c04_storage_handling_and_processing_of_dangerous_substances_COMPLETE

Question 1

The principles of iron and steel-making have not changed much since Roman times. The process is simple and uses four major raw materials:

Answer 1

iron ore, coke (from coal), limestone and air.

Question 2

Increasing the collision rate between particles will increase the rate of reaction. The key variables are: 5

Answer 2

 Temperature: Increasing temperature speeds up a reaction (except for those involving enzymes).  Pressure: Pressure increases will increase the rate of reactions involving gases.  Concentration: Increasing concentration normally increases the rate of reaction.  Surface area of reactant: Increasing the surface area of reactants increases the rate of reaction.  Catalyst: The presence of a catalyst is intended to increase the rate of a reaction.

Question 3

Exothermic reaction means…

Answer 3

In many chemical reactions, energy is given out by reactants as they form products, causing the temperature of the surroundings to rise.

Question 4

Endothermic reaction means…

Answer 4

the opposite of exothermic reactions. In an endothermic reaction energy is taken in by the reactants to form products. The energy comes from the surroundings which lose energy and cool down, resulting in a drop in temperature.

Question 5

Thermal runaway begins when

Answer 5

the heat produced by an exothermic reaction exceeds the heat removed. The surplus heat raises the temperature of the reaction mass, which causes the rate of reaction to increase, which in turn accelerates the rate of heat production.

Question 6

At best, a runaway causes loss and disruption of production, at worst it may result in a major accident. The harmful effects could include: 6

Answer 6

 the boiling over of the reaction mass  large increases in temperature and pressure resulting in an explosion  blast and missile damage  secondary fires or explosions (if the materials are flammable)  contamination of the workplace by hot liquors and toxic materials  toxic clouds that may spread off-site.

Question 7

An analysis of thermal runaways in the UK has indicated that incidents occur because of: 4

Answer 7

 inadequate understanding of the process chemistry and thermochemistry  inadequate design for heat removal  inadequate control systems and safety systems  inadequate operational procedures, including training.

Question 8

Inherently safer methods Wherever possible hazards should be eliminated or reduced by inherently safer design. Examples include: 4

Answer 8

 Replacing hazardous materials with safer ones.  Having less unreacted material in the reactor. For example: using a continuous process instead of a batch reactor.  Using a semi-batch method (in which one of the raw materials is added over time) instead of a batch process.  Using a heating medium which has a maximum temperature that is too low for the reaction mixture to decompose.

Question 9

Process control includes the use of

Answer 9

sensors, alarms, trips and other control systems that either take automatic action, or allow for manual intervention to prevent the conditions for uncontrolled reaction occurring.

Question 10

Protective measures do not prevent a runaway but are intended to reduce the consequences should one occur. They are rarely used on their own as some preventive measures are normally required to reduce the demand upon them. Examples include: 5

Answer 10

 Designing the plant to contain the maximum pressure.  Fitting emergency relief vents and ensuring that the vented material goes to a safe place.  Crash cooling the reaction mixture if it moves outside set limits by providing additional cooling by: - bringing a reflux condenser on-line - using a refrigerant in the reactor cooling coils or jacket - pumping the reactor contents through an external heat exchanger.  Adding a reaction inhibitor to kill the reaction and prevent runaway. For example: by free-radical scavenger injection or by poisoning a catalyst.  Dumping the reaction into a quenching fluid.

Question 11

Exothermic chemical processes rely on efficient control of temperature and pressure to prevent the phenomenon of ‘runaway reaction’ (thermal runaway) when mixing chemicals in a reactor. Outline the methods used to control temperature and pressure in such circumstances. 10 marks

Answer 11

An important method to control temperature and pressure would be the installation of high integrity temperature detection linked to the cooling and reactant addition systems with pressure rise detection linked to cooling, venting or auto shut-down. Consideration could also be given to the external cooling of the reactor by chilled water jacketing, an air cooled heat exchanger or the use of material with high heat conductivity in the construction of the reactor or internal cooling by the use of water or fluid refrigerant cooled coils. A further method would involve the control of the reactant by pre-chilling it, limiting the rate of its addition to the reactor, controlling the subsequent reaction by high efficiency temperature detection loops and the depth and level of reaction by pocketed thermal probes. The prevention of reactant bulk insulation can be prevented by efficient mixing with a mechanical stirrer while it would be advisable to locate the reactor away from external sources of heat and to introduce a system of regular internal cleaning to prevent the build-up of insulating residues.

