Reliance Refining Building Worlds Larges Coke Gasification ProjectTodd Pencarinha
The world's largest refinery - Reliance Refining in India is building the world's largest coke gasification plant. The plant will gasify 9 million MT/year of petroleum coke
Ensuring Success and Viable Economics of Your Renewable Natural Gas to CNG or Pipeline Project
-Introduction to Renewable Natural Gas / Biomethane
-Overview of Water Wash Biogas Upgrading Technology
-Project Feasibility Analysis Illustrations
-Case Studies
-Waste to Pump – supply chain from capture to utilization of RNG/Biomethane
-Go-to-market / GHG numbers / economics of LCFS / RFS2 / and European standards
Reliance Refining Building Worlds Larges Coke Gasification ProjectTodd Pencarinha
The world's largest refinery - Reliance Refining in India is building the world's largest coke gasification plant. The plant will gasify 9 million MT/year of petroleum coke
Ensuring Success and Viable Economics of Your Renewable Natural Gas to CNG or Pipeline Project
-Introduction to Renewable Natural Gas / Biomethane
-Overview of Water Wash Biogas Upgrading Technology
-Project Feasibility Analysis Illustrations
-Case Studies
-Waste to Pump – supply chain from capture to utilization of RNG/Biomethane
-Go-to-market / GHG numbers / economics of LCFS / RFS2 / and European standards
Global EPC & LSTK company, Nuberg has proven track record of executing turnkey hydrogen peroxide plants from concept to commissioning. Its core expertise is in working as single point responsibility turnkey project contractor with end-to-end mandate for technology know-how, engineering, procurement, construction, project management and commissioning.
Nuberg is an established hydrogen peroxide plant technology supplier. The company owns technology and has set up many EPC & LSTK hydrogen peroxide manufacturing plants world over. Nuberg's R&D center in Sweden has developed advanced and most modern hydrogen peroxide process technology. The R&D facility is at the forefront of developing new process technology for chemicals and speciality chemicals.
Skilled and experienced team of 300+ engineers is equipped with latest software and technologies required for plant design and project engineering. Its experts in FEED, Basic and Detail Engineering have years of global experience in executing turnkey projects. All heavy engineering equipment for hydrogen peroxide plants are manufactured and supplied by Nuberg's state-of-the-art in-house fabrication facility in Gujarat, India.
Few of hydrogen peroxide plant customers of Nuberg include AMASSAS co. (Ethiopia), Samuda Chemicals (Bangladesh), Al Ghaith Industries (Abu Dhabi), TASNIM Chemical Complex (Bangladesh).
Chlor Alkali /Chemical Plant - Under Construction, executed by global EPC company Nuberg in Abu Dhabi, UAE. Built on behalf of Al Ghaith Industries, the Chlor Alkali Plant will be located at Mussafah Industrial City of Abu Dhabi 1 (ICAD 1). The project is on Engineering Procurement, Construction (EPC) – Lump Sump Turn Key (LSTK) basis. Main product of the plant is Caustic Soda and by products are Hydrochloric Acid, Sodium Hypochlorite and Calcium Chloride. In terms of plant technology and process, Membrane Cell Technology based on Asahi Kesei Chemical Corporation, Japan and
Caustic Flaking Technology, Switzerland will be used. Fabrication will be done from Nuberg’s state-of-the-art fabrication facility in Gujarat, India. The facility has ISO, ASME, U Stamp and IBR etc. accreditation. The plant is a big step by Al Ghaith Industries to help build UAE's non oil dependent industry.
Refinery complexity quantifies the sophistication and capital intensity of a refinery and has found widespread application in facility classification, cost estimation, sales price models and other uses.
This review describes the primary applications of refinery complexity and some recent extension.
Please join GEO Inc. for a technical presentation on C3™ Technology (Cooling, Compression, Condensation) that will provide regulators, consultants, and field applicators with an understanding of the appropriate and diverse uses of this advanced vapor extraction and treatment system. Additionally, this slideshow will help identify when C3 Technology should be used, and how to apply the technology most effectively to achieve optimal efficiency and output rates.
