№ files_lp_4_process_2_70362
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This document outlines the methodology for the recovery and utilization of waste heat in gas co-generation systems by installing heat exchangers in heat recovery steam generators (HRSGs), aiming to reduce greenhouse gas emissions.
Year:
Not specified
Region / City:
Not specified
Topic:
Waste heat recovery
Document Type:
Methodology
Organization / Institution:
Joint Crediting Mechanism
Author:
Not specified
Target Audience:
Not specified
Effective Period:
Not specified
Approval Date:
Not specified
Date of Amendments:
Not specified
Price: 8 / 10 USD
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Year:
2022
Region / City:
Monaco
Topic:
Geospatial Information, Producer Codes
Document Type:
User Manual
Organization:
International Hydrographic Organization
Author:
International Hydrographic Organization
Target Audience:
Data producers, organizations involved in geospatial information, maritime navigation agencies
Period of Validity:
Not specified
Approval Date:
Not specified
Date of Changes:
Not specified
Year:
2017
Region / City:
Arlington, Texas
Theme:
World Literature, Cross-Cultural Issues
Document Type:
Syllabus
Institution:
University of Texas at Arlington
Author:
Joul Layne Smith
Target Audience:
University Students
Period of Action:
Fall Semester 2017
Approval Date:
Not specified
Date of Changes:
Not specified
Year:
2017
Region / City:
Mexico
Topic:
Solar Energy, Emission Reduction
Document Type:
Methodology
Organization / Institution:
Joint Crediting Mechanism (JCM)
Author:
Joint Committee
Target Audience:
Project developers, environmental stakeholders
Period of Validity:
Ongoing
Approval Date:
29 December 2017
Revision Date:
None
Country:
Nepal
Institution name:
Ministry of Forests and Environment
Institution address:
Singha Durbar, Kathmandu, Nepal
Representative of the institution:
Dr. Maheshwar Dhakal
E-mail address of the representative:
[email protected]
Phone number of the representative:
+977- 01-4211586
Note:
Additional representative (optional)
Additional representative of the institution:
Mr. Hari Prasad Sharma
E-mail address of the additional representative:
[email protected]
Phone number of the additional representative:
+977- 01-4211586
Is your country a Party to the Paris Agreement?:
Yes
Has your country prepared, communicated, and is it maintaining a Nationally Determined Contribution (NDC) in accordance with Article 4, paragraph 2 of the Paris Agreement?:
Yes
Has your country designated a Designated National Authority (DNA) for the Article 6.4 mechanism and communicated that designation to the UNFCCC secretariat?:
Yes
Economic Growth and Green Investments:
Participation in the Article 6.4 mechanism facilitates access to international carbon markets, attracting green investments into sectors such as renewable energy, waste management, and forestry. These projects not only reduce emissions but also create jobs, promote local enterprises, and spur technological innovation.
Social Inclusion and Equity:
Projects implemented under this mechanism often prioritize the inclusion of vulnerable groups, including women and marginalized communities.
Environmental Protection:
Many projects focus on enhancing ecosystem resilience and biodiversity. Reforestation, afforestation, and sustainable land-use projects contribute to carbon sequestration, while also addressing issues like soil erosion and water scarcity.
Capacity Building and Technology Transfer:
Engaging with the Article 6.4 mechanism provides Nepal with access to international expertise and technologies.
National Prerogative in Defining Sustainable Development:
Nepal retains the sovereign right to define what constitutes sustainable development within its national context.
Renewable Energy Development:
Solar, wind, hydropower, and bioenergy projects to increase access to clean energy and reduce dependence on fossil fuels.
Energy Efficiency Improvements:
Industrial energy efficiency programs to lower emissions in manufacturing and processing sectors.
Sustainable Land Use and Forestry:
Afforestation, reforestation, and forest management projects to enhance carbon sequestration.
Agriculture and Waste Management:
Climate-smart agricultural practices to reduce methane and nitrous oxide emissions.
Transport Sector Projects:
Electric vehicle infrastructure and sustainable public transportation systems.
Adaptation and Resilience Co-benefit Projects:
Activities that integrate climate adaptation with mitigation, such as water resource management linked with energy or forestry projects.
Version:
01.0
Date:
23 February 2024
Description:
Initial publication.
Decision Class:
Regulatory
Document Type:
Form
Business Function:
A6.4 activity cycle
Keywords:
A6.4 mechanism, A6.4 projects, host party, project implementation
Context:
A form outlining the transition request process for CDM activities to the Article 6.4 mechanism under the UNFCCC.
