Sampling Techniques Presentation PDF

Summary

This presentation discusses various sampling methods, including grab samples, composite samples, and in-situ samples. It also covers sampling plans and preservation and preparation techniques for different sample types such as environmental samples, liquids, and solids.

Full Transcript

Sampling
Dr. Omnia Ibrahim
 Analytical Process Steps
❑ An analysis provides chemical or physical information about a sample

Problem definition & Method selection

Sample collection (Sampling)

Sample preservation

Sample preparation

Analyte separation

Analysis

Data processing and reporting
Ex: Food Safety Analysis
 Introduction
▪ Sample: This is a small part drawn from the population
(portion of a population)

▪ Population vs Sample
The population is the entire group
The sample (portion of a population)
 What is sampling?

▪ Sampling can be defined as the process or technique of selecting a
suitable sample for the purpose of determining parameters or
characteristics of the whole population.

▪ Sampling is the process to get a representative and homogeneous sample.
Representative i.e., content of analytical sample reflects content of bulk sample.
Homogeneous i.e., the analytical sample has the same content throughout.

▪ Sampling covers all the necessary steps prior to measurement, including
the preparation and storage of the samples

▪ Sampling error: is the differences between sample values and the
population value.
 Terminology

Types of analysis:
1- Qualitative (what) 2- Quantitative (how much?)
Analyte and Matrix
Component of interest in the sample is the Analyte
Remainder of the sample is the Matrix

A lot is the total amount of material that we take our sample from.
The bulk sample is a large sample that is first taken from the lot.
The gross sample is several small portions of the sample.
This is reduced to provide a laboratory sample.
An aliquot of this sample is taken for the analysis sample.
 Steps involved in sampling bulk material

Identify the population from which the sample is to be obtained

Collect a gross sample that is truly representative of the population being sampled

Reduce the gross sample to a laboratory sample that is suitable for analysis
Example
 Terminology

Sample Size and Analyte Level
Techniques for handling very small samples are quite different
from those for treating macro samples
 Importance of Sampling and Sample Preparation

Sampling depends on:
properties of the analyte
nature of the sample

Purpose of sampling
Obtaining correct and informative results

Inappropriate sampling causes irreversible damage
Environmental samples, such as soil, air, and water:
Representative sampling right at the point of collection
Define that the entire sample or a portion will be analyzed
Sampling depends on the location, depth, and time of the year

Sample contamination during sample collection = invalid data
Sample Preparation Steps
 Sampling Plan

What is sampling plan?
It is a comprehensive protocol that specifies the following

i) Number, location, and size of the samples
ii) Instructions for altering, processing or reducing samples
iii) How many samples must be run
iv) Which method or instrumentation to use
v) How to report results
 Where to Sample the Target Population
(Sample types)

Sample composition is not identical to its target population
≡ Sample error

Homogeneous (well-stirred oil tank: where to sample x)

Heterogenous samples (where to sample √ )
Examples:
- Oral suspension
- Clinical sample, such as blood or urine (A patient’s blood
glucose level)
- Concentration of dissolved O in a lake
2
Sampling Methods
 Quiz

Sample error: with A or B?
 Random sampling

There are different types of random sampling
Judgmental sampling
Wastewater sampling
 What type of sample to collect?

Common methods for obtaining (collecting) samples
Grab sample
we collect a portion of the target population at a specific time and/or location)
For homogeneous target population → random grab samples
For heterogeneous target population → systematic grab samples
(properties change over time and/or space)

Composite sample
A set of grab samples that we combine into a single sample before analysis
(target population’s average composition over time or space)
Examples:

wastewater treatment plants
Determination of polychlorinated biphenyls (PCBs) in fish
 What type of sample to collect?

In situ sample
For continuous monitoring of a time-dependent change in the target population
without removing individual grab samples

Example:
monitoring the pH of a solution moving through an industrial production line
using a pH electrode
 Error Sources Prior to Total Element Determination

Contamination of sampling tools and vessels,
- Adsorption of the analytes on the surface of the collection and storage tools
Complex matrices e.g., blood, urine, human milk, wet precipitation, sea
water, fresh water, soil solution and some basic food materials
- Dissection of tissues with trace element levels (µg/kg) (tools?)

Time of sampling for body fluids and fresh waters

In environmental samples, e.g., plants and soils, waste and industrial
materials (trace metals in mg/kg)
(representative analytical subsamples not contamination)
Place of sampling (environmental and industrial materials)

Careful selection of number and mass of individual samples, which depends
on analyte’s distribution and concentration
Error Sources Prior to Total Element Determination
 Implementing a sampling plan

Common steps:
1. Physically removing the sample from its target population (device
must be inert and clean to …..)
2. Preserving the sample (why?)
(what about in situ sampling)
3. Preparing the sample for analysis

The initial sample is called the primary or gross sample

Reducing the sample’s particle size to
- convert the sample into a more readily analyzable form
- improve its homogeneity.
 Solution samples

Commercial
solvents

Suspensions;
Beverages, such
such as those
as milk or fruit
found in many
juice
oral medications

Natural waters,
Bodily fluids, including lakes,
such as blood streams,
and urine seawater and
rain
 Sample Collection
Surface water
- < 5 m (Capped bottle)
- > 5 m (Niskin bottle)
Purging
- Groundwater
- Municipal water
What type of sample for
Municipal wastewater treatment plants?
Industrial discharges?
Types of sample containers:
- Glass (advantages and disadvantages?, when? )
- Plastic (advantages and disadvantages?, when? )
Sample container
- Mouth - Cap
 Sample Preservation and Preparation
Purpose of preservation? (how?)

