comparison (see chapter 8.2 Dust calibration from page 79) or define the reference point (see chapter 8 Calibration on page 79).
8 Calibration page 79 The electric zero points of the sensor electronics and the sensors are defined during the device calibration. 8.2 Dust calibration page 79 During the dust calibration, the display and the analog signal output of the D−R 820 F are adjusted to the actual dust content in the system.
c a l i b r a t e < - > > is used to call up the calibration menu
p r e s e t c o n s t a n t o f is used to call up the parameter input for the calibration c a l i b r a t i o n < E N T E R >
6.8.1 Calibration | Reference point In the following menu, the device calibration can be started or the set refer-ence value can be displayed with the key. The reference point of the optical sensor is defined during device calibration.
The 3/2-way ball valve should be set to purge for device calibration!
When defining the reference point, a control cycle is started on the optical sensor. When it has finished, the new reference value is defined.
The reference value should be between 60 and 80%!
6.8.2 Enter calibration parameters Parameter: • Values for calculating the dust concentration C_iB (after
a gravimetric calibration of the device) • A and D: Factors for calculation of dust C_iB
The mathematical relationship can be seen under point 3.8.1.3.
6.9 Parameters
6.9.1 Automatic measuring range switching | Autom. measuring range switching Parameter: • Autom. measuring range switching of the current output CiB Value range: • Measuring range switching On / Off
Operation and Handling
66 D−R 820 F
Meaning: • Switches the automatic measuring range switching for CiB on or off
Setting of the measuring range in mg/m³ occurs under point 6.9.7 Dust and raw signal measuring ranges | page 71
Auto range = On: • Automatic measuring range switching is active. The dust
measuring ranges are defined as follows: Measuring range 1 = value range CiB, see 6.9.7
Dust and raw signal measuring ranges | page 71 Measuring range 2 = 3 x value range CiB Auto range = Off: • Automatic measuring range switching is inactive. The
dust measuring range is defined as follows: Measuring range = value range CiB, see 6.9.7
Dust and raw signal measuring ranges | page 71
6.9.2 Device parameters | Set device parameters Parameter: • Set device parameter Meaning: • Internal device parameters for volume flow and tempera-
ture
The device parameters are a factory setting and should not be changed!
6.9.2.1 Device parameters | Set device parameters | Range p Parameter: • Range p Meaning: • Measuring range of the Δp-transmitter for measuring the
differential pressure via the measuring gas pipe. The vol-ume flow in the measuring chamber is calculated from this.
6.9.2.2 Device parameters | Set device parameters | Factor K Parameter: • Factor K Meaning: • Construction factor for measuring gas differential pres-
sure measurement. Result of factory calibration.
The probe factor K is dependent on the design and is set in the factory. If the elbow is exchanged for the ball valve, a new factor may need to be entered here!
6.9.2.3 Device parameters | Set device parameters | Range pd Parameter: • Range pd Meaning: • Measuring range of the Δp-transmitter for measuring the
differential pressure via the measuring orifice in the purge air connection. The volume flow of the purge air is calcu-lated from this.
Operation and Handling
D−R 820 F 67
6.9.2.4 Device parameters | Set device parameters | Factor KD Parameter: • Factor KD Meaning: • Construction factor for purge air differential pressure
measurement. Result of factory calibration.
6.9.2.5 Device parameters | Set device parameters | Measuring range temperature Parameter: • Measuring range temperature Meaning: • Measuring range for temperature measurement.
6.9.2.6 Device parameters | Set device parameters | C Parameter: • Calibration factor C Meaning: • Calibration factor C for compensating the dilution. • Result of factory calibration.
6.9.3 Operating parameters | Set operating parameters Parameter: • Set operating parameters Meaning: • Measuring point-specific parameter for temperature,
pressure and gas composition in the exhaust gas channel
6.9.3.1 Operating parameters | Set operating parameters | TM Display shows: T Opened by button <1>
Parameter: • Temperature in exhaust gas channel at the measuring point Meaning: • Device-internal operand (corresponds to the temperature
in the exhaust gas channel at the measuring point in the main operating status)
6.9.3.2 Operating parameters | Set operating parameters | p Display shows: p Opened by button <2>
Parameter: • Absolute pressure of measuring chamber Meaning: • Input value
6.9.3.3 Operating parameters | Set operating parameters | pd Parameter: • Absolute pressure of purge air (via measuring orifice) Meaning: • Input value
6.9.3.4 Operating parameters Set operating parameters | pM Parameter: • Static pressure in exhaust gas channel at the measuring point Meaning: • Input value
6.9.3.5 Operating parameters | Set operating parameters | O2 Display shows: Vol Opened by button <3>
Parameter: • Gas composition, oxygen component [vol%] Meaning: • Input value, oxygen component of exhaust gas volume flow
Operation and Handling
68 D−R 820 F
6.9.3.6 Operating parameters | Set operating parameters | CO2 Parameter: • Gas composition, carbon dioxide component [vol%] Meaning: • Input value, carbon dioxide component of exhaust gas
volume flow
Operation and Handling
D−R 820 F 69
6.9.3.7 Operating parameters | Set operating parameters | H2O Parameter: • Gas composition, water vapour component [vol%] Meaning: • Input value, water vapour component of exhaust gas vol-
ume flow
The nitrogen component of the exhaust gas volume is calculated!
Example: Dry air Example of combustion exhaust gases
O2 21 Vol% 11 Vol%
CO2 0 Vol% 20 Vol%
H2O 0 Vol% 14 Vol%
N2 79 Vol% 55 Vol%
6.9.3.8 Operating parameters | Set operating parameters | RSL Display shows: R Opened by button <4>
Parameter: • Gas constant of purge air Meaning: • Input value
Danger of incorrect measurement! The operating parameters are measuring point-specific parameters. Some of them must be set in-situ during commissioning!
Operation and Handling
70 D−R 820 F
6.9.4 Integration time | Set integration time Parameter: • Set integration time Value range: • 1 ... 60 seconds Meaning: • Integration time via the measured value in seconds.
6.9.5 Ouput mode | Select output mode Parameter: • Select output mode Value range: • Standard / Service Meaning: • Switches between the standard and service operating
modes, see 6.3 Operating modes page 60.
6.9.6 Zero and reference point control | Test zero and reference point Parameter: • Test zero and reference point Meaning: • Executes a check of the zero and reference point (in-
spection values are not stored, only displayed). The dif-ference between the actual and the calibrated values is output in %.
Operation and Handling
D−R 820 F 71
The displayed values must meet the following conditions:
D−R 820 F in order: Value < 4 %
D−R 820 F in need of maintenance: 4 % < Value < 6 %
D−R 820 F in fault condition: Value > 6 % When the check is complete, the D−R 820 F waits for an input at the next menu item.
