This document is a PDF version of my soil analysis research project presentation I gave on 6 August 2008. Field work for this project involved selected sites in the Cleveland Botanical Garden’s Woodland Garden and was conducted during the summer of 2008.
This document is a PDF version of my soil analysis research project presentation I gave on 6 August 2008. Field work for this project involved selected sites in the Cleveland Botanical Garden’s Woodland Garden and was conducted during the summer of 2008.
It explains in a lucid way, how to prepare soil sample solution for determination of soil pH with the help of a pH meter. The process is student friendly.
Soil parameters, analysis protocols, interpretation, and fertilizer recommend...ExternalEvents
The second lab managers’ meeting of the South-East Asia Laboratory NETwork (SEALNET) took place on 19 - 23 November 2018 in ICAR-IISS (Indian Institute of Soil Science), Bhopal, India.
Drs. Sanjay Srivastava and Pradip Dey, ICAR-IISS, Bhopal, India (1st Day)
Health of soil is very important when it comes to gardening or farming. Soil supplies many necessary nutrients required for healthy growth of any crop. The yield is largely dependent on the soil in which the crop grows. So, before cultivation, it is very important to check the soil for its nutrients.
Many factors impacting the measurement precision of ICP-OES and ICP-MS are still often neglected for everyday operation, however. Sample preparation is one of the factors that play a crucial role in the success of high-quality sample analysis. In this webinar, our experts will discuss sample preparation to: 1) improve analysis precision 2) make difficult samples easy to be analyzed 3) eliminate sample dilution to minimize error introduction.
For more information, please visit here: http://chrom.ms/CtRtKpw
Here you will find brief description about water sampling. actually it's so important to examine the water we use our daily life in order to avoid negative impact of water.
Organic carbon in organic matter is oxidized by known but excess of chromic acid. The excess chromic acid not reduced by organic matter is determined by back titration with standard ferrous sulphate solution, using diphenylamine or ferroin indicator. The organic carbon content in soil is calculated from the chromic acid utilized (reduced) by it.
Ensuring potable water for public consumption is a major Public Health Concern. This presentation sums up all the necessary and prioritized parameters conducted for water analysis.
It explains in a lucid way, how to prepare soil sample solution for determination of soil pH with the help of a pH meter. The process is student friendly.
Soil parameters, analysis protocols, interpretation, and fertilizer recommend...ExternalEvents
The second lab managers’ meeting of the South-East Asia Laboratory NETwork (SEALNET) took place on 19 - 23 November 2018 in ICAR-IISS (Indian Institute of Soil Science), Bhopal, India.
Drs. Sanjay Srivastava and Pradip Dey, ICAR-IISS, Bhopal, India (1st Day)
Health of soil is very important when it comes to gardening or farming. Soil supplies many necessary nutrients required for healthy growth of any crop. The yield is largely dependent on the soil in which the crop grows. So, before cultivation, it is very important to check the soil for its nutrients.
Many factors impacting the measurement precision of ICP-OES and ICP-MS are still often neglected for everyday operation, however. Sample preparation is one of the factors that play a crucial role in the success of high-quality sample analysis. In this webinar, our experts will discuss sample preparation to: 1) improve analysis precision 2) make difficult samples easy to be analyzed 3) eliminate sample dilution to minimize error introduction.
For more information, please visit here: http://chrom.ms/CtRtKpw
Here you will find brief description about water sampling. actually it's so important to examine the water we use our daily life in order to avoid negative impact of water.
Organic carbon in organic matter is oxidized by known but excess of chromic acid. The excess chromic acid not reduced by organic matter is determined by back titration with standard ferrous sulphate solution, using diphenylamine or ferroin indicator. The organic carbon content in soil is calculated from the chromic acid utilized (reduced) by it.
Ensuring potable water for public consumption is a major Public Health Concern. This presentation sums up all the necessary and prioritized parameters conducted for water analysis.
Understanding Persistent Organic Pollutants (POPs) and Managing their ImpactSGS
The aim of this presentation is to promote an understanding of the origins of POPs, current industry challenges due to increasing EU and US regulations, and the principles of POPs management and compliance.
Water Pollution is a common, yet not enough thought of topic. Water is our major sustanance methods. Here is a small yet detailed discussion on the aforementioned topic
India, Bhopal, Indian Council of Agricultural Research, Indian institute of S...ExternalEvents
First lab managers’ meeting of the South-East Asia Laboratory NETwork (SEALNET 2.0) - Quality improvement in Asian soil laboratories: towards standardization and harmonization of soil analyses and their interpretation, Bogor, Indonesia, 20 - 24 November 2017.
Determination potassium by_ammonium_acetate_extraction_method_zahid_sau_sylhetSyed Zahid Hasan
Determination_potassium_by_ammonium_acetate_extraction_method_zahid_sau_sylhet.
Some picture and data are collected from internet. procedure is in short form so that it can understand easily.
There is no shortcut of success.
Read book first.
XRF for Analysis of Contaminated Soil and Environmental Applications Olympus IMS
This presentation reviews:
- Contaminated soil and environmental applications and market
- Pollutants in soils and standards and regulation in Europe
- Examples of applications and case studies
- Use of XRF handheld analyzer for soil analysis
For more information about portable XRF, visit: https://www.olympus-ims.com/en/xrf-xrd/xrf-handheld/
Countries’ presentation on internal quality control: China 2ExternalEvents
The second lab managers’ meeting of the South-East Asia Laboratory NETwork (SEALNET) took place on 19 - 23 November 2018 in ICAR-IISS (Indian Institute of Soil Science), Bhopal, India.