Question 12

The primary legislation applying to the control of substances that can cause fires and explosions in the workplace is

Answer 12

the Dangerous Substances and Explosive Atmospheres Regulations 2002 (DSEAR).

Question 13

Dangerous substances may be liquids, gases, vapours or dusts and include: 3

Answer 13

 Substances or preparations classified as explosive, oxidising, extremely flammable, highly flammable, or flammable under the current CHIP Regulations, or CLP Regulation.  Any kind of dust that when spread in air to form a cloud (i.e. form an explosive atmosphere), can explode.  Any other substances, or mixtures of substances which, because of their physical properties and the way in which they are present in the workplace, create a risk to safety from fires and explosions, but which may not be covered by CHIP. For example high flashpoint liquids present in the workplace at elevated temperatures.

Question 14

Overview of the Dangerous Substances and Explosive Atmospheres Regulations 2002 (DSEAR)

Answer 14

Regulation 5: Risk assessment Regulation 6: Elimination or reduction of risks from dangerous substances Regulation 7: Places where explosive atmospheres may occur Regulation 8: Arrangements to deal with accidents, incidents and emergencies Regulation 9: Information, instruction and training Regulation 10: Identification of hazardous contents of containers and pipes Regulation 11: Duty of co-ordination

Question 15

Hazard identification (determination of the presence of dangerous substances) requires consideration of the following three variables:

Answer 15

(1) The substance or preparation is classified under the Chemicals (Hazard Information and Packaging for Supply) Regulations (CHIP) as: explosive, oxidising, extremely flammable, highly flammable or flammable. (2) The physical and chemical properties of the substance or preparation, and the work processes involved, creates a potential for fire, explosion or similar energetic (energy releasing) event. (3) The work activity involves the creation or handling of potentially combustible or explosive dusts.

Question 16

factors that should be taken into account when undertaking a dangerous substances risk assessment.

Answer 16

The hazardous properties of the substance Supplier safety information The circumstances of the work Particular activities, which may present a high level of riskThe likely presence of explosive atmospheres and the need for hazardous area classificationSize of release Temperature and pressure VentilationExtent of zones

Question 17

Bulk storage of flammable liquids Bulk storage refers to tanks with a capacity in excess of

Answer 17

1000 litres.

Question 18

Control measures for the storage of flammable liquids can be summarised by the acronym

Answer 18

VICESVentilationIgnition sources (control of)ContainmentExchange (substitution)Separation

Question 19

The storage of flammable liquids in IBCs in warehouses poses particular problems, notably: 3

Answer 19

 They are prone to early failure in a fire, allowing leaked contents to feed the fire.  They degrade over time, and so are prone to leaks when used for long term storage.  They are generally made of cheap, non-conductive plastic, so when non-conducting flammable contents splash around in transit the surface becomes electrostatically charged.

Question 20

Outline the key safety features of a facility that is to be used for the storage of highly flammable solvents in 200 litre drums 10 marks

Answer 20

Key safety features include:  bunding to contain spills, including a facility to collect and dispose of spillages  the building to be erected on an impermeable base with an adequate separation distance from other buildings and constructed of fire resistant materials with a light weight roof or blast panels  a facility for the segregation of materials  adequate access and egress including a ramp to facilitate the handling of drums  the provision of high/low ventilation and of sprinklers/ fire extinguishers to be used in the event of an emergency  the clearance of vegetation round the storage area  security features such as the provision of locks and warning signs.

Question 21

A company intends to build a flammable solvent distribution facility as part of its chemical manufacturing premises. The facility will include three 40,000 litre storage tanks that are pump filled via pipelines from batch reactors. The storage tanks supply an outdoor road tanker filling system as well as a small container filling facility located inside a warehouse. Outline the design features that should be adopted to prevent or minimise leakage and spills from the proposed installation. 10 marks

Answer 21

Design features to be adopted include:  Ensuring the pipework is of all weld construction with the minimum number of flanges with a suitably corrosion resistant material used in its construction.  The pipework should be routed along a containment trench or should be double skinned and further protected by robust barriers at vulnerable points near to roads or railways.  The storage tanks should be in a bunded area capable of containing 110% of the contents of all three tanks with the base and walls of the bund being impervious and free from breaches for services.  The tanks should be fitted with high level detectors interlocked with a pump cut out with the pumps themselves being situated within bunds with interceptor facility. The road tanker stands should be located in an intercepted shallow bund with snap shut connections on the tanker filling lines.  In the warehouse the small keg filling lance should be fitted with a dead man’s handle together with a supply cut out when the expected weight is registered on a load cell.  Finally all valves in the installation should be designed to prevent leaks such as for example with a double mechanical seal with means for preventing them being left in a partially open state.