Year:
2023
Document Type:
Implementation Guide
Project Name:
UCC AN-PN-TS
Document Version:
0.1.0
Authors:
Not specified
Approvals:
Yves Arys (Project Manager D&A / Business Analyst D&A), Charles Poncin (Business Analyst D&A), Yann Philippe (Service Manager ICT)
Intended Audience:
Economic Operators, Customs Authorities, IT and Business Analysts
Key Topics:
Re-export notifications, REN invalidation, message flow, technical and business validation, message codes
Document History:
Draft created on 31/03/2023
Distribution:
Internal project stakeholders
Applicable Systems:
Customs IT systems, Temporary Storage procedures
Message Standards:
IE570, IE614, IE522, IE525, IE557, IE561, IE571, IE609, IE906, IERN928
Validation Rules:
Technical validation (XSD, format), Business validation (EORI, write-off, code lists)
Year:
2018
Region / Country:
Vietnam
Subject:
Greenhouse gas emission reduction in industrial kilns
Document type:
Approved methodology
Organization:
Joint Crediting Mechanism
Author:
Joint Committee
Target audience:
Project developers and stakeholders in industrial emission reduction
Effective period:
From 29 August 2018
Version:
01.0
Methodology:
Installation of tunnel and shuttle kilns with waste heat recovery system
GHG types:
CO2
Emission sources:
Natural gas consumption of reference kilns
Calculation approach:
Net supplied heat quantity recovered and CO2 emission factor
Monitoring parameters:
Supplied air quantity pre-heated, Annual average temperature of combustion air entering kiln
Date:
August 26, 2009
To:
Laboratory Group A
From:
Tony Butterfield
Title:
Engineering Training Supervisor
Subject:
Double Pipe Heat Exchanger
Organization:
Laboratory Group A
Document Type:
Internal Memorandum
Equipment:
Double Pipe Heat Exchanger
Reference Data Year:
1996
Meeting Deadline:
On or before Wednesday, September 9th, 2009
Technical Focus:
Heat transfer capacity, overall heat transfer coefficient, convection coefficients, fouling assessment
Operating Conditions:
Various steam pressures and cold side flow rates
Assumptions:
Perfect insulation, fully developed flow, constant cold-side heat capacity, steam condensation with latent heat method
Requested Analysis:
Comparison of steam-side and cold-side heat transfer rates; determination of overall and theoretical heat transfer resistances; evaluation of scale buildup
Year:
2026
Institution:
Technocrats Institute of Technology, Bhopal
Authors:
Umesh Kumar Sen, Sanjeev Yadav
Document Type:
Research Paper
Field:
Mechanical Engineering / Heat Transfer
Keywords:
Helical Coil, Heat Exchanger, CFD Analysis, Baffles, Mass Flow Rate, Thermal Performance
Fluids:
Water
Materials:
Aluminium
Geometry Parameters:
Tube diameters, Coil diameter, Pitch, Curvature ratios
Simulation Type:
CFD (Computational Fluid Dynamics)
Flow Arrangement:
Parallel flow
Baffle Types:
Rectangular, Semi-elliptical
Mass Flow Rate Analysis:
Hot fluid (0.14, 0.168, 0.196 kg/s), Cold fluid (0.084, 0.112, 0.14, 0.168 kg/s)
Year:
2022
Region / City:
Bonham, TX, USA
Subject:
Replacement of heat exchanger system and associated components
Document Type:
Government solicitation / contract notice
Agency / Institution:
Department of Veterans Affairs, North Texas Veterans Health Care System
Contracting Office:
VISN 17 Network Contracting Office
Point of Contact:
Jennifer Stringer, Contract Specialist
NAICS Code:
238220
Product/Service Code:
J045
Set-Aside Status:
Service-Disabled Veteran-Owned Small Business (SDVOSBC)
Response Deadline:
09-07-2022 10:00 Central Time
Archive Duration:
15 days after response date
Place of Performance:
1201 E 9th St, Building 3, Bonham, TX 75418
Funding:
Not Recovery Act funded
Award Amount:
$16.5 Million
Site Visit Date:
08-25-2022 10:00 AM CST
Question Deadline:
08-29-2022 10:00 AM CST
Year:
2023
Region / Institution:
Jabalpur Engineering College, India
Topic:
Heat transfer enhancement using nanofluids
Document type:
Scientific review article
Department / Organization:
Department of Mechanical Engineering; Department of Industrial & Production Engineering
Authors:
Ankit Kumar Gupta, Bhupendra Gupta, Jyoti Bhalavi, Mohan Khandagre
Target audience:
Researchers and engineers in thermal systems and nanofluid applications
Nanoparticles discussed:
Fe2O3, ZnO, SiO2, Ag, carbon-based, ceramic, semiconductor, polymeric, lipid-based
Applications covered:
Automotive cooling, electronic component cooling, high heat flux devices, solar water heating, biomedical applications, thermal storage
Research period:
Up to 2023
Key methods:
Review of experimental and theoretical studies on plate, double pipe, shell and tube, and compact heat exchangers
Challenges and prospects:
Agglomeration, clogging, erosion, material synthesis, and future research directions
Year:
2005
Location:
Trichy, Tamilnadu, India
Field:
Mechanical Engineering / Thermal Systems
Document Type:
Research Paper
Institution:
CARE Group of Institutions
Authors:
S. Palanisamy, R. Naveenkumar
Target Audience:
Engineering students, researchers, industry professionals
Experimental Focus:
Helical coil heat exchanger under counter flow conditions for water-water and water-glycol combinations
Materials Used:
Copper (coil), Stainless steel SAE 304 (shell)
Measurements:
Temperature, flow rate, heat transfer coefficients
Key Components:
Helical coil, shell, pump, heater, thermocouples
Methodology:
Experimental design and analysis
Year:
1965
Region / City:
South Charleston, W. Va.
Topic:
Heat exchangers, fouling factors, engineering design
Document Type:
Article
Organization:
Union Carbide Corp.
Author:
Charles H. Gilmour
Target Audience:
Engineers, chemical industry professionals
Period of Action:
1965
Date of Approval:
July 1965
Date of Revisions:
None
Context:
An article from "Chemical Engineering Progress Magazine" discussing the importance of proper design over the use of high fouling factors in heat exchangers.