Chapter 2 Quality Assurance PDF

Summary

This document provides an overview of quality control and assurance in food production. It details different aspects of quality management from raw material inspection to finished product controls and identifies various activities within the food sector.

Full Transcript

CHAPTER 2: QUALITY
ASSURANCE SYSTEM
QUALITY CONTROL
Quality control

Control = a basic and important activity in food
quality management.
Without control, all other food quality
management (FQM) functions, especially
improvement and assurance, would have
hardly any effect.
Control reduces variation.  less scrap and
rework, fewer line stoppages, greater planning
efficiencies, happier customers, repeat sales.
OBJECTIVE: To produce a product that
complies with targets within set tolerances.
Quality control
Once product has been
designed & developed, the
system must be controlled
during manufacturing.
The process of inspecting
products to ensure that they
are meet the required quality
standards.
Control = inspect + taking
corrective actions when the
performance is not in
compliance with specifications
 Quality control is described as
the ongoing process of
evaluating performance and
taking corrective action when
necessary (Evans & Lindsay,
1996).
Involve both technological and
management elements.
Where qc is done?

When raw materials are Whilst products are going When process are finished –
received prior entering through the production takes place before product are
production. (at the receipt) process. (during processing) dispatched to customers.
(prior to distribution)

3 major points in food production
Quality control basic activities

Measuring or analysing product properties
or process parameters to assess the actual
product or process performance.

Comparing the measured value or data
against the standard with the specified
tolerances.

Evaluating the deviations to determine in
which direction the product or process
must be corrected and by how much.

Taking corrective actions to bring the
product or production process back “under
control”.
4 Basic elements of quality control;
Measure the process parameter
Measuring Eg; Temperature

Compared the measured value with the
norm with specified tolerence
Comparing Eg: temperature must be 25 ± 2 ℃

Determines the corrective action
Evaluating Eg; the thermostat

The actual action is carried out
Corrective Eg: the heating system that is turned up
action and down
 Table 2.1 Examples of measuring activities specific to the quality control function.
Type of Overall technological functions
activities
Supply (& storage) Production (i.e. Distribution (&
transformation) storage)
People Measuring storage Visual inspection of Measuring
activities room temperature products after a temperature in
Taking samples for particular processing distribution rooms
analysis of hygienic step (e.g. meat parts Inspecting cleaning
conditions after slaughtering, conditions in
Inspecting incoming checking fecal spots distribution rooms
products on on eviscerated Checking labels and
irregularities poultry) packaging integrity
Taking samples of Visual inspection of during storage
incoming materials for products during Sampling and
analysis of microbial processing (e.g. cheese analysis/ testing of
contamination ripening process, final product quality
brown colouring in Visual inspection of
French fries end products (e.g.
preparation) inspection of
packaging and
appearance of meals
for catering
 Table 2.1 Examples of measuring activities specific to the quality control function.
Type of Overall technological functions
activities
Supply (& storage) Production (i.e. Distribution (&
transformation) storage)
Process Automated inspection Automated measuring Online measurement
equipment of empty bottles for of process parameters of temperature during
activities beer production like: transport
Automated inspection  Pasteurization time
of water supply and temperature in a
milk production line
 Oven temperature and
conveyer belt speed in
a baking line
 Volume checking in a
filling line
 Packaging leakage
sensors
Incoming materials Production process (Intermediate) product

Taking corrective action Measuring product properties
and process parameters

Evaluating the Comparing to Specifications (norm
extent of standard and the and tolerances)
deviation tolerances

Figure 2.1: The basic activities of a control circle
Variations in quality control

1) Raw materials 2) Methods and 3) People 4) Machines /
measurements equipment
used:
Sampling (taking the Personnel hygiene Microbial
right number of Shift work can form contamination due
samples at the a great source of to improper cleaning
appropriate variation
location).
Mistakes due to
Sample preparation misunderstanding
is crucial and results
in variation.
Quality control activities
Three basic control process:
Input, the supply control
Transformation, the production control
Output, the distribution control

SUPPLY PRODUCTION DISTRIBUTION

Incoming material Distribution control
PRODUCT Product control
control Service control
CONTROL In storage control
In storage control Complaint service