6.9.7 Dust and raw signal measuring ranges | Select dust output range Parameter: • Select dust output range Value range: • CiB: 15 ... 500 mg/m³ • Cal: 5 ... 300 V Meaning: • Sets the measuring ranges of the analog outputs for dust
(CiB) and raw signal (Cal).
6.9.8 Volume flow measuring ranges | Select vol.flow output range Parameter: • Select vol.flow output range Value range: • Volume flow F: 0 ... 20 m³/h (measuring chamber volume flow) • Limit Fmin: 0 ... 20 m³/h (measuring chamber min. vol-
ume flow) • flow range FD: 0 ... 20 m³/h (diluting air volume flow) • Limit FDmin: 0 ... 20 m³/h (diluting air min. volume flow) Meaning: • Sets the measuring ranges of the analog outputs for vol-
ume flow (F and FD) and the limit values of the volume flow monitoring (Fmin and FDmin)
If the value falls below the set limit values for F and FD, the D−R 820 F goes into maintenance requirement status, and at 80% of this value the D−R 820 F goes into fault status. An attempt is made to improve this value by backflush-ing the probe!
6.9.9 Test current outputs | Test current outputs Parameter: • Test current outputs Value range: • 4 ... 20 mA Meaning: • The current outputs for all analog outputs have preset
analog values (forcommissioning, troubleshooting and functional testing)
6.9.10 Read error log | Read out error log Parameter: • Read out error/event log Meaning: • Displays the last 100 (0..99) error messages of the
D−R 820 F. The last error is in position 0, the last but one in position 1 etc.
Operation and Handling
72 D−R 820 F
Example - error/event display:
0 0 / 5 6 1 4 : 2 1 1 4 . 0 6 . 0 7 No./event code time and date
S t a t u s M a i n t e n
a n c e N e x t < - > > Display previous event
E n d < E N T E R > End log reading
6.9.11 Set probe heat element | Preheating mode Parameter: • Preheating mode Value range: • Temperature: 0 ... 180 °C • Preheating time: 0 ... 60 minutes • Presetting: 30 minutes Meaning: • Sets the setpoint value for the probe temperature or
measuring chamber temperature, the purge air tempera-ture and the preheating time
CAUTION The temperatures should not exceed 180 °C! The ball valve is not designed for higher temperatures!
CAUTION Risk of pollution! Cancellation of the preheating phase is not recommended! During preheating, the probe tube is heated to a high temperature, to prevent the moisture from condensing out of the measuring gas!
The remaining preheating time is displayed in minutes in the status line (normal or service display). Parameters etc. can be input during this time. The preheating time can be cancelled prematurely with the key (measuring).
6.9.12 Output parameters | Send to terminal Parameter: • Send to terminal Setting: • 9600 baud, 8 bit, no parity, 1 stop bit Meaning: • Outputs the parameters of the D−R 820 F at the serial in-
terfaceof a terminal program (e.g. Hyperterminal) (a se-rial extension cable must be used).
6.9.13 End or further input Meaning: • Store or repeat parameter
D−R 820 F
Dust Concentration Meter
0077 7 Decommissioning 7.1 Disassembly 7.2 Disposal
Decommissioning
D−R 820 F 75
7 Decommissioning
WARNING Risk of burns! The probe tube is heated to a high temperature. Do not touch the probe tube. Wear safety gloves when working with the probe.
1. Set 3/2-way ball valve to MANUAL + PURGE position see Figure 3.17 and
purge for 10 to 30 minutes or switch to Purge with the key. 2. Switch off fuses F02 to F05 one after another, then protective motor swit-
ches S01 and S02 and finally fuse F01. 3. Switch off series fuse
7.1 Disassembly The probe is disassembled according to Figure 7.1. First of all, the ball valve must be set to MANUAL + PURGE.
dr82
0f_0
25_0
001_
Dem
onta
ge T
eil 1
Control unit
Blower Injector air
Blower Diluting air
Air filter
Heating Diluting air
Exhaust gas duct/chimney
( Unscrew frame from periphery e.g. open-mesh floor, guard rail or wall )
4.
A. Remove cables and hoses (Representation of probe+chimney rotated)
1. CAUTION: FIRSTset the ball valveto MANUAL + PURGE!
( Removehoses)
2.
Figure 7.1: Disassembly part 1
Decommissioning
76 D−R 820 F
dr82
0f_0
26_0
001_
Dem
onta
ge T
eil 2
Exhaust gas/flue gas Exhaust gas duct/chimney
( 5. Remove probe)
( 4. Unscrew probe from flange 4x)
B. Remove probe
2 ... 5 degrees
Exhaust air feedback integrated or separate
Figure 7.2: Disassembly part 2
7.2 Disposal
Note Disposal of the D−R 820 F must occur in accordance with the applicable country-specific environmental protection regulations.
The D−R 820 F must be treated as hazardous waste for disposal.
D−R 820 F
Dust Concentration Meter
0088 8 Calibration 8.1 Device calibration 8.1.1 Device calibration; General 8.1.2 Performing calibration 8.2 Dust calibration 8.2.1 Dust calibration; General 8.2.2 Mathematical relationship 8.2.3 Performing calibration
Calibration
D−R 820 F 79
8 Calibration
8.1 Device calibration
8.1.1 Device calibration; General As a highly sensitive measuring device, the D−R 820 F is subject to the fine fluctuations of the components and materials used. For this reason the refer-ence point of the optical sensor is compared, in order to detect any errors in the sensor in good time. The zero point of the optical sensor does not have to be calibrated. The actual reference point is defined during the device calibration.
This calibration exclusively relates to the electronics of the D−R 820 F and not the gravimetric calibration (generally by test institute). This is at the customer's discretion.
8.1.2 Performing calibration The device is calibrated in accordance with the instructions under point 6.8 page 65. The calibration takes approx. 3 minutes. When calibration is com-plete, the D−R 820 F returns to the Calibration menu. The new reference value can be checked with the key.
The 3/2-way ball valve should be set to purge for device calibration!
The displayed reference value should be between 60 and 80%!
8.2 Dust calibration
8.2.1 Dust calibration; General The measured value acquisition is subject to a wide variety of influences, due to the different technological conditions at the relevant measuring points. Vari-able influence factors include type of dust, gas speed and temperature. The dusts to be measured vary, for example, in particle size, density, particle sha-pe, charge and other dust and gas characteristics. Consequently, a different characteristic curve results for the output signal in relation to the dust content for each case of operation of a D−R 820 F. The signals of the D−R 820 F must therefore be calibrated with gravimetric comparison measurements (in accor-dance with VDI 2066 and VDI 3950 in Germany). The results of the calibration, i.e. the parameters, can be entered directly in the D−R 820 F, and the device outputs a signal proportional to the dust content.
