Safety in. Cement Industry

Size: px

Start display at page:

Download "Safety in. Cement Industry"

Melina Booker
5 years ago
Views:

1 Safety in Cement Industry

Safety in Cement Industry Explosion Risk Assessments Explosions constitute a major issue in the cement industry not only due to the equipment required for handling solid fuels (mills, bagfilters,

2 Safety in Cement Industry Explosion Risk Assessments Explosions constitute a major issue in the cement industry not only due to the equipment required for handling solid fuels (mills, bagfilters, bucket elevators etc.) but also due to the nature of explosion hazards. These hazards include fuel self-ignition, carbon monoxide due to smouldering, explosion propagation within closed systems etc. Therefore, an explosion protection study (ATEX) must always take into account the inherent explosion prevention and protection principles of the cement industry in conjunction with the specific characteristics of the fuel used and the installation itself. Some of these characteristics include fuel mixture, volatile and moisture content, mill type, safety interlocks, inertization, explosion relief devices etc. With this approach, site-specific and fuel-specific safeguards can be proposed. For instance, by setting the coal grinding process parameters (e.g. oxygen and temperature limits) as per volatile content, explosion risk can be significantly reduced. These safeguards will make hazardous area classification and risk assessment a powerful tool for increasing the safety level of liquid, gas and solid fuel installations. Safe Handling of Alternative Fuels In recent years, cement industry has faced the challenge to adapt to the ever-growing demand of biomass as alternative energy or as an environmental friendlier fuel. From wood pellets to refuse derived fuel (RDF) and dried sewage sludge (DSS), each solid fuel has unique characteristics that classify it as high-, medium- and low-risk in terms of fire and explosion. Alternative fuels are prone to self-oxidation and at the same time fire incidents have been proved very hard to extinguish. Therefore, it is of great importance, that storage facilities are equipped with reliable and well-designed early detection and effective fire suppression systems based on a comprehensive fire protection study. Ergonomia s experienced engineers can provide consulting services for inherently-safe design of new alternative fuel installations and assess existing installations for their suitability to handle alternative fuels, based on material characteristics, such as granulometry, calorific value, moisture and ash content, after observation and evaluation of the actual handling process on site and/or laboratory analysis. A thorough explosion risk assessment, that covers every step of the process, will result in certain technical solutions and organizational measures, proposed to effectively address identified hazards and help the facility make a safe transition to the alternative energy era.

Machinery Safety M achinery can cause injuries or even deaths in many ways such as severing or puncturing by sharp edges, crushing between moving parts, drawing in by rollers, belts and pulley drives

3 Machinery Safety M achinery can cause injuries or even deaths in many ways such as severing or puncturing by sharp edges, crushing between moving parts, drawing in by rollers, belts and pulley drives etc. Risk prioritization following a comprehensive machinery safety audit and risk assessment, as per international standards (e.g. ISO 12100), can help management make decisions regarding suitable machine guarding, interlocks and their required performance levels (PLr) as per ISO In addition, organizational measures can be suggested to effectively handle residual risks. The Machinery Safety Certified Engineers of Ergonomia s multidisciplinary industrial safety department have the necessary knowledge and expertise to identify and assess all risks and propose feasible technical solutions, that will effectively protect operators without hindering their task and therefore avoiding interlock by-passing Electrical Safety Gap Assessments E lectrical safety assessments involve identification, analysis and evaluation of all potential risks of electrical installations within industrial facilities. Ergonomia s electrical and automation engineers are able to deliver electrical safety reviews and gap analysis, addressing a wide spectrum of areas such as: Hazardous Areas Electrical Inspections as per IEC (CompEx certified) Machinery Electrical Compliance (IEC 60204) Arc Flash Assessment (IEEE 1584) Visual and Infrared Inspections The risk of each finding is assessed, prioritized and presented in individual inspection sheets in order to implement a risk-based remedial approach.