Debottlenecking Claus Sulfur Recovery Units: An Investigation of the applicat...Gerard B. Hawkins
Debottlenecking Claus Sulfur Recovery Units: An Investigation of the application of Zinc Titanates
1 Executive Summary
2 Claus Process
2.1 Partial Combustion Claus
2.2 Split Flow Claus
2.3 Sulfur Recycle Claus
3 Zinc Titanates
4 Application of Zinc Titanate to Debottleneck Partial Combustion Claus by 10%
4.1 Process
4.2 ASPEN Modeling Results
4.3 Cost of Zinc Titanate Bed Installation
4.3.1 Basis of Costing
4.3.2 Zinc Titanate Beds
4.3.3 Regen Cooler
4.3.4 Blowers
4.3.5 Results
4.4 Alternative Debottlenecking Technology for Partial Combustion Claus
4.5 Cost of 10% Debottlenecking Using COPE Process
5 Debottlenecking Claus Split Flow System by 10% with Zinc Titanates
6 Debottlenecking Claus Sulfur Recycle System With Zinc Titanate
7 Effect of Zinc Titanate Debottlenecking on Existing Tail; Gas Treatment Systems
7.1 Selectox
7.2 SuperClaus99
7.3 Superclaus 99.5
7.4 SCOT Process
7.5 Zinc Titanate as a Claus Tail Gas Treatment
7.6 H2S Removal Efficiency With Zinc Titanate
8 Effects on COS and CS2 Formation
9 Questions for further Investigation
FIGURES
Figure 1 Claus Unit and TGCU
Figure 2 Claus Process
Figure 3 Typical Claus Sulfur Recovery Unit
Figure 4 Two-Stage Claus SRU
Figure 5 The Super Claus Process
Figure 6 SCOT
Figure 7 SCOT/BSR-MDEA (or clone) TGCU
REFERENCES: PATENTS
US4333855_PROMOTED_ZINC_TITANATE_CATALYTIC_AGENT
US4394297_ZINC_TITANATE_CATALYST
US6338794B1_DESULFURIZATION_ZINC_TITANATE_SORBENTS
Souheil Saadi, Business Development Manager at Haldor Topsoe A/S.
Iceland Geothermal Conference 2018 - Breaking the Barriers
24 - 27 April, 2018, Harpa, Reykjavík
Global EPC & LSTK company, Nuberg has proven track record of executing turnkey hydrogen peroxide plants from concept to commissioning. Its core expertise is in working as single point responsibility turnkey project contractor with end-to-end mandate for technology know-how, engineering, procurement, construction, project management and commissioning.
Nuberg is an established hydrogen peroxide plant technology supplier. The company owns technology and has set up many EPC & LSTK hydrogen peroxide manufacturing plants world over. Nuberg's R&D center in Sweden has developed advanced and most modern hydrogen peroxide process technology. The R&D facility is at the forefront of developing new process technology for chemicals and speciality chemicals.
Skilled and experienced team of 300+ engineers is equipped with latest software and technologies required for plant design and project engineering. Its experts in FEED, Basic and Detail Engineering have years of global experience in executing turnkey projects. All heavy engineering equipment for hydrogen peroxide plants are manufactured and supplied by Nuberg's state-of-the-art in-house fabrication facility in Gujarat, India.
Few of hydrogen peroxide plant customers of Nuberg include AMASSAS co. (Ethiopia), Samuda Chemicals (Bangladesh), Al Ghaith Industries (Abu Dhabi), TASNIM Chemical Complex (Bangladesh).
Chlor Alkali /Chemical Plant - Under Construction, executed by global EPC company Nuberg in Abu Dhabi, UAE. Built on behalf of Al Ghaith Industries, the Chlor Alkali Plant will be located at Mussafah Industrial City of Abu Dhabi 1 (ICAD 1). The project is on Engineering Procurement, Construction (EPC) – Lump Sump Turn Key (LSTK) basis. Main product of the plant is Caustic Soda and by products are Hydrochloric Acid, Sodium Hypochlorite and Calcium Chloride. In terms of plant technology and process, Membrane Cell Technology based on Asahi Kesei Chemical Corporation, Japan and
Caustic Flaking Technology, Switzerland will be used. Fabrication will be done from Nuberg’s state-of-the-art fabrication facility in Gujarat, India. The facility has ISO, ASME, U Stamp and IBR etc. accreditation. The plant is a big step by Al Ghaith Industries to help build UAE's non oil dependent industry.
Refinery complexity quantifies the sophistication and capital intensity of a refinery and has found widespread application in facility classification, cost estimation, sales price models and other uses.
