Ukraine: Laboratory of Instrumental Soil Research Methods of the National Scientific Center «Institute for Soil Science and Agrochemistry Research named after O.N. Sokolovsky»
referencia de trabajos hechos en el mundo tanto en petróleo y gas, que aguas, mineral, gemas y otros problemas
1.2. ¿Cómo funciona la tecnología RSS-NMR?
1. El transmisor envía una señal estrechamente direccional típica solo de la sustancia que se busca (petróleo, gas), es decir, se incluye información sobre el petróleo o el gas en la señal.
2. Una vez que la señal llega al petróleo o al gas, la señal informativa penetra en el interior de la sustancia buscada y de inmediato revela este depósito (petróleo, gas, minerales, etc.) vuelve a emerger y percibimos la información sobre el petróleo o el gas y con confianza en la superficie sabemos que hemos alcanzado al objetivo.
A esto se le llama resonancia del material que se busca, por lo tanto, no necesitamos interpretación, este es el descubrimiento directo de un depósito. La precisión es del 90-95%, por este motivo la exploración con esta tecnología es realiza en un tiempo muy corto de 15 a 30 días.
1.2.1. Alcance del Proyecto RSS-NMR
Se tienen dos etapas:
• ETAPA 1: Es el método RSS, que es remoto; recibimos datos de resonancia de imágenes espaciales en un reactor nuclear en Ucrania. La precisión es del 85-90%, que es tres veces mayor en comparación con la sísmica.
• Todo se hace a Kiev, Ucrania, por eso y de forma remota, no se gasta tiempo y energía en la parte administrativa y para la captura de los datos en el bloque a explorar. Se hace de una forma discreta sin crear alborotes en la zona y protestas cualquiera
• ETAPA 2: Es un estudio de campo de NMR que se realiza con un equipo reducido. La precisión del trabajo es del 95%. ver el siguiente video https://youtu.be/EsITieoHDSQ etapa dos de campos y conclusiones.
Con este trabajo se tiene reducción de costos además de una precisión que supera los 90 %.
referencia de trabajos hechos en el mundo tanto en petróleo y gas, que aguas, mineral, gemas y otros problemas
1.2. ¿Cómo funciona la tecnología RSS-NMR?
1. El transmisor envía una señal estrechamente direccional típica solo de la sustancia que se busca (petróleo, gas), es decir, se incluye información sobre el petróleo o el gas en la señal.
2. Una vez que la señal llega al petróleo o al gas, la señal informativa penetra en el interior de la sustancia buscada y de inmediato revela este depósito (petróleo, gas, minerales, etc.) vuelve a emerger y percibimos la información sobre el petróleo o el gas y con confianza en la superficie sabemos que hemos alcanzado al objetivo.
A esto se le llama resonancia del material que se busca, por lo tanto, no necesitamos interpretación, este es el descubrimiento directo de un depósito. La precisión es del 90-95%, por este motivo la exploración con esta tecnología es realiza en un tiempo muy corto de 15 a 30 días.
1.2.1. Alcance del Proyecto RSS-NMR
Se tienen dos etapas:
• ETAPA 1: Es el método RSS, que es remoto; recibimos datos de resonancia de imágenes espaciales en un reactor nuclear en Ucrania. La precisión es del 85-90%, que es tres veces mayor en comparación con la sísmica.
• Todo se hace a Kiev, Ucrania, por eso y de forma remota, no se gasta tiempo y energía en la parte administrativa y para la captura de los datos en el bloque a explorar. Se hace de una forma discreta sin crear alborotes en la zona y protestas cualquiera
• ETAPA 2: Es un estudio de campo de NMR que se realiza con un equipo reducido. La precisión del trabajo es del 95%. ver el siguiente video https://youtu.be/EsITieoHDSQ etapa dos de campos y conclusiones.
Con este trabajo se tiene reducción de costos además de una precisión que supera los 90 %.
Goals and Implementation Plan of Pillar 5 - Purpose and Concept of GLOSOLANExternalEvents
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2) ASPAC works to promote excellence in soil and plant analysis through training, research, and sharing best practices. It also coordinates proficiency testing and publishing guidance documents.
3) Reforming SPACNET is an option being considered to better support Pacific region laboratories, which could work with ASPAC for quality assurance/control. Determining
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Vietnam, Central Analytical Laboratory, Soils and Fertilizers research Instit...ExternalEvents
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The document provides information about Agfa-Labs, a division of Agfa-Gevaert Group that offers analytical services and open innovation for materials and coating research. It details Agfa-Labs' facilities, equipment, expertise, and applications across organic chemical analysis, physical analysis, material testing, material optics, and high-throughput techniques. Agfa-Labs is located in Mortsel, Belgium and welcomes customers to utilize its 3600 square meters of labs and 173 employees.
