Simulation Software - Company Ranking(4 companyies in total)

Last Updated：Aug 13, 2025 Aggregation Period:Jul 16, 2025〜Aug 12, 2025
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Company Name	Company information	Featured Products
Company Name	Company information	Product Image, Product Name, Price Range	overview	Application/Performance example
シーメンス株式会社 gPROMS ポートフォリオ	Address Kanagawa/ Business Activities We provide consulting services focused on the development, sales, and technical support of "gPROMS," as well as the creation of simulation models tailored to our customers' applications. Our software products and technical services are widely utilized in the energy sector, including gas, oil, electricity (nuclear), and fuel cells, as well as in the chemical sector, which includes petrochemicals and pharmaceuticals, and in the life sciences sector, such as food and daily necessities. Unlike other software, our powerful equation-based calculation engine seamlessly handles both steady-state and dynamic simulations, allowing models adjusted with batch processing experimental data to be scaled up for use in continuous processing plant design and operational optimization. In recent years, we have conducted research on continuous production in the pharmaceutical industry, accumulating a track record of deliveries to major pharmaceutical companies while building a robust database that is unmatched by competitors. Key Partners Used by renowned companies, universities, and research institutes around the world.	Simulation software 'gPROMS Process' Other	We have libraries for each application. AML: Fixed-Bed Catalytic Reactor AML: Trickle-Bed Reactor AML: Gas-Liquid Contactors gML: Separations - Adsorption gML: Separations - Membranes gML: Utilities gML: Water Activated Sludge gML: Olefins *For more details, please refer to the materials. We regularly conduct free training sessions regarding this product. Anyone interested is welcome to participate.	1. PSA (Pressure Swing Adsorption) PSA is essentially a dynamic process, and this software can be considered an ideal tool for it. The definition of the operating cycle and the description of the valve opening and closing schedule are also taken into account to allow input from the scheduling GUI. The SIB (Self-Interacting Bed) model is a single adsorption column model that serves as a mechanism to represent PSA processes involving multiple adsorption columns, enabling efficient calculation of cyclic steady states, making it a convenient approach for solving optimal design problems in PSA. 2. Examination of Hybrid Separation Processes In the design of composite processes that combine membrane separation and PSA processes, the membrane model and adsorption column model included in gML allow for rapid and detailed examination of composite processes. 3. Sensitivity Analysis of Gas Separation Process Design This accommodates processes that include multiple distillation columns and multiple recycle streams.
シーメンス株式会社 gPROMS ポートフォリオ		gPROMS simulation software Other	We offer packaged products by field. * Food, beverages, and daily consumer goods * Pharmaceuticals * Brine Mining * Waste treatment * Chemicals * Energy * Hydrogen * Flare, depressurization, and relief * Utility systems * Carbon dioxide emissions Please inquire about the products included in each category. Features* * Packages tailored for specific applications * Creation of flow sheets using Drag & Drop * High-precision custom model creation and editing functions using gPROMS language * Environmentally consistent setting changes from steady-state simulation models to dynamic simulation models * Powerful optimization search and analysis functions * Global System Analysis (GSA) * High-Performance Computing (HPC)	<Scaling Up from the Lab> By acquiring and utilizing information within the same framework from research and development to engineering design, trial operation, automation, and plant operation, we generate maximum performance. <Digital R&D and Design> Using high-fidelity physicochemical predictive models validated against experimental and pilot data as needed, we accelerate innovation and achieve economically optimal process design through a risk-based and science-driven approach. <Digital Process Twin> By constructing a "digital twin" based on data measured by sensors connected to products and plant equipment, we enable real-time monitoring of the health and performance of your production processes. By combining this with various mathematical models of chemical processes, we analyze and optimize process design and operations quickly, accurately, and effectively.
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シーメンス株式会社 gPROMS ポートフォリオ

Address

Kanagawa/

Business Activities

We provide consulting services focused on the development, sales, and technical support of "gPROMS," as well as the creation of simulation models tailored to our customers' applications. Our software products and technical services are widely utilized in the energy sector, including gas, oil, electricity (nuclear), and fuel cells, as well as in the chemical sector, which includes petrochemicals and pharmaceuticals, and in the life sciences sector, such as food and daily necessities. Unlike other software, our powerful equation-based calculation engine seamlessly handles both steady-state and dynamic simulations, allowing models adjusted with batch processing experimental data to be scaled up for use in continuous processing plant design and operational optimization. In recent years, we have conducted research on continuous production in the pharmaceutical industry, accumulating a track record of deliveries to major pharmaceutical companies while building a robust database that is unmatched by competitors.

Key Partners

Used by renowned companies, universities, and research institutes around the world.

Featured Products

Simulation software 'gPROMS Process'

overview

We have libraries for each application. AML: Fixed-Bed Catalytic Reactor AML: Trickle-Bed Reactor AML: Gas-Liquid Contactors gML: Separations - Adsorption gML: Separations - Membranes gML: Utilities gML: Water Activated Sludge gML: Olefins *For more details, please refer to the materials. We regularly conduct free training sessions regarding this product. Anyone interested is welcome to participate.

Application/Performance example

1. PSA (Pressure Swing Adsorption) PSA is essentially a dynamic process, and this software can be considered an ideal tool for it. The definition of the operating cycle and the description of the valve opening and closing schedule are also taken into account to allow input from the scheduling GUI. The SIB (Self-Interacting Bed) model is a single adsorption column model that serves as a mechanism to represent PSA processes involving multiple adsorption columns, enabling efficient calculation of cyclic steady states, making it a convenient approach for solving optimal design problems in PSA. 2. Examination of Hybrid Separation Processes In the design of composite processes that combine membrane separation and PSA processes, the membrane model and adsorption column model included in gML allow for rapid and detailed examination of composite processes. 3. Sensitivity Analysis of Gas Separation Process Design This accommodates processes that include multiple distillation columns and multiple recycle streams.

gPROMS simulation software

overview

We offer packaged products by field. * Food, beverages, and daily consumer goods * Pharmaceuticals * Brine Mining * Waste treatment * Chemicals * Energy * Hydrogen * Flare, depressurization, and relief * Utility systems * Carbon dioxide emissions *Please inquire about the products included in each category. **Features** * Packages tailored for specific applications * Creation of flow sheets using Drag & Drop * High-precision custom model creation and editing functions using gPROMS language * Environmentally consistent setting changes from steady-state simulation models to dynamic simulation models * Powerful optimization search and analysis functions * Global System Analysis (GSA) * High-Performance Computing (HPC)

Application/Performance example

<Scaling Up from the Lab> By acquiring and utilizing information within the same framework from research and development to engineering design, trial operation, automation, and plant operation, we generate maximum performance. <Digital R&D and Design> Using high-fidelity physicochemical predictive models validated against experimental and pilot data as needed, we accelerate innovation and achieve economically optimal process design through a risk-based and science-driven approach. <Digital Process Twin> By constructing a "digital twin" based on data measured by sensors connected to products and plant equipment, we enable real-time monitoring of the health and performance of your production processes. By combining this with various mathematical models of chemical processes, we analyze and optimize process design and operations quickly, accurately, and effectively.
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Simulation Software - Company Ranking(4 companyies in total)

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