Question 22

There are various approaches to unloading road tankers: 3

Answer 22

 Product transfer by gravity - if the storage tank is located at a lower level than the tanker.  Product transfer using a pump - care must be taken to avoid the implosion of the tanker.  Product transfer under positive air pressure - pneumatic or ‘blowing’, provided by the truck compressor or at the customer facility.

Question 23

Precautions should be taken against spillage due to vehicles being moved with the hoses still connected or arms still in place. This can be done by

Answer 23

providing barriers across the tanker stance, brake interlocks on the vehicle or breakaway couplings on the hose connections.

Question 24

Precautions against static electricity should be provided, including: 3

Answer 24

 an earthing connection for the vehicle  electrically conducting hoses  elimination of splash filling, by ensuring that the fill pipe in a top loading operation reaches to the bottom of the tank or tanker, for example.

Question 25

A TREMcard is

Answer 25

a four page document that is held in the cab of a dangerous goods delivery vehicle. A TREMcard (transport emergency card) gives detailed written instructions to the driver in case a dangerous goods load is involved in a road traffic accident (RTA).

Question 26

The TREMCard contains the following information: 9

Answer 26

 Load description  Nature of the danger  Personal protective equipment  Intervention equipment  General action by the driver  Additional / specific actions by the driver  Driver actions in case of fire  First aid  Supplementary information for the emergency services.

Question 27

For road tank transport operations and carriage in bulk internal to the UK there are two forms of placarding/plate marking permitted.

Answer 27

(1) GB registered road and rail vehicles on domestic journeys must display the Emergency Action (Hazchem) Code. (2) All other vehicles must display the Hazard Identification Number (HIN) (Kemler code).

Question 28

Interpreting the Emergency Action Code (EAC) The first character of the EAC determines the

Answer 28

fire-fighting extinguishing medium. 1 = coarse water spray 2 = fine water spray 3 = normal foam, i.e. protein based foam that is not alcohol resistant 4 = dry agent (water must not be allowed to come into contact with the substance)

Question 29

The second character of the EAC indicates

Answer 29

appropriate personal protection. For the letters S, T, Y or Z, normal fire-fighting clothing to the appropriate BS EN’s is appropriate,

Question 30

UN Dangerous Substance Classes

Answer 30

1 Explosives 2 Gases 3 Flammable liquid 4 Flammable solids 5 Oxidising substances 6 Toxic substances 7 Radioactive material 8 Corrosive substances 9 Miscellaneous dangerous goods

Question 31

Exam question As part of its water treatment system, a manufacturer is to install a plant suitable for the reception and storage of sulphuric acid and caustic soda, both of which will be delivered in bulk tankers. Both of these substances are highly corrosive and can react together violently. Outline the safety provisions required for: (a) the design 10 (b) the operation 6 (c) the maintenance of the proposed storage facility. 4 marks

Answer 31

(a) Under the design issues, answers were expected to include:  the need for the storage tanks and pipe work to be constructed of suitable chemical resistant material with organic materials such as wood being avoided in or near to the acid installation  the delivery inlets for each substance to have different connector types to prevent connection being made to the wrong tank  the positioning of the storage tanks in separate bunds with the bunds being capable of holding the entire contents of the tanks plus 10% with protection being provided against weather conditions such as trace heating on caustic soda lines  the pipe work to be colour coded to British Standards  the fitting of level indicators and high level alarms to prevent overfilling  interlocked with a cut-out pump on high level  the provision of good vehicle access including a hard standing for tankers with facilities for spill containment and drench showers  the provision of a good standard of lighting and measures to avoid tankers  driving off when still connected to the delivery system. (b) Operational issues should have included:  the introduction of a safe system of work agreed with the material suppliers requiring a two man operation  emergency procedures to deal with spillages and to protect against sewer or drain contamination  the provision and maintenance of a contingency supply of neutralising and absorbent materials and water  providing training for the personnel involved including tanker drivers in the risks associated with the operation and the control measures to be followed  the provision of personal protective equipment such as chemical suits, chemical resistant gloves and full face protection.