The document outlines plans for creating the International Agricultural Research Center (IARC) in Kazakhstan with the following key objectives:
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2. Establish modern laboratories and facilities to preserve genetic resources and support research in genomics, phenotyping, and other areas.
3. Train agricultural scientists and specialists to strengthen Kazakhstan's agricultural sector and facilitate international collaboration.
Global Soil Partnership efforts to promote soil governance from the global to...Soils FAO-GSP
Webinar on soil governance and launch of SoiLEX
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Mr Hugo Bourhis, International Consultant, FAO GSP
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This document outlines the goals and implementation plan of Pillar 5 of GLOSOLAN, which aims to harmonize soil characterization and analysis globally. It discusses developing (1) guidelines for best practices in soil sampling, preparation, and analysis; (2) a network of reference soil laboratories to support application of guidelines; and (3) a global spectral library for soil properties. The plan also establishes Regional Soil Laboratory Networks to coordinate application of recommended procedures regionally through workshops, meetings and proficiency testing. Next steps include defining GLOSOLAN's membership, roles, and operational details to embed it within the Global Soil Partnership's harmonization efforts.
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The document discusses the establishment and activities of regional soil laboratory networks under the Global Soil Laboratory Network (GLOSOLAN). It summarizes the outcomes of meetings establishing the networks for Asia (SEALNET) and Latin America (LATSOLAN), including agreeing on objectives, roadmaps, and initial activities like guidelines, sample exchange programs, and standardizing methods and quality control procedures. The overall goal is to strengthen soil analysis capabilities and harmonize results across different laboratories to ensure reliable and comparable data to support decision making.
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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.
The document provides information about Agfa-Labs, a division of Agfa-Gevaert Group that offers analytical services and open innovation for materials and coating research. It details Agfa-Labs' facilities, equipment, expertise, and applications across organic chemical analysis, physical analysis, material testing, material optics, and high-throughput techniques. Agfa-Labs is located in Mortsel, Belgium and welcomes customers to utilize its 3600 square meters of labs and 173 employees.
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2. Establish modern laboratories and facilities to preserve genetic resources and support research in genomics, phenotyping, and other areas.
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Ukraine: Laboratory of Instrumental Soil Research Methods of the National Scientific Center «Institute for Soil Science and Agrochemistry Research named after O.N. Sokolovsky»
1. First Meeting of the Regional Soil
Laboratory Network for Eurasia and
Europe
National Reference
Laboratories
2. Laboratory name: Laboratory of instrumental soil
research methods, National scientific center
“Institute for soil science and agrochemistry
research named after O.N.Sokolovsky”
Country: Ukraine
Name of the presenter: Solokha Maksym,
head of this department
6. Laboratory room for analysis mechanical part of soil
(traditionally methods) and agrochemical properties of plants
7. Soil analysis in your country
How many routine laboratories exist in your
country?
More then 100.
Are they ‘mobile’ laboratories?
No, it’s stationary.
Are soil test kits commonly used?
Yes, soil test kits used small farmes and beginner in
agricultures.
8. Assessment and monitoring of soil
state: normative-methodical and
metrological support
Standard samples of different levels
Proficiency Testing and
Interlaboratory Comparisons
Measurement management system
Normative-methodical base: standards,
technical conditions, technological
regulations, measurement methods
Guidelines and recommendations for
standardization and metrological support in the
field of soil quality and protection.
System of voluntary certification of
agricultural lands (soils)
Proficiency testing (PT)
9. Accreditation
/certification
Does your laboratory have any
accreditation or certification?
Yes, we have laboratory
sertifications
If yes, which institution/agency
provides
accreditation/certification?
SE “UkrNDNC”Ukrainian
Research and Training Center
of Standardization, Certification
and Quality
http://uas.org.ua
10. Strength/weakness
What do you think your lab is strong at?
-the laboratory may be an aggregator of agrochemical
research in Eastern Europe
- the laboratory develops the latest instrumental
methods for soil research (aerial photography with
UAVs and depending on the terrain and macro
indicators, studies in the field of mechanical properties
of soils based on a laser diffractometer).
What do you think it could be improved?
- development of robotic platforms for
laboratory research of soils
11. What are your expectations out of this meeting and
GLOSOLAN?
-Agree and establish a “road map” for the SOP.
-Coordinate the activities of the “working group”,
exclude the moments of non-invitation of the members
of the working group to key events of GLOSOLAN.
- To develop a platform of "participation in the forces"
of each of the participating countries.