Additional preparation (which?)
26
 Gaseous samples

Automobile
exhaust

Emissions
Aerosol from
particulates industrial
smokestacks

Compressed Atmospheric
gases gases

27
 Sample Collection
Sample container: Stainless steel canister or a Tedlar/Teflon bag
- advantages and disadvantages?
- Cryogenic cooling
Trapping using solid sorbents or filtration (When?)

Sample volume: - volatile gases (2–100 L)
- semi-volatile gases (2–500 m3)
Type of sorbents: - inorganic sorbents (disadvantage?)
(silica gel, alumina, magnesium aluminum silicate, molecular sieves)
- organic polymers
( - 2,4-diphenyl-p-phenylene oxide, styrene-divinylbenzene,
- polyurethane foam)
- carbon sorbents (advantage and disadvantage?)
Filtration: glass fiber filters for non-volatile compounds

In situ sampling (when?)
 Sample Preservation and Preparation

There is little need (why?)

How to release gaseous compounds from solid sorbents ?

How to determine gaseous analyte in a solid sorbent, which is selective
to this analyte ?
 Solid samples

large particulates (in ores)

tissues (biological smaller particulates
specimens) (soils and sediments)

sheet materials tablets, pellets, and
(polymers, rolled capsules
metals) (pharmaceuticals)

animal feeds

Why solid samples must be collected carefully?
 Sample Collection
Sediments
- A bottom grab sampler
- How?
- Advantages and disadvantages?
- A corer
- How?
- Advantages?
Soil samples (depth)
up to 30 cm: scoop or shovel or soil punch
> 30 cm: a trench or an auger

Particulate materials
- Large (ores): riffle (Describe)
- small (powders): sample thief (Describe)
 Sample Preservation
Why may solid sample undergo a change in composition without
preservation?

Storing samples at lower temperatures (Advantages and disadvantages?)

How to minimize the loss of volatiles?

Why do contact of air with anaerobic sediments must be prevented?
 Sample Preparation

Solid samples usually need some processing before analysis

1- Reducing particle size
A heterogeneous material with large particulates:
(Ex: Ni-bearing ore) (why?)
- to collect the same number of particles with a smaller, more
manageable mass and reduce standard deviation

2- Many analytical techniques require that the analyte be in solution
 Reducing Particle Size
Crushing and grinding the gross sample

Ways of crushing and grinding?
- Jaw crushers: reduce large particles to diameters of a few millimeters.
- Ball mills, disk mills, and mortars and pestles: to further reduce particle size

Disadvantages of crushing and grinding?
- Increasing the surface area
- losing volatile components
- oxidation may alter the gross sample’s composition
- Contamination
 Reducing Particle Size
State the techniques of obtaining subsamples.
What are the steps that can be carried out before quartering procedures?

Describe the method of coning and quartering.

Coning and quartering
 Bringing Solid Samples Into Solution
(Sample Dissolution)
A) Easily dissolved samples:
inorganic salts (water) and organic compounds (organic solvents)

B) Difficulty dissolved samples:
i) Digestion with an acid or a base (wet ashing)

ii) Microwave digestion

iii) Fusion using fluxes

iv) Dry ashing
 Bringing Solid Samples Into Solution
i) Digestion with an acid or a base

How is digestion carried out with an acid or a base ?

What are the advantages and disadvantages of digestion with an acid
or a base?
Bringing Solid Samples Into Solution
i) Digestion with an acid or a base
 Bringing Solid Samples Into Solution
ii) Microwave digestion

How is microwave digestion carried out?

Describe the vessels for microwave digestion?

What are the advantages and disadvantages of microwave digestion?
 Bringing Solid Samples Into Solution
iii) Fusion using fluxes

When is sample digested by fusion and how is it carried out?

What are the disadvantages of digestion by fusion?
 Bringing Solid Samples Into Solution
iv) Dry ashing

How is dry ashing carried out?

What is the goal of dry ashing?

How can the concentration of the organic material be determined
using dry ashing?
 Separating the Analyte from Interferents
When is analyzing samples a relatively simple task?
Ex. Glucose in honey

- In the absence of interferents: Ssamp= kA CA

- In the presence of interferent (I): Ssamp= kA CA + kI CI

- Method selectivity is measured by the selectivity coefficient (KA,I )
KA, I = kI / kA
Ssamp= kA CA + KA, I * kA * CI

Ssamp= kA (CA + KA, I * CI)

- No interference when (KA, I * CI )