4 Human Reliability Assessment T he main contributing factor in the majority of accidents and incidents in the industry is human error, thus, setting human performance and behavioural based safety (BBS) as key factors. Through a Human Reliability Assessment, measures can be taken to reduce the likelihood of errors occurring within a system and therefore to lead to an improvement in the overall level of safety. Indicative methods implemented by our Industrial Safety Department include the following: Hazard Identification Techniques (Human HAZOP, Technique for Human Error Assessment, THEA, etc.) Expert Judgement Techniques (Absolute Probability Judgment, APJ, etc.) Bow Tie Method in Human Reliability Assessment. Occupational Health & Safety J ob Safety Analysis is a powerful tool for keeping workplaces safer and associated costs from Lost Time Injury (LTI) down. By observing a worker actually performing the job, an occupational risk assessment can be prepared complemented by measurements of physical and chemical agents, when necessary. In this way, assessment of personal exposure according to CSI guidelines can be conducted and an action plan can be drawn based on risk prioritization in order to proactively address specific workplace hazards such as: Slips, trips and falls from height Warehouse safety assessment (racks, forklifts, cranes, fire protection) Confined space entry (e.g. silos etc.) Waste handling and storage related hazards Exposure to chemical substances (dust, respirable crystalline silica, etc.) Exposure to physical agents (vibration, noise etc.) Manual handling, repetitive tasks and poor workstation design hazards

SNCR Risk Analysis More and more cement plants worldwide are choosing the Selective Non-Catalytic Reduction (SNCR) as a cost-effective method to meet the legislative demand of reducing NOx emission

If ammonia or ammonia solution is chosen to be the reducing agent, there are certain hazards that need to be addressed in order to effectively manage explosion, toxic release, occupational and

5 SNCR Risk Analysis More and more cement plants worldwide are choosing the Selective Non-Catalytic Reduction (SNCR) as a cost-effective method to meet the legislative demand of reducing NOx emission from combustion installations that burn coal, biomass and waste. If ammonia or ammonia solution is chosen to be the reducing agent, there are certain hazards that need to be addressed in order to effectively manage explosion, toxic release, occupational and environmental risks. In this context, an SNCR Risk Analysis can consist of: As-built HAZOP & human HAZOP (PHA-pro software) Explosion Protection Verification (ATEX) Consequence Modelling (EFFECTS software) Quantitative Risk Assessment (RISKCURVES software) Ammonia Hazards and Emergency Procedure Training Why Ergonomia The comparative advantage of Ergonomia is the interdisciplinary approach. More than 15 skilled engineers of various disciplines and certified in relevant fields (NEBOSH, ATEX, Machinery Safety, Functional Safety, HAZOP, BBS) have been trained in the use of appropriate software and have conducted numerous risk assessments implementing a comprehensive approach. Ergonomia s Industrial Safety Department has managed to help cement industries worldwide successfully comply with legal requirements enhancing their overall safety level in the most cost-efficient way. Risk Management with Bow Ties Bow Tie diagram offers visualisation of hazards in order to facilitate comprehension of existing measures that A cover the whole range of activity of a cement plant and relate to occupational hazards, explosion hazards, risks to quality, environment, etc. At the same time, it provides the possibility to depict an overview of the safety management system and to identify those parts, that need further improvement through specific risk based safety audits. partners with

S e r v i c e s Explosion Protection Studies (ATEX) Safe Handling of Alternative

Protection Studies Risk Management with Bow Ties Occupational Safety & Health Risk

Revalidating) Hazardous Area Electrical Inspection (CompEx Certified) Electrical

Procedures (BBS) Industrial Lighting Studies 53-57, Karaoli Michail str., GR-142 31 N.

6 S e r v i c e s Explosion Protection Studies (ATEX) Safe Handling of Alternative Fuels Machinery Safety Assessments (Machinery Safety Certified Engineers) Fire Protection Studies Risk Management with Bow Ties Occupational Safety & Health Risk Assessments Quantitative Risk Analysis (QRA) HAZOP & LOPA (Design, As-built & Revalidating) Hazardous Area Electrical Inspection (CompEx Certified) Electrical Safety Assessments (Arc Flash, EN 60204) Human Error Analysis in Safety Critical Procedures (BBS) Industrial Lighting Studies 53-57, Karaoli Michail str., GR N. Ionia - Attiki, GREECE industrial@ergonomia.gr INDUSTRIAL SAFETY