Distribution
Process control
Supplier evaluation channel control
RESOURCE Process capability
Supplier Customer
CONTROL analysis
relationship relationships
Equipment control
Market analysis
 Supply Control
Receiving request: - the purchase
department receives internal request,
the description, design, quality &
quantity, desired delivery dates
Selecting suppliers: Identify a capable
supplier, rating information.
Quality Placing orders & monitoring delivery
orders during transport : follow up
make sure follow schedules,
control appropriate quantity.
Receiving supplies: check incoming
activities shipments for quality & quantity,
received in satisfactory condition, may
need to be returned or replacement
subjected to detailed inspection,
shipment within the right
temperature.
Storing supplies: Goods must be kept
in an appropriate storage conditions
(temperature control, dry, dark etc).
Supply control and its product-
process and resource control cycles
Typical factors a company could consider in
supplier evaluation
The most obvious factor, along with any discounts offered although
Price often it is not the most important one.

The quality reputation of the supplier? What quality assurance system
Quality does the supplier have?

Services Can replace any defective items? Fast response to complaints?

Location Impact the shipping time, transportation cost and response time.

Emergent cases Sometimes quality claims due to origin can play a role.

When customer demands fluctuate (or seasonal), guarantees are
Inventory policy of supplier needed about on-time deliveries.

The ability of supplier to respond to changes in demands and to accept
Flexibility design changes can be important considerations.
 Production Control
How much to inspect, how often, & at
what points in the process inspection
should occur
Look for safety risk in food production,
Quality process conditions are controlled
intensively, e.g intensive cleaning &
control disinfection.
Check the raw materials and finished
activities products, take corrective action if
necessary.
Equipment evaluation: cleaning,
maintenance, redesign & modification
to improve reliability and in food
industry, hygiene.
 Steps in the product control process
Planning production
Planning Considering about the production equipment (availability, quality performance, costs) and the
customer orders into a production schedule.
Time pressure makes it impossible to meet quality standards.

Placing order Placing production order
The production schedule is sent to the production/ manufacturing department.

Quality requirements Informing on quality requirements
A detailed specification of customer requirements and/or specific company and legal
requirements connected to the customer orders.

Transporting materials
Transporting
Internal transport of raw materials, ingredients, packaging materials, process aids, etc. needed
for the food production process.

Producing the customer order
Producing order
A sequence of technological process activities up to packaging and transporting to the storage
facilities.

Storing Storing the products
Stored until batch has been inspected and can be released.
Production control and its product-
process and resource control cycles
 Distribution Control
Managing the flow from manufacturers
to customers, including the storage and
transportation of products.
1) selling, receiving orders: Delivery
time, price, quality specifications, annual
contracts
Quality 2) transportation and storage:
Temperature, humidity conditions,
hygenic conditions need to be
control monitored along the process.
3) Buying & consumer usage: Describe
activities the retailers (storage). Consumer usage
is restricted to information on package,
leaflets/magazine.
4) Complaints, market information &
analysis: use this information for quality
improvement. Short time basis; when
consumer problems need to be solved
immediately. Long term; information for
product re-design.
Quality Assurance
Quality assurance is an activity or set
of activities performed to ensure
that the food quality and food safety
requirements of a food are fulfilled.
An approach that tries to ensure
quality is built in to a product or
service
https://youtu.be/QDn6TnOM46s?feature=shared
Another definition for Quality
assurance:
The process that ENSURE production quality
meets the requirements of customers

QA:Prevent defects in products & services
QC: Detect defects & correcting them
 To assure the requirements are achieved,
with its incoming materials (raw
material/input), technological process (i.e
transformation/processing) and final
Aims of QA products (Output)

- The ability to determine critical points in
products, processes and the production
environments.
 To guarantee that quality requirements, such
as product safety, quality, integrity and
service are fulfilled by the quality
management systems.

ISO9001 defines a quality management
Aims of QA system (QMS) as a set of interrelated or
interacting elements that organisations use
to formulate quality policies and quality
objectives.
- elements: structures, programmes,
agreements, contracts, documents, records
etc
We re-define the
term QAS as
Food industry quality systems is
an integrated set of documented
food quality and food safety
activities, with clearly
established inter-relationships
among the various activities.

The objective of quality system
is to provide a food company
with the capability to produce a
food that fulfills all quality and
safety requirements
  QA adds value by having a significant
impact on the reputation of your brand.
Simply said, dependable Quality Assurance
systems assist in communicating to the
customer that every effort is being made to
ensure that the product is of good quality
and meets the project requirements.