This review describes the primary applications of refinery complexity and some recent extension.
Please join GEO Inc. for a technical presentation on C3™ Technology (Cooling, Compression, Condensation) that will provide regulators, consultants, and field applicators with an understanding of the appropriate and diverse uses of this advanced vapor extraction and treatment system. Additionally, this slideshow will help identify when C3 Technology should be used, and how to apply the technology most effectively to achieve optimal efficiency and output rates.
Debottlenecking Claus Sulfur Recovery Units: An Investigation of the applicat...Gerard B. Hawkins
Debottlenecking Claus Sulfur Recovery Units: An Investigation of the application of Zinc Titanates
1 Executive Summary
2 Claus Process
2.1 Partial Combustion Claus
2.2 Split Flow Claus
2.3 Sulfur Recycle Claus
3 Zinc Titanates
4 Application of Zinc Titanate to Debottleneck Partial Combustion Claus by 10%
4.1 Process
4.2 ASPEN Modeling Results
4.3 Cost of Zinc Titanate Bed Installation
4.3.1 Basis of Costing
4.3.2 Zinc Titanate Beds
4.3.3 Regen Cooler
4.3.4 Blowers
4.3.5 Results
4.4 Alternative Debottlenecking Technology for Partial Combustion Claus
4.5 Cost of 10% Debottlenecking Using COPE Process
5 Debottlenecking Claus Split Flow System by 10% with Zinc Titanates
6 Debottlenecking Claus Sulfur Recycle System With Zinc Titanate
7 Effect of Zinc Titanate Debottlenecking on Existing Tail; Gas Treatment Systems
7.1 Selectox
7.2 SuperClaus99
7.3 Superclaus 99.5
7.4 SCOT Process
7.5 Zinc Titanate as a Claus Tail Gas Treatment
7.6 H2S Removal Efficiency With Zinc Titanate
8 Effects on COS and CS2 Formation
9 Questions for further Investigation
FIGURES
Figure 1 Claus Unit and TGCU
Figure 2 Claus Process
Figure 3 Typical Claus Sulfur Recovery Unit
Figure 4 Two-Stage Claus SRU
Figure 5 The Super Claus Process
Figure 6 SCOT
Figure 7 SCOT/BSR-MDEA (or clone) TGCU
REFERENCES: PATENTS
US4333855_PROMOTED_ZINC_TITANATE_CATALYTIC_AGENT
US4394297_ZINC_TITANATE_CATALYST
US6338794B1_DESULFURIZATION_ZINC_TITANATE_SORBENTS
Souheil Saadi, Business Development Manager at Haldor Topsoe A/S.
Iceland Geothermal Conference 2018 - Breaking the Barriers
24 - 27 April, 2018, Harpa, Reykjavík
The TIG Group is specialized in Total Site Solutions – single source solutions without cost - and
time consuming interfaces. Our team consists of experienced specialists from different fields of
expertise and our professionalism is founded on complete in-house project management.
Visit our website: www.tiggroup-mena.com
Oil Producers Turn Wellhead Flare Gas Headaches into BenefitsStephen Rach
Berg Chilling Systems Inc. and GTUIT have teamed up to launch GTUIT Core System, a game changing solution to the wellhead gas challenge. GTUIT Core enables oil producers to reduce environmental impact of their operations, reduce production costs and increase revenue.
Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
Saudi Arabia stands as a titan in the global energy landscape, renowned for its abundant oil and gas resources. It's the largest exporter of petroleum and holds some of the world's most significant reserves. Let's delve into the top 10 oil and gas projects shaping Saudi Arabia's energy future in 2024.
CW RADAR, FMCW RADAR, FMCW ALTIMETER, AND THEIR PARAMETERSveerababupersonal22
It consists of cw radar and fmcw radar ,range measurement,if amplifier and fmcw altimeterThe CW radar operates using continuous wave transmission, while the FMCW radar employs frequency-modulated continuous wave technology. Range measurement is a crucial aspect of radar systems, providing information about the distance to a target. The IF amplifier plays a key role in signal processing, amplifying intermediate frequency signals for further analysis. The FMCW altimeter utilizes frequency-modulated continuous wave technology to accurately measure altitude above a reference point.
