DIGITAL PROCESS MODELLING

Services

Objectives and purpose:

Prudent subsoil use, increasing the percentage of reserves recovery

Generation of summary reporting, planning

Revision of wellfield and pregnant solution treatment shop with the development of optimal process regulations for each step of the technological process

Control and optimizing the use of materials, resources, reagents, equipment

Operational control of technological and production processes

Cost reduction through optimization of production processes

Digital process modeling is a set of activities based on an automated control system for mining and processing plants. This system is based on the accumulation and subsequent use of unique production experience in the operation of deposits and concentrating plants, their processing and management divisions, through continuous and long-term analysis of current and historical data, in order to ensure efficient operation and development

Operational control of technological and production processes

Control and optimizing the use of materials, resources, reagents, equipment

Revision of wellfield and pregnant solution treatment shop with the development of optimal process regulations for each step of the technological process

Generation of summary reporting, planning

Cost reduction through optimization of production processes

Prudent subsoil use, increasing the percentage of reserves recovery

Methodology of operation:

Система построена на методологии, стандартах, многолетнем технологическом опыте и может быть интегрирована с системами подсчета геологических запасов;

Принципиально новым в предлагаемой системе расчетов является использование Матрицы Соответствий, в которой отражаются: топографическая, литологическая, геологическая информация полигона ПСВ, структура производственных связей, оборудования и людских ресурсов, технологические процессы. Данная матрица связывает реляционную базу данных и сложившуюся производственную топографию объектов предприятия, фактически превращая программный комплекс в интегрированную систему;

Система реализована на стандартном программном обеспечении (VBA, SQL, MapBasic) и не требует больших дополнительных вложений, за исключением 30 модуля Surpac или иного подобного программного обеспечения для визуализации.

Являясь полноценной Mes системой (система управления производственными процессами), она позволяет эффективно управлять любым горнодобывающим или обогатительным предприятием.

Система обладает качествами адаптивной методологии. СОПУ нацелена на преодоление ожидаемой неполноты требований и их постоянного изменения: когда меняются требования, меняется исходные данные для решения задач. Адаптация структуры математической модели основана на циклах Деминга.

The system has the qualities of an adaptive methodology. MES system is aimed at overcoming the expected incompleteness of requirements and their constant change: when the requirements change, the basic data on problem solving change. The adaptation of the mathematical model structure is based on Deming cycles.

Being a fully-fledged Mes system (management enterprise system), it allows efficient management of any mining or processing enterprise.

The system is implemented on standard software (VBA, SQL, MapBasic) and does not require large extra investments, except for 3D module Surpac or other similar software for visualization.

Fundamentally new in the proposed system of calculations is the use of the Compliance Matrix, which reflects: topographic, lithological, geological information of the drillhole in situ leaching site, the structure of production links, equipment and human resources, technological processes. This matrix links the relational database and the established production topography of the enterprise facilities, in fact turning the program complex into an integrated system;

The system is based on methodology, standards, and many years of technological experience and can be integrated with geologic reserve estimation systems

The 3D cell structure data visualization module provides a detailed look at the geological and production parameters of the cell in relationship to each other

— massifs and aquifers

— location and size

of ore intervals

— GRM

Example of visualization of uranium deposit cell mining

— filters position

3D data visualisation