 QA systems in the food industry are much
WHY QAS more extensive in scope than quality control
programs.
is
They include :
needed? ❖inspection, testing and monitoring activities
of QC programs
❖Additional activities that are devoted to
prevention of food safety hazards and quality
defects.
  are intended to provide confidence to a food
company’s management, its customers and to
government regulatory agencies that the
company is capable of meeting the food
quality and food safety requirements.

 Examples of QAS that normally used in food
Quality supply systems are: GMP? GHP ?

Assurance  include documents that describe operations
and activities that directly related to food
systems quality and food safety.

 example : ISO 9000:1994 quality assurance
system standard which was replaced by the
ISO 9001:2000
Quality Assurance System
 QA is partly a planning activity and partly a control activity
 Planning activity: defining company-specific assurance objectives,
translating external requirements into the quality management
programme, validating the effectiveness and implementing the
programme.
 Control activity: collecting, analysing and evaluating information and
data from the operational quality management system through
verification, reviewing and audits.

the safety
(hazard-free
products)
being the
quality of
food
required by
law.
 Quality Assurance Activities

1) Defining assurance objectives of a 2) Translating stakeholder requirements
company into the quality management programme
Stakeholders: government, retailer, customers
How? Implementing programme such as GMP, HACCP,
ISO22000, FSSC22000.
Outcome: A quality manual = a document that includes
policies, rules and procedures for achieving and assuring
quality and safety.
 3) Validating the effectiveness of the quality
management programme
to check the effectiveness of crucial control
measures;
Will the programme and measures lead to
Quality the desired results?
Investigating the effectiveness of conditions
Assurance set for inactivation processes (like
pasteurization, sterilization) or the cleaning
Activities program by testing the efficacy of cleaning
agents and disinfectants for use.
Validation should occur before the actual quality
and safety control measures are implemented in
practice
 4) Implementing the programme in an operational
quality management system
Organising meetings to inform personnel about
the planning of the implementation and the
Quality content
Checking and adapting or investing in necessary
Assurance facilities, equipment and documentation and
record-keeping system.

Activities Checking existing and (re) writing (new) standard
operating procedures and work instructions
Training of personnel to refresh knowledge, skills
and awareness.
 5) Verifying the actual performance of the quality management
system
Checking whether all activities/conditions meet the
requirements specified in the quality management
programme.
Verification activities must be planned, performed on a
regular basis, supported by scientific evidence or
Quality experimental data.
Activities are:

Assurance Reviewing of records from equipment calibrations to
verify measuring equipment performance
Trend analysis of product and process performance
Activities records
Checking of training records of personnel
Performing chemical and microbial analyses of
products and ingredients to verify effectiveness of
process at critical steps, or of incoming material
control, or of cleaning and sanitation programmes.
 6) Identifying and implementing
corrective actions and
Quality improvements
Assurance Verification activities, periodic
reviews and internal/external
Activities audit reports  serve as a basis
for defining corrective actions or
improvement programmes.
The major functions of the QA
Department are:

1. Compliance with specifications
2. Test procedures
3. Sampling schedules
4. Records and reporting
5. Trouble shooting
6. Special problems
1. Compliance with specifications

Legal requirements, industry standards,
internal company standards, shelf-life tests,
customers' specifications.
Eg: Verifying by audit that :
⮚ the quality system requirements are being
followed
activity have done in a systematic manner
⮚there is objective evidence available to confirm
the activity
2. Test procedures
Testing of raw materials,
finished products, and in-
process tests.
3. Sampling schedules
Utilize a suitable sampling
schedule to maximize the
probability of detection while
minimizing workload.
4. Records and reporting
Maintain all QA records so that
customer complaints and legal
problems can be dealt with.
Eg: Corrective action
Action to eliminate the cause of
detected NCR or other
undesirable situation
5. Trouble shooting
Solve various problems caused by poor
quality raw materials, erratic
(inconsistent) supplies and
malfunctioning process equipment;
and investigate reasons for poor
quality product to avoid repetition
6. Special problems
Customer complaints, production
problems, personnel training, short
courses, etc.
What are the different between QA and QC?
Quality control Quality assurance (QAS)

Focus on outputs Focused on process

Achieved by sampling and checking Achieved by improving production
(inspection) process

