The TidGen Power System generates emission-free electricity from tidal currents and connects directly into existing grids using smart grid technology. The power system consists of three major subsystems: shore-side power electronics, mooring system, and turbine generator unit (TGU) device. This submission includes the preliminary Installation, Operation & Maintenance (IO&M) and testing plan. In 2012, the first TidGen device was installed in Cobscook Bay utilizing a piled foundation, which required extensive, costly geotechnical survey and on-water effort on the order of several weeks to install the system. The Advanced TidGen 2.0 Power System has adapted the Buoyant Tensioned Mooring System (BTMS) that reduces on-water deployment time to within a tidal cycle. The device has been designed to match the resources typically available in remote regions, such as Igiugig, Alaska, which are the immediate commercial market for ORPC's technology. The system has been designed to meet requirements throughout the entire lifecycle concept of operations.
The AVoided Emissions and geneRation Tool (AVERT) evaluates how energy policies and programs such as energy efficiency, renewable energy, and electric vehicles lead to changes in emissions of particulate matter (PM2.5), nitrogen oxides (NOX), sulfur dioxide (SO2), carbon dioxide (CO2), volatile organic compounds (VOCs), and ammonia (NH3) from electric power plants at a county, state, or regional level. AVERT is a free tool designed to meet the needs of state air quality planners, energy officials, public utility commission staff, environmental agency staff, professionals in the clean energy field, people working on climate planning, and other interested stakeholders.
The complete CO2 and Greenhouse Gas Emissions dataset is a collection of key metrics maintained by Our World in Data. It is updated regularly and includes data on CO2 emissions (annual, per capita, cumulative and consumption-based), other greenhouse gases, energy mix, and other relevant metrics.
Abstract: Direct CO2 emissions of EDF Group companies, by country, related to electricity and heat production. These are direct emissions, excluding the life cycle assessment (LCA) of the means of production and fuels. Units are expressed in ktonnes. Data consolidated according to EDF's shareholding in Group companies, including investments in associates and joint ventures. When the "World" perimeter is specified, it refers to the countries in which EDF is present. Detailed description: EDF is a Group comprising a number of companies and affiliates. To consult the simplified organisation chart of the Group, click here. Also, when we want to get an overall view of the Group's energy production, for example, we have to carry out what is called a consolidation of all our affiliates’ production. For this purpose, two consolidation methods are possible: Consolidation by full integration Only the affiliates over which EDF has control are consolidated. In this financial approach, subsidiaries are consolidated at 100%, regardless of their ownership rate. Entities over which EDF does not have control are therefore not consolidated at all. Net consolidation (or sometimes called patrimonial) All affiliates are consolidated, provided that EDF holds a stake in them. They are then consolidated according to EDF's share of ownership.
The CRREM tool allows investors and property owners to assess the exposure of their assets to stranding risks based on energy and emission data and the analysis of regulatory requirements.
COPED, or the Catalogue of Projects on Energy Data aims to unify various information stores and existing portals for energy projects under a single extendable umbrella that has two key roles: 1. Update, curate and correct information pertaining to the existing energy project landscape through manual and automated processes. 2. Offer a wide range of visual aids, query tools and metrics that enable users to synthesize information across the energy projects landscape at a given time. COPED aims to provide diverse insights for various user groups, while being able to continuously expand its data capture sources and the analytics and visualisations it can perform.
The map visualises the 352 million assets included in the Climate TRACE emissions inventory. The default view when the page first loads shows emissions sources from all sectors across all geographies for the most-recent calendar year. It is possible to look up emissions estimates for nearly every major source of emissions in the world, from power plants, refineries, and road networks to areas of deforestation.
Climate TRACE’s global emissions inventory, released in September 2021, provides the first comprehensive accounting of GHG emissions based primarily on direct, independent observation. Each download package includes annual country-level emissions by sector and by greenhouse gas from 2015-2021, the applicable inventory of facility-level emissions, and facility-level ownership data where available.