Calibration
80 D−R 820 F
8.2.2 Mathematical relationship The dust signal is calculated in accordance with the following mathematical re-lationship (see 3.8.1.3 Extractive dust measurement page 36):
ci.B. Dust concentration [mg/m³]
cal Measuring signal [V] (corresponds to scattered light)
F Volume flow [m³/h]
A, D Constants from the dust calibration
DFCF
FcalACD
Bi +⎥⎦
⎤⎢⎣
⎡⋅−⋅
⋅=..
C Constants from the device adjustment (input after production)
(Indices: "without" measuring chamber, "D" diluting air and "M" measuring gas)
8.2.3 Performing calibration
Before starting the calibration, you must ensure that the device (point 6.9.2 page 66) and operating parameters (point 6.9.3 page 67) are correctly en-tered. You must also ensure that the error "MB sensor too small*" does not occur during calibration (status line, or erorr log)!!
* (MB ≙ Hardware measuring range; see also Events page 92 The following steps are recommended for execution of the gravimetric calibra-tion: 1. Check the 2. Device parameters | Set device parameters 3. Perform gravimetric dust calibration (in the case of an official dust meas-
urement in Germany this is performed by a measuring body approved in accordance with §§ 26, 28 ( ) BImSchG).
4. Record analog signal CiB and form means over the period of the gravimetric comparison measurement. The calibration parameters A and D must be the following default values for calibration:
A 1 C 1.1 (factory setting) D 0
On condition that A = 1 and D = 0, a CiB’ is displayed, which is used for the calibration.
DCAC '.B.i.B.i +⋅=
The parameter C must not be adjusted.
Calibration
D−R 820 F 81
0
3
6
9
12
15
0 3 6 9 12 15
C = 1.07 C' + 0.09 i.B. i.B.
R² = 0.8
C = A C' + D i.B. i.B.
dr82
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27_0
000_
Gra
vim
etris
che
Kalib
rieru
ng
Device display D-R 800 F - C' [mg/m³] i.B.
Gra
vim
etric
dus
t mea
sure
men
t
- C
[m
g/m
³]I.B
.
Figure 8.1: Example - Gravimetric calibration
5. Determine parameters A and D from the correlation. 6. Enter parameters A and D (see 6.8 Calibration menu and reference point
page 65).
Measuring signal D−R 820 F if A = 1 and
D = 0 [mA]
Device display D−R 820 F if A = 1 and
D = 0 [mg/m³] Grav. dust content Ci.B.
[mg/m³]
4.00 0.00 0.00 * 4.00 0.00 0.00 * 4.00 0.00 0.00 * 5.81 1.70 0.92 7.52 3.30 4.05 7.41 3.20 2.90 5.81 1.70 1.53 6.24 2.10 2.45 6.45 2.30 2.76 6.11 1.98 2.42 6.82 2.64 3.60 6.33 2.18 2.83 8,29 4.02 3.82 6.91 2.73 3.95 7.52 3.30 2.68 6.67 2.50 3.18 7.50 3.28 4.33 7.41 3.20 2.91
* (zero point hypothesis) Table 8.1: Value table for calibration example
Calibration
82 D−R 820 F
If the optical sensor outputs the error "MB sensor too small" (MB Hardware MessBereich/Measuring Range) during the gravimetric comparison measure-ment, then this measurement cannot be used for the dust calibration and must therefore be repeated! (see error log) This applies similarly for every error that puts the D−R 820 F into fault condition. In addition, it should be noted that the D−R 820 F performs the zero and refer-ence point test automatically, and no data are available for the comparison measurement during this time.
D−R 820 F
Dust Concentration Meter
0099 9 Maintenance 9.1 Safety 9.2 Maintenance work 9.3 Cleaning 9.4 Work on the optical sensor D−R 800 F 9.4.1 Reset of the optical sensor
Maintenance
D−R 820 F 85
9 Maintenance
The provision of warranty performances assumes the correct execution of maintenance.
Maintenance has the following aims: • To preserve the measuring accuracy of the D−R 820 F, • To guarantee operational reliability, • To increase the lifetime of the measuring device. In addition, maintenance forms the basis for warranty performances.
9.1 Safety
WARNING Danger from electrical equipment Before removing the housing or accidental-contact protection, the equipment must be disconnected from the power supply and protected against unauthor-ised re-activation.
WARNING Danger of burns Never touch parts that could be hot without temperature-resistant equipment or safety gloves.
CAUTION Damage to electronic components from electrostatic discharge (ESD) DURAG devices are protected from uncontrolled electrostatic discharge (ESD) during closed operation. If the device is opened (e.g. for service or mainte-nance tasks), appropriate ESD protection measures must be taken before-hand.
Optical sensor:
CAUTION Danger from laser light! Risk of blinding! Laser protection class II (radiant power < 1 mW at 655 nm) is only guaranteed if the manufacturer's setting for the laser potentiometer is unchanged (sealed). When using the device always comply with the following points: - Never look directly into the beam path - Do not direct the laser beam of the D−R 820 F at people - Look out for reflections of the laser beam.
Maintenance
86 D−R 820 F
9.2 Maintenance work Maintenance work must be performed by trained maintenance personnel in accordance with the Service Manual.
Time Activity
Monthly • Check plausibility of values for F, FD
3 months • Check temperature of measuring chamber and diluting air • Check suction intakes of blower
3 – 6 months
• Clean complete probe • Check filters for probe ventilation (optionally also optical
sensor filter) – clean or replace if required • Depending on degree of pollution, clean probe housing or
tubing (sampling elbow, Injector, probe tube, ball valve etc.) with special brushes
6 months • Check suction filter of blower – replace if required
• A linearity test must be performed before each gravimetric dust calibration (annually as a rule)
Table 9.1: Maintenance work
9.3 Cleaning The Dust Concentration Meter D−R 820 F must be cleaned at intervals of at least 3 to 6 months. The frequency of the cleaning tasks to be performed de-pends on the selected measuring point or measuring medium (particularly the dust content) and the environmental and climatic conditions. Whenever performing cleaning tasks on the D−R 820 F, please note:
CAUTION Risk of burns! Wear safety gloves! Parts of the D−R 820 F are electrically heated or operated with hot measuring gas!
Cleaning work must be performed by trained maintenance personnel in accor-dance with the Service Manual.
9.4 Work on the optical sensor D−R 800 F The optical sensor receives all necessary settings from the D−R 820 F system. Consequently, the user does not generally need to make any settings on the sensor. The is operated D−R 820 F with the factory setting. Detailed information on the optical sensor can be found in the D-R 800 Man-ual. Maintenance work can be performed with the help of this manual, after appropriate training.