Targeted at production activities Targeted at the whole business

Emphasizes required standard Emphasizes the customer

Defective products are inspected out Quality is built into the product
QA:Prevent defects in products & services
QC: Detect defects & correcting them
A Day In The Life - Quality Manager
FOOD
QUALITY
AND
FOOD
SAFETY
 obligatory systems have been established to assure food safety,
and are subsequently called “safety assurance systems”. These
include Good Hygiene Practices (GHP), Good Manufacturing
Practices (GMP) and Hazard Analysis and Critical Control Point
(HACCP).
Quality Assurance and Management
Systems (QMS)
Quality Assurance Control Points
(QACP) is one of the quality
assurance systems in food
production, created based on the
HACCP concept.
In case of HACCP, Critical
Control Points (eliminating
hazards), parameters and their
critical limits are determined3,
while in QACP – Control Points
(quality assurance, not safety),
parameters and their critical
values4.
Likewise in HACCP, QACP is
unique for each company and
must be introduced individually
for each enterprise and
After implementation of
GMP/GHP, HACCP and
QACP systems, the next step
could be to implement other
quality systems, e.g. ISO-
9000.

The ISO-9000 series of
standards represent the
requirements which have to
be addressed
by every enterprise to assure
the reliable production and
timely delivery of goods and
services to the marketplace.
Technological focus

GMP

HACCP

ISO

Management focus

COMMON QA SYSTEMS
 GMP has a legal status in the USA
where it is codified in the Food and
Drug Administration (FDA).

The fundamentals of GMP for food
Good are:
Manufacturing Quality control
Practice (GMP) Product meets specifications
Quality assurance
Systems ensure control and consistency
Documentation
If it is not documented, it did not happen,
or it is false
Verification and self-inspection
 The 5 important factors of production and food processes that
affect quality and safety while following GMP are:
Place
Premises should be clean, and equipment should be
orderly arranged.
Food preparation surfaces should allow for regular
cleaning and should be designed to prevent food
contamination.
Primary materials
Materials should be assessed, controlled, tested and
Good recorded where contaminated, adulterated, impure
raw materials should be rejected and returned.
Manufacturing People
Practice (GMP) Number of personnel must be in sufficient numbers,
equipped with sufficient knowledge and training,
qualified by education, and mature with experience
to perform their respective tasks.
Process
The sanitation plan should include procedures for
effective premise cleaning, equipment, handling the
health and hygienic behaviour of personnel.
Product
Every product has its own specifications, which may
include quantity, purity, potency and test methods.
Elementary quality assurance standards and guidelines Focus

Production Environment
Codes and guidelines on hygienic food production Basic hygiene conditions and practices
Agribusiness and food industry

Production System
Concept of Hazard Analysis and Critical Control Points Product safety
Agribusiness and food industry

Organisation and management
ISO9001 standard Product and service quality
management
All sectors, not food specific

Relevant for all actors in agri-food chain

Figure 2.2: Elementary quality assurance standards, guidelines, and their
focus.
Prerequisites for hygienic food production

Prerequisites refer to the minimum conditions, measures, and/or activities that
need to be place in any food production environment to be able to produce safe
and wholesome ingredients and foods.

The Codex Alimentarius advises that any sector of the food chain should
operate according to the Codex document on “General Principles of Food
Hygiene”, use the appropriate GMP codes, and respect the relevant food safety
legislation, prior to the application of HACCP principles.

Intergovernmental body with more than 180
members
Established by the Food and Agriculture
WHAT IS THE CODEX ALIMENTARIUS?? Organization of the United Nations (FAO) and
the World Health Organization (WHO)
To protect the health of consumers and
ensuring fair practices in the food trade.
Main categories of the Codex General
Principles of Food Hygiene document

Primary production Design and Control of Maintenance and Establishment of
 environmental facilities  operation  sanitation  personal hygiene
hygiene; hygienic hygienic design various aspects of maintenance, people-related
production of food requirements on control cleaning, pest aspects like health
sources; handling, location, premises, measures/systems control and status, personal
storage and equipment and including monitoring of hygiene, personal
transport; and facilities. requirements on cleaning. behavior and
maintenance, the control visitors.
cleaning and hazards; incoming
personal hygiene. materials;
packaging; water
quality;
Transportation  management and Training  food
its maintenance supervision; and hygiene training,
and uses, product documentation. the content of
information and training, checking
labelling, demands the effectiveness
concerning of training and
consumer refreshment
education. training.
What are prerequisite
programmes?