Question 32

The DGSA has three main duties:

Answer 32

(1) Monitoring compliance with rules governing transport of dangerous goods. (2) Advising their business on the transport of dangerous goods. (3) Preparing an annual report to management on the business’ activities in the transport of dangerous goods.

Question 33

A road haulage company intends to transport significant quantities of bulk flammable materials in tank containers. They are advised that they require a ‘Dangerous Goods Safety Adviser’. (a) Outline the criteria under which a ‘Dangerous Goods Safety Adviser’ must be appointed. 4 (b) Outline the particular duties of a ‘Dangerous Goods Safety Adviser’. 6 (c) Outline the procedures and practices that a ‘Dangerous Goods Safety Adviser’ should be monitoring in the event that the tender is successful. 10 marks

Answer 33

(a) Many involved in the business of carriage of dangerous goods should appoint a ‘Dangerous Goods Safety Adviser’. Exemptions are for those who carry small or limited loads and also for those where the carriage of dangerous goods is not the main activity, although they may still carry dangerous goods as part of their business (constructions companies taking dangerous goods to and from site, for example). Dangerous Goods Safety Advisers must obtain a vocational training certificate, having completed relevant training and passed an exam. The VTC is valid for 5 years. (b) Duties of a DGSA include:  advising their business on the transport of dangerous goods  monitor compliance with rules governing the transport of dangerous goods  preparing an annual report to management about the business activities involving the transport of dangerous goods  monitoring procedures and safety measures  investigating and compiling reports on incidents, accidents and emergencies. (c) Procedures and practices to be monitored by the DGSA include:  Vehicle purchasing procedures (ensuring new vehicles are suitable for contents to be transported).  Dangerous goods are properly identified and the correct placards are in place.  Selection of suitable, competent sub-contractors.  Maintaining and inspecting equipment to ensure it is in good, safe working order.  Ensuring that all necessary documents (Tremcard) and emergency equipment is in situ.  Employee training and record keeping.  Planning of on-going training to maintain risk awareness.  Provision of detailed operational procedures and instructions.  Accident investigation arrangements / implementation of measures to avoid recurrence.  Loading / unloading of dangerous goods.  Emergency procedures.  Security plans.  Document control and retention.

Question 34

Any electrical equipment that may be exposed to the following should be constructed and/or protected as necessary to prevent any danger arising from such exposure: 4

Answer 34

 Mechanical damage.  The effects of the weather, natural hazards, temperature or pressure.  The effects of wet, dirty, dusty or corrosive conditions.  Any flammable or explosive substance, including dusts, vapours or gases.

Question 35

Ingress protection (IP) ratings are developed by the European Committee for Electro Technical Standardisation (CENELEC), and provide an internationally recognised system of classifying: 2

Answer 35

 the degree of protection provided by enclosures against the ingress of solid objects and moisture  the protection afforded against contact with any live parts within the enclosure for all types of electrical equipment.

Question 36

The IP rating normally has two (or three) numbers:

Answer 36

(a) Protection from solid objects or materials (b) Protection from liquids (water) (c) Protection against mechanical impacts (commonly omitted, the third number is not a part of BS EN 60529:1992 +A2: 2013 Degrees of protection provided by enclosures (IP code)).

Question 37

Electrical and non-electrical equipment and installations in potentially explosive atmospheres must be specially designed and constructed so that the risks of ignition are eliminated or reduced. Techniques to do this include: 3

Answer 37

 Sealing electrical equipment so that the explosive atmosphere cannot come into contact with electrical components.  Reducing the power of electrical equipment.  De-energising electrical equipment where a fault or an explosive atmosphere is detected.

Question 38

Equipment and protective systems intended for use in potentially explosive atmospheres are grouped, based on ignition energy, as:

Answer 38

 Group I – Mining: methane (firedamp), for example, and/or combustible dust. Note: Group I is not on the NEBOSH National Diploma syllabus.  Group II – Surface industry which is sub-categorised into: IIA (propane, for example), IIB (ethylene, for example), and IIC (hydrogen, for example). A IIC gas poses a much higher risk than IIA or IIB and is much easier to ignite. Note: Equipment suitable for use with a IIC gas will also be suitable for use with IIA and IIB.

Question 39

Hazardous areas are defined in DSEAR as:

Answer 39

… any place in which an explosive atmosphere may occur in quantities such as to require special precautions to protect the safety of workers.