Maintenance
D−R 820 F 87
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05_0
001_
Sond
e An
sich
t Fro
ntal
_eu
Figure 9.1: Position of the optical sensor in the probe housing D−R 820 F
Do not change any settings on the optical sensor! Otherwise, control by the D−R 820 F and functioning of the complete system will no longer be guaranteed. Checking or changing the settings of the optical sensor is only necessary and expedient in exceptional cases. Checks or changes should therefore only be carried out after consulting the Service department. You will find the relevant addresses and telephone numbers on page 121 (DURAG GROUP company addresses)
9.4.1 Reset of the optical sensor In the event of an error, it is possible to reset the settings of the D−R 800 F. To do this, press all 4 keys on the sensor control pad inside the probe housing D−R 820 F simultaneously for approx. 1 s. The device is restarted with the current settings (not with the factory settings!)
A Optical sensor
D−R 820 F
Dust Concentration Meter
1100 10 Error messages and error elimination 10.1 Events 10.2 Maintenance status 10.3 Maintenance requirement status 10.4 Fault status 10.5 Events
Error messages and error elimination
D−R 820 F 91
10 Error messages and error elimination
The D−R 820 F outputs status signals for monitoring, indicating error states and troubleshooting. These are made available on the display in plain text and at the status contacts (see connection diagram) as a potential-free contact. The error messages are divided into the classes maintenance, maintenance requirement and fault. All current events are shown one after another in the status line of the display. The last 100 errors and events are stored in the error log of the D−R 820 F. You can also see the dependency of the events here, based on time and se-quence. After exiting the Calibration or Parameter menu with the <set> key (see Figure 6.4: SET switch on page 64), all events are deleted, i.e. the status display is reconfigured and any new events are written to the error log.
If the messages/causes of the maintenance requirement category cannot be eliminated, please inform the competent Service department! (DURAG GROUP company addresses see page 121)
10.1 Events Provided that no maintenance, maintenance requirement or fault is present, all
displayed events are only informative in nature.
After calling the parameter setting or calibration with the <set> key, any main-tenance requirement or fault message present is reset.
10.2 Maintenance status "Maintenance status" is shown in the display. Maintenance operating status occurs at the following times: • Service mode or parameter input active • 4-hour zero and reference point control active (see point 3.8.4 Zero and
reference point page 38) • Device is in purge position (see chapter 3.8.5 3/2-way ball valve page 39) • Manual maintenance switch is on (see Figure 3.8: Control unit, page 31) • The device is switched to maintenance status via a remote control (serial
communication) (the device keyboard is locked during remote mainte-nance!)
• The optical sensor is in maintenance status
After switching from purge to measurement, the D−R 820 F remains in pur-ge/maintenance status for another minute!
When the maintenance switch (see Figure 3.8: Control unit, page 31) is in the maintenance position, the ball valve is not automatically set to purge if FX is less than 80%FXmin and in the event of a sensor error !
Error messages and error elimination
92 D−R 820 F
10.3 Maintenance requirement status "Maintenance requirement" is shown in the display.
If the messages/causes of the maintenance requirement category cannot be eliminated, please inform the competent Service department! (DURAG GROUP company addresses see page 2)
10.4 Fault status "Fault status" is shown in the display.
If the ball valve is moved into the "Measurement" position via the control key) when a fault is present, all events are deleted and the status display/error evaluation is reconfigured.
If the messages/causes of the maintenance requirement category cannot be eliminated, please inform the competent Service department! (DURAG GROUP company addresses see page 2)
10.5 Events Legend: Table 10.1: Events • Status display/Event memory: "-" not used, "x" used (only if active) • Abbreviations: "ERR" - fault, "WB" - maintenance requirement, ® - auto-
matic reset ERR/WB when cause is no longer present, "PT100" - tempera-ture sensor.
Erro
r num
ber
Message (Text) Meaning Measures /Remark
Stat
us d
ispl
ay
Erro
r log
0 Auxiliary value (no entry) • - x -
1 switched on Info: D−R 820 F switched on or after reset (control unit) • - - x
2 EEPROM error Error: Writing or reading internal parameter memory
• RESET • If error recurs -> Service
x x
3,4,6,16,19,37 Program error Error: Program error
• RESET • If error recurs -> Service
x x
5 Range I1 too small Error: Output range of current I1 too small (cal), if 15 minutes without interruption -> WB
• Find and eliminate cause • Adjust measuring range I1 • Display is maintained for 20sec
x x
8 Sensor error
Error: When sending a command to sensor if after 5 attempts or if no sensor data after RESET -> ERR ®
• RESET • Test wiring • If error recurs -> Service
x x
Error messages and error elimination
D−R 820 F 93
Erro
r num
ber
Message (Text) Meaning Measures /Remark
Stat
us d
ispl
ay
Erro
r log
9 MB sensor too small
Error: Sensor input value too large, if 15 minutes without interruption -> WB
• Dust pollution too great, sensors or measuring chamber polluted or defective -> clean
• Increase dilution/temperature • Display is maintained for 20sec
x x
Wait for sensor Info: Wait for sensor • - x -
11 Sensor error Error: Sensor not ready after 120 seconds -> ERR
• RESET • Test wiring • Test sensor function
x x
14 Event error Error: Internal event not expected (program error) -> ERR
• RESET • If error recurs -> Service
x x
15 Error reading RTC Error: Reading RTC (internal time) / not important for function of ED, continue with local time
• - - x
17 New parameters Info: New/modified parameters (restart all calculations!) • - - x
18 Recalibrated Info: D−R 820 F recalibrated (new device calibration) • - - x
20 Ball valve error Error operating ball valve If also second attempt error -> ERR
• Test fuse • Test wiring • Is adjusting lever on "automatic" ?• Test manual rotation
x x
21 Current input T
Error: Measurement current input T (measuring chamber: <3.5mA or >20.5mA) -> ERR ®
• Test wiring • Test PT100 • Test transmitter, test analog signal
x x
22 Current input TD Error: Measurement current input TD (dilution: <3.5mA or >20.5mA) -> ERR ®
• Test wiring • Test PT100 • Test transmitter, test analog signal
x x
23 Current input p
Error: Measurement current input p (measuring chamber: <3.5mA or >20.5mA) -> ERR ®
• Test wiring • Test transmitter, test analog signal• Check seat of hoses at pressure