ISO(2015) defined as “basic
conditions and activities that are
WHO defined prerequisite
necessary to maintain a hygienic
programmes as the “practices and
environment throughout the food
conditions needed before and during
chain suitable for the production,
the implementation of HACCP and
handling and provision of safe end
which are essential to food safety”
products and safe food for human
consumption”
HACCP Plans

7 principles:
1) Hazard analysis
2) Determination of critical control points
3) Establishment of critical limits of CCPs
4) Establishment of monitoring system for each CCP
5) Establishment of corrective actions
6) Development of procedures for verification
7) Establishment of documentation and record-keeping.
 Multiple sources of hazards as the basis for the
hazard inventory

Raw materials, Conditions of the Packaging, e.g. is Process equipment/ facilities
ingredients and semi- food which favour packaging resistant design, e.g. are appropriate
finished products as a microbial growth, to damage, tamper- time-temperature conditions
source of e.g. residues of e.g. composition, proof, does it obtained, can
pesticides, the initial pH, aw. contain proper equipment/facilities be
content of labelling and properly cleaned and
microorganisms. instructions? sufficiently controlled?

Survival of Deviations in Contamination by Lay-out of design production area e.g.
important process managing the equipment, is an adequate separation of raw and
steps, e.g. heat- process, e.g. personnel or processed materials guaranteed?
stable toxins. process delays, environment (air,
technical trouble. water).
 STEP 1: Develop HACCP Team
Should be developed to a specific product and
process; from harvesting/ processing raw
materials, food manufacturing to the point of
consumption.
The team should be a multidisciplinary and
consist of representative from each function:
Quality assurance technologist/microbiologist
HACCP: How fully familiar with the quality and safety requirements
for the product, potential hazards and risk.
to DO it? Production specialist
Conversant with the product manufacturing and
packing processes.
Distribution specialist
Fully familiar with the processes of storage and
distribution through which product passes between
the points of packed product storage and sale to the
customer
Food engineer
Fully conversant with the design, operation and
performance of the plant and equipment
 STEP 2: Describe and Characterise the
Product
A detail evaluation should be made of the
product’s characteristics, prescribed storage
HACCP: How conditions and recommended use, identifying
to DO it? as relevant.
Example of the characteristics are ingredients,
water activity, pH, temperature, ingredients,
shelf-life, humidity, standard pattern of use,
instruction to consumers.
 STEP 3: Construct the Process Flow Diagram
A step-by-step flow diagram of the process
should be established, covering the agreed
scope of the HACCP system.
Engineering drawings and manufacturing
HACCP: How process conditions should be included to
to DO it? supplement the development of process-flow
diagrams.
The HACCP should verify the processing
operation in the flow diagram at all stages and
hours of operation, which then the team will
amend the flow diagram where applicable.
 STEP 4: Identify the Hazards Control
The information and the data collected from
the characterization of the product should be
analysed to identify the associated hazards.
HACCP: How The HACCP team should list all hazards that may
be reasonably expected to happen at each step
to DO it? from main production, processing,
manufacture, and distribution until the point of
consumption.
Once the hazards have been identified they
should be assessed in terms of severity and risk.
 STEP 5: Quantify and Analyse the Hazards
3 stages of severity; high severity, medium
severity and low severity.

HACCP: How
to DO it?
 STEP 6: Identify Control Requirements,
Targets and Tolerances
Having identified the hazards and established
their importance through the assessment of
HACCP: How severity and risk, control requirements should
be identified.
to DO it? Then, the targets and critical limits for the
control should be established.
Control can only be considered to be achieved
with the elimination of a hazard or its reduction
to a level within the tolerance.
 STEP 7: Identify CCPs and Assess Existing
Controls
There may be more than one CCP at which
control is applied to address the same hazard.
The determination of a CCP in the HACCP
system can be facilitated by the application of a
decision tree which indicates a logic reasoning
approach.
HACCP: How Control requirements, targets and tolerances
should be matched to the process-flow
to DO it? information and data to:
Identify the position of CCPs in the process
Confirm whether existing controls at CCPs meet the
newly established control requirements
Decide what revisions to existing controls are
necessary
Decide how new control requirements are to be
applied
Identify whether hazards will be eliminated or
reduced by process stages occurring downstream.
The critical control point decision tree
consists of four main questions
Q1: do control measures exist for the identified hazard?

Q2: is the process step specifically designed to eliminate or reduce
the likely occurrence of the hazard to an acceptable level?