Question 40

Hazardous areas are classified into zones based on an assessment of the frequency of the occurrence and duration of an explosive gas atmosphere, as follows:

Answer 40

Zone 0 An area in which an explosive gas atmosphere is present continuously or for long periods. Zone 1 An area in which an explosive gas atmosphere is likely to occur in normal operation. Zone 2 An area in which an explosive gas atmosphere is not likely to occur in normal operation and, if it occurs, will only exist for a short time.

Question 41

Dust clouds in the explosive region (above the minimum explosive concentration) are categorised into 3 zones, based upon the grade of release:

Answer 41

Zone 20 An area in which combustible dust, as a cloud, is present continuously or frequently, during normal operation, in sufficient quantity to be capable of producing an explosive concentration of combustible dust in a mixture with air. Zone 21 An area, in which combustible dust, as a cloud, is occasionally present during normal operation, in a sufficient quantity to be capable of producing an explosive concentration of combustible dust in a mixture with air. Zone 22 An area, in which combustible dust, as a cloud, may occur infrequently and persist for only a short period, or in which accumulations of layers of combustible dust may give rise to an explosive concentration of combustible dust in a mixture with air.

Question 42

Ex p (purge/ pressurised protection) is intended to

Answer 42

prevent the explosive atmosphere from contacting the ignition source.

Question 43

Purge protection involves

Answer 43

maintenance of a constant flow of air (or an inert gas) to dilute and take away any potentially explosive atmosphere.

Question 44

Pressure protection ensures that

Answer 44

the pressure inside an enclosure is sufficient to prevent the entrance of a flammable gas, vapour, dust, or fibre and prevent a possible ignition.

Question 45

Emergency plans should focus on the following three key groupings of people:

Answer 45

 Vulnerable people, who are less able to help themselves in an emergency than self-reliant people.  Victims of an emergency, including those suffering bereavement or the anxiety of not knowing what has happened.  Responder personnel, whose welfare should be given due consideration in the planning process.

Question 46

Procedures for serious and imminent danger and for danger areas Every employer is required to: 3

Answer 46

 Have appropriate procedures in place to be followed in the event of serious and imminent danger to persons at work in his undertaking.  Have a sufficient number of competent persons to implement the procedures and effect the safe evacuation from premises of persons at work in his undertaking.  Ensure that employees do not have access to danger areas (access restricted on grounds of health and safety) unless they have received adequate health and safety instruction.

Question 47

An establishment is subject to CoMAH if

Answer 47

it produces, uses, handles or stores on site any dangerous substance specified in Schedule 1 of the Regulations, above a qualifying quantity. Part 1 of Schedule 1 lists named substances and thresholds; Part 2 lists thresholds for other substances that are not named but are classified as

Question 48

The on-site emergency plan (OnSEP) should address the operator’s complete response to a major accident involving dangerous substances on the establishment. It should: 3

Answer 48

 Concentrate on those events identified as being most likely to occur.  Be proportional to the probability of the accident occurring.  Have the flexibility to allow it to be extended and increased to deal with unlikely consequences which may arise through combinations of accidental circumstances and weather conditions.

Question 49

On-site emergency plan (OnSEP)The plan should detail: 4

Answer 49

 How people on site (including contractors and visitors) are prepared for an emergency.  How to control, contain and mitigate the effects of any emergency.  How to summon assistance from other organisations off site.  How those who work on the establishment will assist any external organisations, including assisting with off-site mitigatory action.

Question 50

The OnSEP should identify nominated key personnel (by name or by job title) with contact numbers. The key personnel are 2

Answer 50

the site incident controller and site main controller.

Question 51

Information to be included in on-site emergency plan (OnSEP) 7

Answer 51

(1) Names or positions of persons authorised to set emergency procedures in motion(2) Name or position of the person with responsibility for liaison with the local authority (3) a description of the action which should be taken to control the conditions or events and to limit their consequences(4) Arrangements for limiting the risks to persons on site(5) Arrangements for providing early warning of the incident (6) Arrangements for training staff in the duties they will be expected to perform(7) Arrangements for providing assistance with off-site mitigatory action

Question 52

Content of an off-site emergency plan (OffSEP)

Answer 52

Authorised persons Early warning Co-ordinating resources On-site mitigation Off-site mitigation Public information Trans-boundary incidents

Question 53

Regulation 11 of CoMAH requires that at least once every ? years the on-site and the off-site emergency plans for a top-tier CoMAH establishment should be reviewed, and where necessary revised.

Answer 53

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