sensor
x x
24 Current input pd Error: Measurement current input pd (dilution: <3.5mA or >20.5mA) -> ERR ®
• Test wiring • Test transmitter, test analog signal• Check seat of hoses at pressure
sensor
x x
25 Autoreset ERR Info: Fault reset, as cause was no longer present • - - x
Error messages and error elimination
94 D−R 820 F
Erro
r num
ber
Message (Text) Meaning Measures /Remark
Stat
us d
ispl
ay
Erro
r log
26 Autoreset WB Info: Maintenance requirement reset, as cause was no longer present
• - - x
28 Zero point Error: Result of zero point test, if greater than 6% -> ERR ® if greater than 4% -> WB ®
• Check installation conditions • Check sensor for pollution
x x
30 Reference point Error: Result of reference point test if greater than 6% -> ERR ® if greater than 4% -> WB ®
• Check sensor for pollution • Increase dilution/measuring
chamber temperature • Check sensor standardisation
(parameters)
x x
31 Pollution Error: Result of pollution test if greater than 60% -> ERR ® if greater than 30% -> WB ®
• Clean sensor • Check installation conditions • Check optical sensor
x x
32 Error current input Info: Current input not in valid range • - (see 21..24) x x
33 Error measuring values
Error: Missing or invalid measuring values -> ERR ®
• Test wiring • Test sensor function
x x
38 Range I2 too small Error: Output range for current I2 too small (CiB), if 15 minutes without interruption -> WB ®
• Find and eliminate cause • Adjust measuring range I2 • Display is maintained for 20sec
x x
39 Range I3 too small
Error: Output range for current I3 too small, if 15 minutes without interruption -> WB ®
• Find and eliminate cause • Adjust measuring range I3 • Display is maintained for 20sec
x x
40 Range I4 too small Error: Output range for current I4 too small, if 15 minutes without interruption -> WB ®
• Find and eliminate cause • Adjust measuring range I4 • Display is maintained for 20sec
x x
41 Error AD conver-sion
Error: Analog-digital conversion of current measurement -> fault
• RESET • If error recurs -> Service
x x
42 Measured values packet lost
Error: Measured values packet lost,-> ERR ®
• Test wiring • Test sensor function
x x
44 Sensor tempera-ture
Error: Sensor temperature, if >55°C -> WB ® if >65°C -> ERR ®
• Test probe fan • Test probe fan fuse • Test probe ventilation
x x
46 Reset WB/Fault Info: Reset events in event of fault/maintenance requirement
• After exiting menu called with the <set> key - x
Error messages and error elimination
D−R 820 F 95
Erro
r num
ber
Message (Text) Meaning Measures /Remark
Stat
us d
ispl
ay
Erro
r log
47 Remote control Info: Remote maintenance via RS232 (write access)
• CAUTION: D−R 820 F cannot be operated via keyboard ! (discon-nect cable from RS232 if neces-sary - free again after 2 min D−R 820 F)
x x
Initialisation Info: Initialisation (wait for sensor) • - x -
Fixed measuring range
Info: Fixed measuring range for current output I2 (CiB) • - x -
Purge mainte-nance Info: Purge mode
• CAUTION: After switching ball valve to measuring, 1 more min-ute of "purge mode"
x -
Service display Info: Service output mode • The D−R 820 F is in maintenance status x -
54 Protected access Info: Access to protected area • Only by manufacturer (Service) - x
55 Maintenance requirement
Info: Maintenance requirement D−R 820 F • Evaluate the displayed errors x x
56 Fault status D−R 820 F Info: Fault D−R 820 F • Evaluate the displayed errors x x
Preheating xxx min Info: Preheating D−R 820 F
• With specification of minutes remaining
• Cancellation of preheating at any time with key (Caution: Condensation can result in the measuring chamber)
x -
58 Maintenance status Info: Maintenance D−R 820 F
• The D−R 820 F is in purge mode, in zero or reference point testing, parameter setting or the mainte-nance switch is on
• In error log only if maintenance through user operation
x x
60 Flow F too small
Error: Flow F (measuring chamber) too small, < Fmin -> WB ® (in 15min) < 80% Fmin -> ERR ® (in 15min) <50% Fmin -> ERR ® (in 10sec) (in case of ERR attempt to increase the value by purging)
• Check blower function (fuse) • Check that hose connections are
tight-fitting • Check gas duct for pollution • Check pressure sensor hose
connections • In the event of a fault, the
D−R 820 F goes into purge mode
x x
Error messages and error elimination
96 D−R 820 F
Erro
r num
ber
Message (Text) Meaning Measures /Remark
Stat
us d
ispl
ay
Erro
r log
61 Flow Fd too small
Error: Flow FD (purge air) too small < FDmin -> WB ® (in 15min) < 80% FDmin -> ERR ® (in 15min) <50% FDmin -> ERR ® (in 10sec) (in case of ERR attempt to increase the value by purging)
• Check compressor function (fuse) • Check that hose connections are
tight-fitting • Check gas duct for pollution • Check pressure sensor hose
connections • In the event of a fault, the
D−R 820 F goes into purge mode
x x
62 Temp T too small
Error : Temperature T (measuring chamber) too low, < 80% Tnom -> WB ® (in 15min) < 70% Tnom -> ERR ® (in 15min) <50% Tnom -> ERR ® (in 10sec)
• Test fuse • Check switching of heat relay
(LED) • Check PT100 or temperature • Check Flow F,
if F < 1m³/h and not in purge mode, the heat element for T is off!
x x
63 Temp Td too small
Status ED Temperature TD (purge air) too small, < 80% TDnom -> WB ® (in 15min) < 70% TDnom -> ERR ® (in 15min) <50% TDnom -> ERR ® (in 10sec)
• Test fuse • Check switching of heat relay
(LED) • Check Flow Fd,
if Fd < 0.5m³/h and not in purge mode, the heat element for Td is off!
• Check PT100 or temperature
x x
Measuring range = x
Info: Display act. measuring range, with "auto" measuring range • -
Limit value 1 ON Info: Limit value 1 exceeded • The display remains for another
10sec after the value has fallen below the limit value
x -
Limit value 2 ON Info: Limit value 2 exceeded • The display remains for another
10sec after the value has fallen below the limit value
x -
Table 10.1: Events
D−R 820 F
Dust Concentration Meter
AAppppeennddiixx 11 Technical data 11.1 General 11.2 Presetting
12 EC Declaration of Conformity
13 Standards and regulations
14 Spare and wearing parts
15 Glossary
16 Index
17 Circuit diagrams and drawings
18 Menu plan
19 DURAG GROUP company addresses
Technical data
D−R 820 F 99
11 Technical data
11.1 General Feed 400 V, 50 Hz, 3~, 16 A (max. 5 x 4 mm²)
Class of protection 1
Readiness for operation After 5 to 15 minutes (without preheating time)
Rack frame
Dimensions (W x H x D) 600 x 1,750 x 550 mm
Space requirement (W x H x D) 850 x 1,750 x 1050 mm
Weight approx. 60 kg
Blower class of protection IP 65
Control unit
Dimensions (W x H x D) 600 x 400 x 410 mm (including lock + PU)
Space requirement (W x H x D) 1,200 x 400 x 410 mm
Weight approx. 20 kg
Class of protection IP 65
Ambient temperature - 20 °C ... + 50 °C
Probe
Dimensions (W x H x D) 600 x 1050 x 1,500 (500 + 1000)mm
Immersion depth 1,000 mm (see ordering data!)