Under the Paris Agreement, countries are invited to communicate “mid-century long-term low greenhouse gas emissions development strategies” (long-term strategies, or LTS). These strategies are central to the goal of limiting global warming to well below 2°C and to pursue efforts to limit the increase to 1.5°C, representing a significant opportunity for countries to lay out their vision for achieving a low-carbon economy by 2050 while also pursuing sustainable development. It is advantageous for countries to align their NDCs and long-term strategies for consistency and to avoid the lock-in of carbon-intensive behavior, technologies and policies. This dataset is published via Climate Watch, a free online platform designed to empower policymakers, researchers, media and other stakeholders with the open climate data, visualizations and resources they need to gather insights on national and global progress on climate change. All the inventories on Climate Watch are based on this production-based accounting.
Under the Paris Agreement, nearly every nation made a commitment to tackle climate change and strengthen their efforts over time. To explore the content of these Nationally Determined Contributions (NDCs), search for key terms. Also, this dataset allows you to analyze and compare NDCs using over 150 structured indicators. Parties (representing 171 countries) have submitted their new or updated NDCs. This dataset is published via Climate Watch, a free online platform designed to empower policymakers, researchers, media and other stakeholders with the open climate data, visualizations and resources they need to gather insights on national and global progress on climate change. All the inventories on Climate Watch are based on this production-based accounting.
To avoid the worst climate impacts, global greenhouse gas (GHG) emissions must be slashed in half during the next decade and reach net-zero early in the second half of the century. Given this need, a growing number of Parties to the Paris Agreement are adopting net-zero emissions targets. This dataset contains the net-zero targets that have been communicated in a Party’s nationally determined contribution (NDC), long-term low GHG emissions development strategy (LTS), domestic law, policy, or high-level political pledge such as head of state commitment. The Paris Agreement requires participating countries to submit emission inventories that are based on activities within their territory. All the inventories on Climate Watch are based on this production-based accounting.
This API supports searching for emitting assets by sector, owner, location; query to get emissions and other asset details; and lookup of aggregated emission by countries.
This is a dataset of the locations of all currently and previously active EMEP air quality monitoring sites.
ENERGY STAR® is the government-backed symbol for energy efficiency. The blue ENERGY STAR label provides simple, credible, and unbiased information that consumers and businesses rely on to make well-informed decisions. With this powerful tool, you can estimate your building’s GHG emissions, support GHG emissions inventories, evaluate emissions under local building performance standards, and forecast the impact of changes in building efficiency and energy procurement.
This map is a comprehensive illustration of the transmission system network operated by members of the European Network of Transmission System Operators. This means that network elements are not located at their real geographic location. In general the map shows all transmission lines designed for 220kV voltage and higher and generation stations with net generation capacity of more than 100MW. Data correct up to 01/01/2019
Envirofacts integrates information from a variety of EPA's environmental databases. Each of these databases contains information about facilities that are required to report activity to a state or federal system. Using this API, you can retrieve informati
Under the Federal Technology Transfer Act (FTTA), Federal Agencies can patent inventions developed during the course of research. These technologies can then be licensed to businesses or individuals for further development and sale in the marketplace. These technologies primarily relate to efficient vehicle systems and hybrid or diesel engines.
The Early Phase Integrated Carbon (EPIC) assessment is a whole life carbon tool built by EHDD to support climate-positive design decisions in early project phases when data is scarce but the potential for emissions reduction is high. To overcome the scarcity of data, EPIC uses a model that combines regionally-specific background data, forward-looking projections, peer-reviewed findings, and common sense assumptions to assess the relative impact of a variety of carbon reduction measures on a project’s embodied, operational, and landscape carbon footprints.
The complete Energy dataset is a collection of key metrics maintained by Our World in Data. It is updated regularly and includes data on energy consumption (primary energy, per capita, and growth rates), energy mix, electricity mix and other relevant metrics.
