Climate Impact Sample Clauses
The Climate Impact clause sets out requirements or obligations related to the environmental effects of a party’s activities under the agreement. Typically, it may require parties to assess, disclose, or mitigate the greenhouse gas emissions or other environmental impacts resulting from their operations, products, or services. For example, a supplier might need to provide regular reports on its carbon footprint or implement measures to reduce emissions. The core function of this clause is to promote environmental responsibility and ensure that contractual activities align with sustainability goals, thereby addressing the growing need for climate-conscious business practices.
Climate Impact. Local Climate Understand local vulnerabilities, management, adaptation and mitigation plans Develop place-based practices for climate impact and support Collaborate and discuss practices for a climate resilient plan for food systems Climate Impact Define technical language around climate and weather variability Classify climate events within the local community Document the climate impact in local community Risk Understand potential climate risks and preventative actions assosicated Organize learning circles, summits and group discussions around climate and food systems Compose policy recommendations for climate action Built Environment Built Environment Define built environment Connect to resources and stakeholders within the built environment Teach partners on elements of the built environment and connections to food system Infrastructure Identify assessment tools for infrastructure needs Map built infrastructure elements within the community and identify needs Design appropriate supply chain infrastructure for needs within the community Planning Understand basic planning and built infrastructure systems Assess a food business' infrastructure needs Conduct planning process to identify and develop Disaster Plans Review the different components of a disaster plan Assess disaster management plans for strengths and weakness Create a community disaster plan Evaluation Evaluation Evaluation Food Systems Evaluation Disaster Impact Describe how disasters impact food systems and who disasters will impact Analyze a disasters impact on a local community; participate in disaster exercises Communicate disaster management plan with public and Lead disaster scenario exercises for a community or organization Network Support Identify sources of support for preparedness and recovery Connect people to scale-appropriate sources of support Create a post-disaster network response plan Disaster Management Identify different types of disaster that may impact a local community Assess and evaluate the levels and magnitude of potential disasters Create a disaster management plan for a particular disaster Community Capacity Food Systems, Community Capacity and Equity Personal Leadership Styles Leadership Styles Identify different leadership styles Demonstrate ability to connect and work collaboratively with leadership styles different than oneself Teach aspects of leadership and values Personal Leadership Indicate own leadership style Develop and evolve aspects of personal leadersh...
Climate Impact. 6.6.1 Not applicable
Climate Impact. The use of SunHorizon technologies is associated with changed emissions of greenhouse gases (CO2, CH419)20, which also have a monetary value. Using economic values from the EU ETS market and the Handbook on the External Costs of Transport (32), a range of external costs of CO2-equivalents can be estimated. The economic values used for greenhouse gas emissions are listed in Table 15. Table 15. Economic values per tonne of CO2-equivalent used in this analysis. Low 20.6 €2015/tonne CO2-eq. Current (June 2020) EU ETS market price21 Mid 99.8 €2015/ tonne CO2-eq. EC Handbook on External Costs for Transport (2019) (32), central value High 188.7 €2015/ tonne CO2-eq. EC Handbook on External Costs for Transport (2019) (32), high-end value 19 GWP100=25 is applied for CH4, according to decision 4/CMP.7 ▇▇▇▇▇://▇▇▇.▇▇▇▇▇▇▇▇▇▇▇.▇▇▇/sites/default/files/ghgp/Global- Warming-Potential-Values%20%28Feb%2016%202016%29_1.pdf 20 Beside CO2 and CH4, climate is affected by air pollutants being short-lived climate pollutants (SLCPs) such as black carbon and tropospheric ozone (O3). These impacts are not included in the analysis of climate benefits from implementation of SunHorizon technologies. 21 ▇▇▇▇://▇▇▇.▇▇▇▇▇▇▇▇▇.▇▇▇/transactions/markets/commodities, as of 2020-06-02 The results presented below separately for LCA (Section 4.1) and for the sub-sequent analysis of environmental and health benefits (Section 4.2).
4.1 LCA results The analysis carried out for this version of the deliverable focus mainly in the production and installation life cycle stages. Therefore, the results are presented at two levels; one set of results for each technology and another set for each technology package. Presented LCA results are preliminary. Final LCA results, based as much as possible on operational data from demonstration sites, will be presented in the final version of this deliverable (to be submitted no later than month 48).
4.1.1 LCA results per technology and technology package Table 16. Average SunHorizon Heat Pump (BDR, BoostHeat, Ratiotherm). Table 17. Average SunHorizon heating solar (TVP, DS, Ratiotherm). SH heating solar (TVP, DS, Ratiotherm) Substance Unit Production Operation Construction (Ratiotherm) Total Table 18. Average SunHorizon Cooling (FAHR, Ratiotherm). SH Cooling (FAHR, Ratiotherm) Substance Unit Production Operation Construction (Ratiotherm) Total