Hybrid optimization of pumped hydro system and solar- Engr. Abdul-Azeez.pdffxintegritypublishin
Advancements in technology unveil a myriad of electrical and electronic breakthroughs geared towards efficiently harnessing limited resources to meet human energy demands. The optimization of hybrid solar PV panels and pumped hydro energy supply systems plays a pivotal role in utilizing natural resources effectively. This initiative not only benefits humanity but also fosters environmental sustainability. The study investigated the design optimization of these hybrid systems, focusing on understanding solar radiation patterns, identifying geographical influences on solar radiation, formulating a mathematical model for system optimization, and determining the optimal configuration of PV panels and pumped hydro storage. Through a comparative analysis approach and eight weeks of data collection, the study addressed key research questions related to solar radiation patterns and optimal system design. The findings highlighted regions with heightened solar radiation levels, showcasing substantial potential for power generation and emphasizing the system's efficiency. Optimizing system design significantly boosted power generation, promoted renewable energy utilization, and enhanced energy storage capacity. The study underscored the benefits of optimizing hybrid solar PV panels and pumped hydro energy supply systems for sustainable energy usage. Optimizing the design of solar PV panels and pumped hydro energy supply systems as examined across diverse climatic conditions in a developing country, not only enhances power generation but also improves the integration of renewable energy sources and boosts energy storage capacities, particularly beneficial for less economically prosperous regions. Additionally, the study provides valuable insights for advancing energy research in economically viable areas. Recommendations included conducting site-specific assessments, utilizing advanced modeling tools, implementing regular maintenance protocols, and enhancing communication among system components.
Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
Forklift Classes Overview by Intella PartsIntella Parts
Discover the different forklift classes and their specific applications. Learn how to choose the right forklift for your needs to ensure safety, efficiency, and compliance in your operations.
For more technical information, visit our website https://intellaparts.com
Fundamentals of Electric Drives and its applications.pptx
GTC Sulfur Solutions
1. GTC Technology Licensing Partnerships at Work
Sulfur and Gas Processing Technologies
GTC Sulfur Solutions
Engineered to Innovate®
2. GTC Sulfur Solutions
GTCTechnologyLicensingPartnershipsatWork
Engineered to Innovate
GTC Technology
GTC Technology is a global licensor of process
technologies offering innovative and custom solutions to
the chemical, petrochemical, refining and gas processing
markets. Our history of innovation dates back to our
heritage as a process technology solutions division at a
major engineering, procurement and construction firm.
For the hydrocarbon processing industry, we offer more
than 25 licensed technologies to increase capacity, improve
efficiency, and maximize production
GTC Technology Partnerships at Work
Whether using our own innovative technologies or
working with highly experienced technology partners,
GTC brings a variety of innovative ideas to the process
industry. In the sulfur and gas processing field, we offer
“modified Claus” as well as novel technologies that can
leverage “modified Claus” processes, and operate in
capacity ranges where such technology is not economically
or operationally competitive.
GT-SPOC™ - Next Generation CLAUS process
GT-SPOC is a novel and patented technology that
eliminates the flame section of a conventional “modified
Claus” unit, simultaneously improving conversion
efficiency. Many of the problems associated with “modified
Claus” units are addressed (COS formation, CS2
formation, difficulty controlling air/acid gas ratio, sooting
during start up and shut down). GT-SPOC can upgrade
the furnace section of conventional “modified Claus” units to
improve performance and conversion efficiency.
In summary, GT-SPOC has applicability to reduce
unit footprint, reduce capital cost and increase overall
conversion efficiencies in a new installation, while
producing high purity sulfur.
GT-DOS™ - Direct Oxidation of Sulfur
GT-DOS is a novel and patented direct oxidation
technology that directly converts H2
S to sulfur. The
advantage is that single stage efficiency of nearly 90% is
possible without requiring acid gas enrichment.
GT-DOS can directly treat amine offgas streams, provide
a final treatment stage in a Claus process and treat fuel
gas streams to reduce sulfur emissions from furnaces and
incinerators.
CrystaSulf®
CrystaSulf is a liquid phase Claus technology, where the
produced sulfur is dissolved in a proprietary solvent. The
sulfur is crystalized under lower temperature conditions
and recovered. The lean solvent is then recirculated.