Over many years, a coding scheme has been developed, managed and maintained within ENTSO-E (under the Common Information Model Expert Group) to facilitate cross-border exchanges and to efficiently and reliably identify different objects and parties relating to the Internal Energy Market (IEM) and its operations. This is known as the Energy Identification Coding (EIC) scheme, approved by ENTSO-E for the harmonisation and implementation of standardised electronic data interchanges. The scheme is supported by a central issuing office (CIO – ENTSO-E’s Secretariat) and ENTSO-E-authorised local issuing offices (LIOs) across Europe. These LIOs are electricity and gas Transmission System Operators along with third party associations such as A&B, APCS, BDEW, DVGW, EFET and ENTSOG, which, in liaison with taxation offices also, are responsible for the EIC scheme operations.
EPA-collected information about facilities or sites subject to environmental regulation. Data-set is a national level CSV file containing key information of all facilities and sites within the Facility Registry System (FRS). Data points include: facility name and address, geospatial information, EPA and State programs the facility is associated with, and facility industry classifications (SIC and NAICS codes and descriptions).
EPA Regional data downloads in KML format (.kmz) -- 10 US regions Information about facilities or sites subject to environmental regulation. Envirofacts integrates information from a variety of EPA's environmental databases. Each of these databases contains information about facilities that are required to report activity to a state or federal system.
The dataset contains raw data from Ember’s Power System Modelling “New Generation”. The data shows least-cost power system pathways in 5 year time intervals from 2020 to 2050.
This dataset contains average hourly, daily and monthly wholesale day-ahead electricity prices for European countries. Hourly data is provided as a .zip file to reduce download size. Note that these are the prices generators receive for selling electricity on the spot market. They are not the same as the prices paid by electricity consumers, which can also include taxes, levies, network charges, subsidies, and some supplier profits. They also do not account for hedging.
The data included in this IAI Statistical Report have been derived from voluntary reports of IAI Member and non-Member companies. Sources outside the industry or estimates are used for “World” and “China” regions only.
HE providers currently submit an annual data return with information about their estates. The data relates to the academic year 1 August to 31 July and is submitted in the winter following the end of the academic year. We quality assure and process the data which we then publish in the following spring/summer. Published tables cover buildings and spaces, energy, emissions and waste, transport and environment, and finances and people.
Ember’s India electricity dataset provides electricity generation (GWh), power generation capacity (MW), emissions from electricity generation (ktCO2e) and carbon intensity of electricity generation (gCO2 per KWh) for 36 states/union territories in India. The time series starts from 2019 and has monthly and yearly data for all metrics.
This dataset contains India’s installed capacity for renewable energy (RES, including small hydro, wind, solar, bioenergy) by state and by month, starting from March 2019. The dataset also contains data that were used to create charts in the Indian State RES Target and Progress Tracker which tracks the monthly progress of Indian states and union territories (UTs) on their 2022 targets for renewable energy (RES)
This is a point dataset of the location of emission site facilities. These include Industrial Emissions (IE), Integrated Pollution Control (IPC) and Waste EPA licensed facilities.
This is a points dataset of Integrated Pollution Control (IPC) sites. The EPA has been licensing certain activities since 1994. IPC licensing is governed by the Environmental Protection Agency Act 1992 as amended. Detailed procedures concerning the IPC licensing process are set out in the EPA Act 1992 as amended, and the associated licensing regulations.
This is a point data set of the location of urban waste water emission points. In terms of usage of this dataset please note that there is a period of time between when emission locations are licensed and when they appear in this dataset.
This is a points dataset of the location of IPPC (Integrated Pollution Prevention Control) facilities that are currently licensed by the EPA.
The NABERS ESC Estimator will help you understand whether your building is eligible to participate in the NSW Energy Savings Scheme (ESS) under the NABERS baseline method. It will also provide an estimation of how many ESCs your building could potentially generate by reducing its energy consumption. For this tool you will need an accurate estimation of your energy consumption and your predicted NABERS Energy rating. To generate ESCs, you will need to assign an Accredited Certificate Provider (ACP) before the end of the rating period. Note: results predicted by the ESC Estimator are an indication only.