Weight approx. 45 kg
Class of protection IP 65
Ambient temperature - 20 °C ... + 50 °C
Temperature at ball valve <180 °C
Measuring ranges
Dust i.B. (CiB) 0 .... 15 (max. 500) mg/m³
Raw signal (Cal) 0 ... 5 (max. 300) V
Temperature 0 ... 300 °C
Volume flow measuring chamber (F) 0 ... 20 m³/h
Volume flow diluting air (FD) 0 ... 20 m³/h
Electrical connections
Analog signals 4 ... 20 mA (max. 1 mm²)
Load Max. 1000 Ω
Status signals Max. 35 VDC at 0.2 A (max. 1 mm²)
Probe cable Length max. 25 m
Technical data
100 D−R 820 F
Pneumatic connections (customer-side adaptations in consultation with the manufacturer)
Injector air blower hose Max. 10 m (di = 25 mm)
Diluting air blower hose Max. 10 m (di = 13 mm)
Optional compressed air/nitrogen connec-tion for diluting air supply
Instrument air: Admission pressure max. 1 ... 2 bar, Consumption 3 ... 5 m³/h (in relation to 1 bar)
Optional compressed air/nitrogen connec-tion for injector air supply
Instrument air: Admission pressure max. 1 ... 2 bar, Consumption 40 ... 50 m³/h (in relation to 1 bar)
Optional compressed air/nitrogen connec-tion for house purging (Vortex Cooler)
Instrument air: Admission pressure max. 2 ... 3 bar, Consumption max. 60 m³/h (in relation to 1 bar)
Table 11.1: Technical data
11.2 Presetting
Parameters Chapter Page Description Value range
Factory setting Limit values 1st alarm value Chap. 6.5
page62 1st limit value for dust i. N., tr. 0 ... 500 mg/m³
50 mg/m³ 2nd alarm value Chap. 6.5
page 62 2nd limit value for dust i. N., tr. 0 ... 500 mg/m³
50 mg/m³ Parameters set auto range Chap. 6.9.1
page 65 Automatic measuring range switching Dust i.N.tr.
on; off off
Set device parameters Chap. 6.9.2 page 66
Input of device parameters for volume flow and temperature
Range p Chap. 6.9.2.1 page 66
Measuring range Δp-transmitter measuring gas
10 mbar
FactorK Chap. 6.9.2.2 page 66
Construction factor differential pressure measurement meas-uring gas K (in relation to the installed measuring chamber)
1.8 ... 2.6 device-related (factory calibra-tion)
Range pd Chap. 6.9.2.3 page 66
Measuring range Δp-transmitter diluting air
70 mbar
FactorKD Chap. 6.9.2.4 page 67
Construction factor differential pressure measurement diluting air KSL (in relation to probe)
0.2 ... 0.4 device-related (factory calibra-tion)
Temperature meas-uring range
Chap. 6.9.2.5 page 67
Measuring range temperature measurement measuring chamber
300 °C
Technical data
D−R 820 F 101
Parameters Chapter Page Description Value range
Factory setting K_C Chap. 6.9.2.6
page 67 Calibration factor C (factory calibration)
1.1 (Factory setting)
Set operating parame-ters
Chap. 6.9.3 page 67
Input of operating parameters
Temperature TM Chap. 6.9.3.1 page 67
Temperature in exhaust gas channel (operand - not a set-point value!)
80 °C
pTK Chap. 6.9.3.2 page 67
Absolute pressure in measur-ing chamber
980 mbar
pSL Chap. 6.9.3.3 page 67
Absolute pressure of diluting air
1,070 mbar
pM Chap. 6.9.3.4 page 67
Static pressure in exhaust gas channel at the measuring point
1,000 mbar
O2 Chap. 6.9.3.5 page 67
Volume fraction of oxygen in measuring gas
0 ... 100 Vol% 21 Vol%
CO2 Chap. 6.9.3.6 page 68
Volume fraction of carbon dioxide in measuring gas
0 ... 100 Vol% 0 Vol%
H2O Chap. 6.9.3.7 page 69
Volume fraction of water vapour in measuring gas
0 ... 100 Vol% 0 Vol%
RSL Chap. 6.9.3.8 page 69
Gas constant in diluting air 287 J/(kg K)
Set integration time Chap. 0 page 69
Selection of integration time in seconds
5 s
Selection of output mode
Chap. 6.9.5 page 69
Selection of display mode Service; Standard Standard
Selection of dust output range
Chap. 6.9.7 page 71
Dust and raw signal measuring ranges
c_iB Chap. 6.9.7 page 71
Dust measuring range Any 15 mg/m³
Cal Chap. 6.9.7 page 71
Raw signal measuring range Any 5 V
Selection of volume flow output range
Chap. 6.9.8 page 71
Volume flow measuring ranges
Vol.flow F Chap. 6.9.8 page 71
Measuring range volume flow measuring chamber
20 m³/h
Vol.flow GW Fmin Chap. 6.9.8 page 71
Limit value volume flow moni-toring measuring chamber
7 m³/h
Vol.flow FD Chap. 6.9.8 page 71
Measuring range volume flow diluting air
20 m³/h
Vol.flow GW Fdmin Chap. 6.9.8 page 71
Limit value volume flow moni-toring diluting air
2 m³/h
Preheating mode Chap. 6.9.11 page 72
Probe heat element setting
Preheating mode Chap. 6.9.11 page 72
Preheating during switch-on On, Off On
Technical data
102 D−R 820 F
Parameters Chapter Page Description Value range
Factory setting Temperature T Chap. 6.9.11
page 72 Set-point value of temperature in measuring chamber
120 °C
Temperature TD Chap. 6.9.11 page 72
Set-point value of diluting air temperature
120 °C
Preheating time Chap. 6.9.11 page 72
Preheating time during switch-on
30 minutes
Calibration
Calibrate sensor Chap. 6.8.1 page 65
Triggering of device calibration (Reference point)
Set calibration con-stants
Chap. 6.8.2 page 65
Input of calibration constants
A Chap. 6.8.2 page 65
A parameter Any +1.0000E+0
D Chap. 6.8.2 page 65
D parameter Any +0.0000E+0
Table 11.2: Factory setting
EC Declaration of Conformity
D−R 820 F 103
12 EC Declaration of Conformity
EG-Konformitätserklärung EC Declaration of Conformity
Hersteller Manufacturer
DURAG GmbH
Anschrift Address
Kollaustr. 105, 22453 Hamburg
Produktbezeichnung Product description
Staubkonzentrationsmessgerät D−R 820 F Dust Concentration Meter D−R 820 F
Das bezeichnete Produkt entspricht den grundlegenden Anforderungen folgender europäischen Richtlinien, vorausgesetzt, dass es installiert, gewartet und entsprechend seiner Bestimmung eingesetzt wird. Die einschlägigen Vorschriften und Hinweise aus der Bedienungsanleitung sind zu beachten.