Q3: could contamination with the identified hazard occur at the step
at an unacceptable level or could it rise to an unacceptable level?

Q4: does a subsequent step eliminate or reduce the hazard to an
acceptable level?
Example of
decision tree
diagram
 STEP 8: Establish a Monitoring System for
Each CCP
The team should establish criteria for the
methods and frequencies of CCP monitoring.
HACCP: How The date from monitoring must be evaluated by
person with knowledge and authority to
to DO it? carryout corrective actions when indicated.
Monitoring procedures for CCPs will need to be
done rapidly because they relate to on-line
processes and there will be insufficient time for
lengthy analytical testing.
ISO9001

ISO standards are voluntary unless a business sector makes it a
market requirement, or a government regulation makes it obligatory.
ISO9001 – Quality Management System
ISO22000 – Food Safety Management System
ISO45001 –Occupational Health and Safety System
ISO14000 – Environmental Management System
Figure 2.3: The Quality Management Principles of ISO9001
Quality Management Principles Used as the basis
for ISO9001
Principle Examples of activities
Customer Recognize direct and indirect customers who receive value from the
focus organization
Link the organization’s objectives to customer needs and expectations
Communicate customer needs and expectation throughout the whole
organization
Monitor customer satisfaction and take appropriate action
Manage relationships with customers to achieve sustained success
Leadership Communicate the organization’s mission, vision, strategy, policies and
processes throughout the organization
Establish a culture of trust and integrity
Encourage an organization-wide commitment to quality
Provide people with the required resources, training and authority to
act with accountability
Inspire, encourage and recognize people’s contribution
Quality Management Principles Used as the basis
for ISO9001
Principle Examples of activities
Engagement Communicate with people to promote understanding of the
importance of their individual contribution
Facilitate open discussion and sharing of knowledge and experience
Empower people to determine constraints to performance and to take
initiatives without fear
Recognize and acknowledge people’s contribution, learning and
improvement
Process Define system objectives and processes necessary to achieve them
approach Establish authority, responsibility and accountability for managing
processes
Determine process interdependencies and analyse the effect of
modifications to individual processes on the system as a whole
Manage processes and their interrelations as a system to achieve the
organization’s quality objectives effectively and efficiently
A process approach means having a step-by-step sequence of actions:

“Say What It Does” – document day to day operating procedures and
systems
“Do What It Says” – work in accordance with those procedures and systems
“Prove It” – with a certification audit which confirms, from records, that the
procedures and systems meet the requirements of ISO 9001 and are
operated in accordance with the standard.
Certification is how you show that your business has implemented this
approach, but this is not the end point, the process of implementing the 8
principles using a process approach is what has been proved time and time
again to transform businesses.
Quality Management Principles Used as the basis
for ISO9001
Principle Examples of activities
Improvement Promote the establishment of improvement objectives at all levels
of the organization
Educate and train people at all levels on how to apply basic tools
and methodologies to achieve improvement objectives
Ensure people are competent to successfully perform improvement
projects
Recognize and acknowledge improvement initiatives.
Evidence- Ensure that data and information are sufficiently accurate, reliable
based and secure
decision- Analyse and evaluate data and information using suitable methods
making Ensure people are competent to analyse and evaluate data as needed
Make decisions and act based on evidence, balanced with
experience and intuition.
Quality Management Principles Used as the basis
for ISO9001
Principle Examples of activities
Relationship Determine relevant interested parties (such as suppliers, partners,
management customers, investors, employees and society as a whole) and their
relationships with the organization.
Determine and prioritise interested party relationship that need to
be managed.
Establish relationships that balance short-term gains with long-
term considerations.
Measure performance and provide performance feedback to
interested parties, as appropriate to enhance improvement
initiatives
Encourage and recognize improvements and achievements by
suppliers and partners.
Figure 2.4: Main sections of the ISO9001 standard with its typical requirements
GROUP TASK
How to implement ISO in your company/ organization
Create a process flow
 ISO 9001 CERTIFICATION

Portray Responsibilities in
Give satiety to the
competent the job scope are
customers
services clear

High commitment
The leadership
Good quality of the
and vision is
system is organization
transparent and
practiced towards quality
efficient
services

Step to Excellency
Common private standards

British Retail Consortium (BRC)
International Featured Standards
ISO22000
Food Safety System Certification 22000 (FSSC22000)
Safe quality food
GlobalG.A.P.
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Manager
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Laboratory Technician
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