NABERS has released prediction tools to support building owners in understanding the impact of NABERS Energy ratings on individual assets across different sectors. The tool includes forecasted scenarios estimating the impact on ratings in 2025 and 2030. The benchmarks which calculate NABERS Energy ratings are updated every five years with the next update scheduled for 2025. These changes are implemented in a way that does not affect the average rating of the sector at that time.
Use the NABERS rating calculators to get an idea of how well your building or tenancy is performing. Results are an indication only and cannot be promoted or published.
NABERS reverse calculators give you an indication of the maximum amount of energy and water your building can use to achieve your desired rating.
NZDPU Data Explorer is a centralised repository of global company-level greenhouse gas emissions data.
This Tool is intended to enable companies to develop appropriate science-based emissions reductions targets, as well as to assist companies understand and implement the level of climate ambition required to meet the 1.5°C goal of the Paris Agreement.
The SBTi’s target list contains companies and financial institutions that have set science-based targets, or have committed to developing targets. Updated every Thursday, the dataset includes high-level information about each organization’s targets or commitments.
The Temperature Alignment tool was created to enable the widespread implementation of the method by data providers and financial institutions, to work with any data source and in most IT environments. For each method, the tool provides the following outputs: I. Portfolio coverage: generate the % of the portfolio currently covered by SBTi-approved targets. Ii. Temperature scoring: generate the current temperature score of the portfolio (in addition to the individual temperature scores of the portfolio companies). It also enables the generation of a series of what-if scenarios to showcase how this temperature score could be reduced.
Find reports on emissions from operations include those arising from energy and transport, as well as emissions arising from treatment of our water and wastewater (termed process emissions
The CARE Tool estimates the operational and embodied carbon emissions associated with reusing and upgrading an existing building or replacing it with new construction. The CARE Tool can be used by policymakers, planners, building owners, developers, heritage building officers, architects, and others who are interested in a pre- or early-design, high-level assessment of the total carbon emissions of building reuse versus replacement.
CO2.js is an open-source JavaScript library that enables developers to estimate the emissions related to use of their apps, websites, and software.
The NAEI compiles estimates of emissions to the atmosphere from UK sources such as cars, trucks, power stations and industrial plant. These emissions are estimated to help to find ways of reducing the impact of human activities on the environment and our health.
This interactive map shows Greenhouse Gas emissions totals by Local Authority from the UK National Atmospheric Emissions Inventory for 2021. Users can choose to show different sectors on the map, and select a specific Local Authority by clicking on the map, or selecting the name from the menu next to the map. Once users click a Local Authority region, any point sources within that region will be shown and they can click on the icon to view further details.
The data selector search allows users to find UK data. Please note that the greenhouse gas emissions data includes the United Kingdom, Guernsey, Jersey, the Isle of Man, Gibraltar, Bermuda, Cayman Islands and the Falkland Islands (consistent with reporting to the UNFCCC). For other pollutants, the data includes only the UK and Gibraltar (consistent with UNECE reporting). Data are available back to 1990 for greenhouse gases, 1980 for ammonia and 1970 for all other pollutants. If selecting individual gases, note that methane and nitrous oxide are presented as a mass of gas without accounting for their respective global warming potentials, and CO2 is presented as mass of carbon in CO2, so should be multiplied by 44/12 to convert to a mass of CO2.
A web page that describes and links to EPA systems for accessing and downloading ambient (outdoor) air quality and emissions data
This dataset contains yearly electricity generation, capacity, emissions, import and demand data for over 200 geographies. Data is collected from multi-country datasets (EIA, Eurostat, BP, UN) as well as national sources (e.g China data from the National Bureau of Statistics).
Find yorkshire water emission results covering scope 1, 2 and 3
The Zero Tool is used to compare an existing or planned building’s energy use intensity (EUI) with similar building types, understand how a building achieved its EUI (via energy efficiency, on-site renewable energy, and/or green power purchases), and set EUI targets.