The described product is corresponding to the basic requirements of the following provisions of Council Directive, provided that it is installed, maintained and used in applications for which it was made, in accor-dance with relevant installation standards and manufacturer’s instructions. EG-Niederspannungsrichtlinie 2006/95/EG EG low voltage directive 2006/95/EC
EG-Richtlinie über die elektromagnetische Verträglichkeit 89/336 EWG EG directive about electromagnetic compatibility 89/336 EEC Folgende harmonisierte Normen wurden angewandt: The following harmonized standards have been used:
DIN EN 50081-1 DIN EN 55022 DIN EN 61000-4 DIN EN 61000-6
Aussteller Issuer
DURAG GmbH
Ort, Datum Place, date
Hamburg, 23.06.2008
Rechtsverbindliche Unterschrift Legally binding Signature
ppa. (Norbert Rink)
Diese Erklärung bescheinigt die Übereinstimmung mit den genannten Richtlinien, beinhaltet jedoch keine Zusicherung von Eigenschaften im rechtlichen Sinne. This declaration certifies conformance with the above mentioned directives. Affirmation of attributes in a legal sense is not included.
Standards and regulations
104 D−R 820 F
13 Standards and regulations
Where possible, the harmonised European standards have been used as the basis for the specification and production of this device. Where harmonised European standards have not been applied, the standards and regulations for the Federal Republic of Germany apply.
Spare and wearing parts
D−R 820 F 105
14 Spare and wearing parts
To order spare and wearing parts, please contact DURAG GmbH Hamburg (see inside cover).
Glossary
106 D−R 820 F
15 Glossary
BImSchV Federal Immission Control Act
BImSchG Law for protection from harmful environ-mental effects due to air pollution, noise, vibrations and similar occurrences
Claus plant All H2S--containing exhaust gases that de-velop are processed in the Claus plant. The toxic H2S is converted into elementary sul-phur and water during this process.
Cyclical communication Interface communica-tion in which data are bundled into data packets and transferred in a defined order, separated by defined characters (e.g. semi-colon).
Dilution Thinning or dilution is a measure for the concentration of the extracted measuring gas. The dilution is specified in [%].
Extinction <lat.>: (Phys.) Attenuation of a wave motion (radiation) when passing through a medium After conversion of the transmission into absorbance and after a (→) gravimetric comparison measurement, the display oc-curs in mg/m³. For dust concentrations this result is specified in mg/Nm³ through com-putation to the reference values T, P, RF.
extractive Extractive measuring procedures are cha-racterised by the fact that the sample to be analysed is withdrawn from the meas-uring gas line, conditioned and fed to the analysis device via a sample line and sample processing.
Forward scattering In physics scattering generally refers to the deflection of an object through inter-action with another local object (scattering centre). An example is the scattering of light on fine particulates. Forward scatter-ing refers to scattering processes in which only a small deflection occurs (small scat-tering angle). The measurement is there-fore recorded from the front, so against the beam direction.
Frame This generally means a data packet in this manual
Gravimetry <lat.>: (Chem.) Measurement analysis;
method for quantitative definition of ele-ments and groups in mixtures of materials.
In-situ situ measuring method The term in situ (lat. for at the (original) lo-cation, on the premises, "on the spot") in environmental technology denotes the exe-cution of defined procedures on the spot.
Modbus (interface communication) The Modbus protocol is a communication protocol based on a master/slave or cli-ent/server architecture. Modbus has be-come a facto standard in industry, as it is an open protocol. A master (e.g. a PC) and several slaves (e.g. measurement and control systems) can be connected by means of Modbus.
Offset or adjustment offset In this manual offset denotes a static va-lue which is added to or subtracted from a measured value, in order to adjust the ze-ro value, for example.
Opacity <lat>: (Optics) Nontransparency A light beam sent through a mixture of gas and particles is attenuated by absorp-tion and diffusion. The more particles are found in the light beam, the stronger the opacity. The ratio of received light to initial light is a measurement of the transmis-sion or the reciprocal opacity.
Reciprocal <lat.>: mutual; Reciprocal value: (Math.) Inverse value (swapping numerators and nominators of a fraction)
RS485 interface - analogous to the RS422 interface - has been developed for serial high-speed da-ta transfer over long distances and is be-coming increasingly widespread in the in-dustrial sector. The data cables must be implemented as twisted pairs.
Scattered light A light source emits light which is diffused by particles in the gas and recorded by a detector. The scattered light principle is suitable for small dust loads to under 1 mg/m³. The relationship between meas-ured value display and dust load is de-termined by means of (→) gravimetric comparison measurement.
Index
D−R 820 F 107
16 Index
A Assembly
Selection of the measuring point 39 Automatic measuring range switching 59
B Ball valve 44 BImSchG 98 BImSchV 98
C Calibration
Calibration menu 59 Device calibration 59, 71 Dust calibration 71 Enter calibration parameters 59
Claus plant 98 Cleaning 78 Commissioning 49 Communication, cyclical 98 Company addresses 111 Connection of blower hose 41 Control unit 41, 57 Correlation 73
D Damage in transit 20 Decommissioning 67 Diluting air 44, 49, 54 Dilution 34 Disassembly 67 Disposal 68 Dust and raw signal measuring ranges 63 Dust calibration 71 Dust sensor 78
E Electrical connection 44 Error elimination 83 Error log 63 Error message 83 Extinction 98 extractive 98
F Factor
A 32, 72 B 32, 72 C 32, 72 D 32, 72 D 32 D 72
Factory setting 92 Fault 63 Features of the D−R 820 F 21 Forward scattering 98 Function D−R 820 F 29 Functional diagram of optical probe 31
G Gravimetry 98
H Hose connectors 41
I In 98 Integration time 55, 56
L Limit value input 56
M Maintenance 49, 77, 83 Maintenance requirement 63 Maintenance work 78 Measuring procedure of the D−R 820 F 21 Modbus 98
N Notes
Environmental protection 11 general Tip or information 11
O Opacity 98
Index
108 D−R 820 F
Operating mode 53 Optical sensor 53, 78
Reset 79
P Parameter
device parameter 60 device parameter C 61 device parameter constr. factor K 60 device parameter constr. factor KSL 61 device parameter pressure range p 60 device parameter pressure range pd 60 device parameter temperature range 61 dump to terminal 64 end or restart input 64 heating mode 64 input alarm value 56 operation parameter 61 operation parameter CO2 61 operation parameter H2O 62 operation parameter O2 61 operation parameter pM 61 operation parameter PSL 61 operation parameter PTK 61 operation parameter RSL 62 operation parameter TM 61 output level of dust 63 output level of flow 63 read error protocol 64 select output mode 62 time of integration 62
Parameter input 58 Parameter output 64 Probe 41, 42, 44, 58 Probe ventilation 27
R Rack frame 42 Reciprocal 98 RS485 interface 98
S Scattered light 98 Scope of supply 22
Special accessories 23 Selection of the measuring point 39 Service mode 54 Set probe heat element 64 Standard mode 54
Supply voltage 15 System design of the D−R 820 F 23
T Technical data 91 Temperature 49 Thinning 34 Typeplate 21 Typographical conventions 10
U Use of the D−R 820 F 20
V Value
Cal 32, 72 CiB 32, 72 F 32, 72 FD 32 FM 32
Valve position LED 28, 58 Volume flow 49 Volume flow measuring ranges 63
W Warnings, ESD 11 Warnings, gen.