CrystaSulf has particular applicability to treat high
pressure, lean H2
S streams without the need for acid gas
enrichment, or CO2
removal, while delivering a sweet
treated gas stream. This technology is applicable to natural
gas streams including those streams that are contaminated
with heavy hydrocarbons, such as recycle hydrogen streams
in refineries or coal gasification streams.
GTCTechnology 1001 S. Dairy Ashford, Suite 500 Houston,Texas 77077 USA Main +1-281-597-4800 Toll Free +1-877-693-4222
inquiry@gtctech.com | www.gtctech.com
Sulfur Plant Capacity (Ton/Day)
H2
SinGas
Direct Oxidation of Sulfur
50%
40%
30%
20%
10%
0%
0.1 1 10 100 1,000
GT-DOSTM
Sulfur Plant Capacity (Ton/Day)
H2
SinGas
Fast Contact CLAUS Process
50%
40%
30%
20%
10%
0%
0.1 1 10 100 1,000
GT-SPOCTM
GT-SPOC with Acid
Gas Enrichment
TM
3. GTCTechnology Engineered to Innovate
GTCTechnology 1001 S. Dairy Ashford, Suite 500 Houston,Texas 77077 USA Main +1-281-597-4800 Toll Free +1-877-693-4222
inquiry@gtctech.com | www.gtctech.com
Conventional Amine, Claus and Tail Gas
We have an established group of highly qualified,
experienced engineers who are well known in the sulfur
management industry. This group has licensed and
designed hundreds of sulfur recovery and tail gas treating
units as well as sulfur degassing and gas processing plants
over the years. With at least 25 years of experience per
engineer in comprehensive sulfur management, it is
a veteran team that has access to premier technology
providers worldwide, relationships with all major licensors
and equipment suppliers, and extensive experience with
amine, conventional Claus and associated technologies.
GT-SORB™ - Sorbents and Catalysts
GTC offers a range of catalysts and sorbents to remove
trace quantities of sulfur from gas and liquid streams.
GT-CO2
- CO2
Removal and Carbon Capture
GTC’s background in CO2
capture dates to pioneering
work in the mid 1980’s in CO2
with flue gases and
other high CO2
streams. The technology is based on
the use of amine based solvents to capture CO2
by
absorption followed by regeneration to recover the CO2
.
Optimized amine chemistry to manage amine degradation
and operation in the presence of oxygen are critical.
Innovations in mass transfer and heat transfer improve
overall energy efficiency.
EPCm and Modular Systems
GTC has the capability of providing basic engineering
packages, front-end engineering design, detailed
engineering, procurement, and construction management
as well as complete modular systems.
Sulfur Technologies
• 0.2 to 2,500 tons/day
• Rich H2
S gas up to 100%
• Lean H2
S gas under 20%
• Ammonia removal, destruction or cracking
• Heavy hydrocarbon, BTX destruction
• Cyanide destruction
• Tail gas treating
• Recoveries from 98.5% up to 99.99+ %
• Oxygen enrichment
• Low NOx
, ultra low NOx
, staged NOx
burners
• CO control, ammonia burning incinerators
Sour Gas Processing
• From 1 MMSCFD (1,000 NM3
/H) to 4,000
MMSCFD (4,000,000 NM3
/H)
• H2
S up to 50%
• CO2
up to 95%
• COS, CS2
, mercaptans, elemental sulfur, mercury and
BTX Removal
• NGL recovery
Amine Treating
• From 50 gpm (13 m3
/h) to 20,000 gpm (5,000 m3
/h)
• Generic or proprietary solvents
• Carbon capture and CO2
removal
Sour Water Stripping
• From 50 gpm (13 m3
/h) to 2,000 gpm (500 m3
/h)
• One stage or two stage SWS design
• Ammonia and cyanide removal
Engineered to Innovate
To learn more about GTC Technology’s leading-edge
technology solutions and the many ways we can help
improve your operations and profitability, call us today
at +1-281-597-4800, e-mail us at inquiry@gtctech.com
or visit our Website at http://www.gtctech.com.
CrystaSulf® is a registered trademark of URS Corporation.
GT-SPOC™, GT-DOS™ and GT-SORB™ are trademarks of GTCTechnology US, LLC.
Sulfur Plant Capacity (Ton/Day)
H2
SinGas
Sorbents and Catalysts
50%
40%
30%
20%
10%
0%
0.1 1 10 100 1,000
Scavengers