Mr. Wang Hong, China National Center for Quality Supervision and Test of Chemical Fertilizers(Beijing) (2nd Day)
• Laboratory Apparatus and Techniques • Separation of Organic Mixtures (Binary and Ternary Mixtures) • Systematic Identification of Organic Compounds • List of Compounds and Their Derivatives • Organic Synthesis • Quantitative Analysis • Spectrophotomeric (UV /Visible) Estimations • Extraction of Organic Compounds from Natural Sources
Myanmar, Soil and Plant Analysis Laboratory, Ministry of Agriculture, Livesto...ExternalEvents
First lab managers’ meeting of the South-East Asia Laboratory NETwork (SEALNET 2.0) - Quality improvement in Asian soil laboratories: towards standardization and harmonization of soil analyses and their interpretation, Bogor, Indonesia, 20 - 24 November 2017.
Japan, National Agriculture and Food Research Organization (NARO)ExternalEvents
First lab managers’ meeting of the South-East Asia Laboratory NETwork (SEALNET 2.0) - Quality improvement in Asian soil laboratories: towards standardization and harmonization of soil analyses and their interpretation, Bogor, Indonesia, 20 - 24 November 2017.
Callide oxyfuel research project, Part 2: CO2 quality control prior to compre...Global CCS Institute
To highlight the research and achievements of Australian researchers, the Global CCS Institute with ANLEC R&D will hold a series of webinars throughout 2016. Each webinar will highlight a specific ANLEC R&D research project and the relevant report found on the Institute’s website. This is the third webinar of the series, which focused on experiments quantifying and optimising the removal of SOx, NOx and mercury gases from the flue gases passing the fabric filter and caustic scrubber prior to CO2 compression as part of the Callide Oxyfuel Project.
The Callide Oxyfuel Project in central Queensland, Australia, has demonstrated carbon capture using oxyfuel technology on a retrofitted 30 MWe boiler. The project comprised of 2 x 330 t/day air separation units, a 30 MWe oxy-fuel boiler and a 75 t/day CO2 capture plant. The plant was commissioned in 2012 and operated for three years achieving nominally 10,000 hours of industrial operation in oxy-combustion mode.
The project has been able to demonstrate CO2 capture rates from the Oxyfuel flue gas stream to the CO2 capture plant in excess of 85%, and producing a high quality CO2 product suitable for geological storage. In addition, other benefits observed from the oxy-firing and CO2 capture demonstration have included: (i) increased boiler combustion efficiency; (ii) greater than 50% reduction in stack NOx mass emission rates; and (iii) almost complete removal of all toxic gaseous emissions including SOx, NOx, particulates and trace elements from the flue gas stream in the CO2 capture plant (CPU).
This webinar provided a technical presentation of experiments quantifying and optimising the removal of SOx, NOx and mercury gases from the flue gases passing the fabric filter and caustic scrubber prior to CO2 compression by the University Of Newcastle supported by Australian National Low Emission R&D. This webinar was presented by Professor Terry Wall and Dr Rohan Stanger from The University of Newcastle, Australia.
1. NOOR FAZRIEYANA BINTI HAMIDON 152268
SITI ZAHARAH BINTI SYED RAMLI 152197
AHMAD SAFAWI BIN ZAINAL ABIDIN 151704
NORAZIZAH BINTI OTHMAN 153866
MOHAMAD RAAFI BIN AHMAD TAIB 152036
INDUSTRIAL TRAINING PRESENTATION
ESPEK Research and Advisory Services
(ERAS)
2. Introduction
ESPEK conduct agronomic advice and laboratory analysis through Espek Research and
Advisory Services(ERAS)
Services offered by the laboratory analysis:
Analysis of fertilizers
Analysis of composts
Analysis of leaves
Analysis of soils
Laboratory equipment used by ERAS for the analysis:
Inductively Coupled Plasma(ICP-OES)
Elementar Analyzer
Atomic Absorption Spectroscopy(AAS)
Spectrophotometer UV-VIS
Continuous Flow Analyzer(CFA)
4. There are 13 element that we analyze in the soil laboratory. All those elements are:
1) Nitrogen(N)
2) Carbon(C)
3) Sulphur (S)
4) Total Phosphorus(TP)
5) Available Phosphorus(AP)
6) Potassium(K)
7) Magnesium(Mg)
8) Calcium(Ca)
9) Sodium(Na)
10) Moistures
11) pH
12) Cation Exchange Capacity (CEC)
13) Mechanical Analysis
INTRODUCTION OF SOIL
5. 1. Sampling/preparing
2. Determine the pH
3. Determine the moisture sample
4. Leaching & Cation Exchange Capacity(CEC)
5. Total Phosphorus
6. Available Phosphorus
7. Total Nitrogen, Organic Carbon & Sulphur
8. Mechanical Analysis
Analysis of Soil
6. DETERMINATION OF EXCHANGEABLE CATIONS IN
SOIL
(MS 678:Pt I to V : 1980, Part IV, Clause 2)
• Leaching process
- to identify nutrient content in soil
• Reagents :
i) ammonium acetate, pH 7
ii) methylated spirit
iii) potassium sulphate
13. DETERMINATION OF NITROGEN
Pipette 50ml of sample into vessel
Transfer 25ml boric acid + 5 drops indicator into conical flask
(colorless purple)
Distillation process using BUCHI for 5 min
Add NaOH + H2O
(purple green)
14. Titrate the distillate against HCl
Stop the titration until the color change from green
purple
Record volume of HCl use