Average risk - Warning 11 High risk - Danger 11 Minor risk - Caution 11
Warnings, meaning. 10 Warnings, spec.
Chemical burns 11 Electric current 11 Explosion 11 General warning sign 11 Hot surface 11 Humidity 11 Laser radiation 11 Radioactivity 11
Warnings, spec. Danger of crushing 11
Warranty 20 Weld-in socket 40
Z Zero and reference point 34
Index
D−R 820 F 109
Circuit diagrams and drawings
110 D−R 820 F
17 Circuit diagrams and drawings DR820F_0001_Justierflansch
Wel
d-in
soc
ket
D-R
820
F
pipewelded
object
pipe 108x4
øquant.
flange plate
description
3 2 1
1 4 1threaded bolt
Circuit diagrams and drawings
D−R 820 F 111
D-R 820 F
1050
750
480
270
600
155 365
520
DR
820F
_000
2_So
nden
abm
essu
ngen
Probe dimensions
Circuit diagrams and drawings
112 D−R 820 F
DR820F_06ED040701_0001_Verdrahtungsplan_Einspeisung
Wiri
ng d
iagr
am
D-R
820
F
Feed
Par
t 1
Circuit diagrams and drawings
D−R 820 F 113
DR820F_06ED040702_0001_Verdrahtungsplan_Einspeisung
Wiri
ng d
iagr
am
D-R
820
F
Feed
Par
t 2
Circuit diagrams and drawings
114 D−R 820 F
DR820F_06ED040703_0001_Verdratungsplan_Analog- und Digitalsignale
Wiri
ng d
iagr
am
D-R
820
F
Ana
log
and
digi
tal s
igna
ls P
art 3
Circuit diagrams and drawings
D−R 820 F 115
DR820F_06ED040704_0001_Verdrahtungsplan_Sonde, delta P, Temp
Wiri
ng d
iagr
am
D-R
820
F P
robe
, del
ta P
, Tem
p. P
art 4
Circuit diagrams and drawings
116 D−R 820 F
DR820F_06ED040705_0001_interne Verdrahtung_Einspeisung
Inte
rnal
wiri
ng D
-R 8
20 F
Fee
d Pa
rt 5
Circuit diagrams and drawings
D−R 820 F 117
DR820F_06ED040706_0001_interne Verdrahtung_D-R 800 F
Inte
rnal
wiri
ng D
-R 8
20 F
Pa
rt 6
Menu plan
118 D−R 820 F
18 Menu plan
Legend: - displayed according to status
(Numeric values only by way of example)X
The input of numeric values is limited to preset minimum and maximum values!Limit is briefly displayed and adopted as default value for value input.
Output in case of an incorrect input (e.g. time),last valid value is displayed as default value again.
After factory setting ->
Error EEPROM:
Menu plan D-R 820 F (Ver. 1.15_uk) part 1
1
2
1
1
2
3
3
1
2
3
4
1
1
2
0
1
1
2
1
2
1
2
3
1
4
1
5
1
1
2
<MODE> < -> >/Time
Menu plan
D−R 820 F 119
Menu plan D-R 820 F (Ver. 1.15_uk) Part 2
1
2
1
2
1
2
2
1
2
1
2
3
1
00
1
DURAG GROUP company addresses
D−R 820 F 121
19 DURAG GROUP company addresses
DURAG GmbH Kollaustr. 105 ▪ 22453 Hamburg Tel. +49 40 55 42 18 – 0 ▪ Fax +49 40 58 41 54 E-Mail: [email protected]
DVN – DURAG Vertrieb Nord Kollaustr. 105 ▪ 22453 Hamburg Tel. +49 40 55 42 18 – 0 ▪ Fax +49 40 58 41 54 E-Mail: [email protected]
DVO – DURAG Vertrieb Ost Meißner Ring 4 ▪ 09599 Freiberg Tel. +49 37 31 30 04 – 0 ▪ Fax +49 37 31 30 04 – 22 E-Mail: [email protected]
DVS – DURAG Vertrieb Süd Weidenweg 16 ▪ 73087 Bad Boll Tel. +49 71 64 9 12 25 – 0 ▪ Fax +49 71 64 9 12 25 – 50 E-mail: [email protected]
DVW – DURAG Vertrieb West An der Pönt 53a ▪ 40885 Ratingen Tel. +49 21 02 74 00 – 0 ▪ Fax +49 21 02 74 00 – 28 E-Mail: [email protected]
DURAG France Sarl Parc GIP Paris Charles de Gaulle 49 rue Léonard de Vinci BP 70166 95691 GOUSSAINVILLE France Tel. +33 1 30 18 11 80 ▪ Fax +33 1 39 33 83 60 E-Mail: [email protected]
DURAG UK Office Honeysuckle Cottage Ridding Bank Stoke-on-Trent Staffordshire, ST4 8SB Great Britain Tel. +44 17 82 65 76 66 ▪ Fax +44 17 82 64 60 20 E-Mail: durag.uk@durag .de
DURAG, Inc. Southridge Business Center, 1355 Mendota Heights Road, Suite 200 Mendota Heights, Minnesota MN 55120 USA Tel. +1 65 14 51 – 17 10 ▪ Fax +1 65 14 57 – 76 84 E-Mail: [email protected]
Durag India Instrumentation Private Limited #143/16, 4th Main Road, Industrial Town, Rajajinagar Bangalore 560 044 India Tel.: + 91 80 23 14 56 26 & 23 14 56 27 Fax: + 91 80 23 14 56 26 & 23 14 56 27 Extn. 30 E-Mail: [email protected]
GmbH · Kollaustraße 105 · 22453 Hamburg · www.durag.de