Green Hydrogen Auctions: A Guide to Design
The benefits of clean hydrogen in general and green hydrogen – derived from renewable sources through water electrolysis (see Figure 1) – in particular go beyond reducing GHG emissions to reinforcing energy security and creating opportunities for green industrialisation. Green hydrogen can spark a transformation with beneficial impacts on the economic and social dimensions of sustainability: economic through green industrialisation, energy independence, increased participation in global trade and markets; and social through job creation and reliable energy access.
Green Hydrogen Auctions: A Guide to Design
The benefits of clean hydrogen in general and green hydrogen – derived from renewable sources through water electrolysis (see Figure 1) – in particular go beyond reducing GHG emissions to reinforcing energy security and creating opportunities for green industrialisation. Green hydrogen can spark a transformation with beneficial impacts on the economic and social dimensions of sustainability: economic through green industrialisation, energy independence, increased participation in global trade and markets; and social through job creation and reliable energy access.
NDC 3.0 Guidebook for Industrial Decarbonization | Volume 1
This guide is designed to provide comprehensive support for countries seeking to enhance the ambition and implementation of industrial decarbonization measures within their Nationally Determined Contributions (NDCs). Aligned with the objectives of NDC 3.0, it offers an adaptable framework that identifies key areas for NDC enhancement and outlines a step-by-step approach to updating and strengthening NDCs, specifically in the industrial sector.
NDC 3.0 Guidebook for Industrial Decarbonization | Volume 1
This guide is designed to provide comprehensive support for countries seeking to enhance the ambition and implementation of industrial decarbonization measures within their Nationally Determined Contributions (NDCs). Aligned with the objectives of NDC 3.0, it offers an adaptable framework that identifies key areas for NDC enhancement and outlines a step-by-step approach to updating and strengthening NDCs, specifically in the industrial sector.
Instrumentation & Control Engineering Design Documents
This Document Explain Roles, Duties and Responsibility of I&C Design Team, for creating, reviewing, and managing several important documents throughout the project lifecycle. These instrument documents serve as technical guidelines, project records, and communication tools.
Instrumentation & Control Engineering Design Documents
This Document Explain Roles, Duties and Responsibility of I&C Design Team, for creating, reviewing, and managing several important documents throughout the project lifecycle. These instrument documents serve as technical guidelines, project records, and communication tools.
Design Guidelines for Drinking Water Systems in British Columbia
Well-designed drinking water systems are critical for the protection of public health. The purpose of these Design Guidelines for Drinking Water Systems in British Columbia (the Design Guidelines) is to support the implementation of British Columbia’s Drinking Water Protection Act and Drinking Water Protection Regulation by establishing guidance that can be used to inform the planning, design, review, and approval processes for the construction of new drinking water systems, and when considering changes to existing drinking water systems.
Design Guidelines for Drinking Water Systems in British Columbia
Well-designed drinking water systems are critical for the protection of public health. The purpose of these Design Guidelines for Drinking Water Systems in British Columbia (the Design Guidelines) is to support the implementation of British Columbia’s Drinking Water Protection Act and Drinking Water Protection Regulation by establishing guidance that can be used to inform the planning, design, review, and approval processes for the construction of new drinking water systems, and when considering changes to existing drinking water systems.
Design Guideline Ds211: Dissolved Air Flotation
Dissolved Air Flotation (DAF) is a phase separation process, whereby microscopic bubbles are released from solution when water, supersaturated with air under high pressure, is released under atmospheric conditions to interact with suspended particles in a water body causing the particles to float to the surface. DAF systems can be designed to operate with or without polymer dosing. Although polymer dosing is covered in this guideline, the guideline does not include the design of polyelectrolyte dosing systems.
Design Guideline Ds211: Dissolved Air Flotation
Dissolved Air Flotation (DAF) is a phase separation process, whereby microscopic bubbles are released from solution when water, supersaturated with air under high pressure, is released under atmospheric conditions to interact with suspended particles in a water body causing the particles to float to the surface. DAF systems can be designed to operate with or without polymer dosing. Although polymer dosing is covered in this guideline, the guideline does not include the design of polyelectrolyte dosing systems.
Process Design Guide for Small Wastewater Works
INTRODUCTION
The official starting date of this project was 1 April 2006 and the project was scheduled for completion in May 2008. However, due to the Project Steering Committee requesting the inclusion of material that was additional to that specified in the original proposal, the completion date for the project was extended to September 2008. The motivation for conducting such a project was based on the fact that 'A Guide to the Design of Sewage Purification Works' was first published in 1973 by the then Southern African Branch of the Institute for Water Pollution Control (IWPC) and over the years this useful reference document has become known as the 'Black Book'. This guide was revised and republished in 1987, the same year that the IWPC became the Institute of Water and Environmental Management and the same year in which the Water Institute of Southern Africa was formed.
Process Design Guide for Small Wastewater Works
INTRODUCTION
The official starting date of this project was 1 April 2006 and the project was scheduled for completion in May 2008. However, due to the Project Steering Committee requesting the inclusion of material that was additional to that specified in the original proposal, the completion date for the project was extended to September 2008. The motivation for conducting such a project was based on the fact that 'A Guide to the Design of Sewage Purification Works' was first published in 1973 by the then Southern African Branch of the Institute for Water Pollution Control (IWPC) and over the years this useful reference document has become known as the 'Black Book'. This guide was revised and republished in 1987, the same year that the IWPC became the Institute of Water and Environmental Management and the same year in which the Water Institute of Southern Africa was formed.
Tank Design and Operations
Storage and treating facilities are major elements of an oil terminal. It is both practical and economical to keep oil
wells flowing at a fairly constant rate, whereas it is not normally possible to maintain the same output rate at the point of sale/export. A large percentage of sales is on a batch basis (i.e. by marine tanker), hence the need for storage facilities in an oil terminal. Wellstream fluids invariably require some form of treatment to bring them within specification as a marketable product. Although some treatment does take place in the field, further processing and final conditioning of the sales products are done in the terminal, hence the need for treating facilities. With the exception of specialized wash tanks, all storage and treating functions are carried out in cylindrical steel tanks.
Tank Design and Operations
Storage and treating facilities are major elements of an oil terminal. It is both practical and economical to keep oil
wells flowing at a fairly constant rate, whereas it is not normally possible to maintain the same output rate at the point of sale/export. A large percentage of sales is on a batch basis (i.e. by marine tanker), hence the need for storage facilities in an oil terminal. Wellstream fluids invariably require some form of treatment to bring them within specification as a marketable product. Although some treatment does take place in the field, further processing and final conditioning of the sales products are done in the terminal, hence the need for treating facilities. With the exception of specialized wash tanks, all storage and treating functions are carried out in cylindrical steel tanks.
