英特尔2023年水资源修复进展报告

Table of Contents Introduction……………………………………………………………………………………………….3Our Net Positive Water Commitment…………………………………………….………..3Project Selection Methodology………………………………………………………………….3Water Restoration Progress in 2023………………………………………………………4Project Summaries…………………………………………………………………………………………4Project Locations……………………………………………………………………………………………5Agua Tica Forest Protection–Phase II……………………………………………………6Rainwater Harvesting in Schools……………………………………………………………….6Benefit Quantification Approach……………………………………………………………7 Introduction Semiconductor fabrication is water intensive. By responsibly managing our water use,guided by ourGlobal Water Policy, we can meet our business needs, as well as those of ourcommunities. Our water strategy has three main objectives: •reducethe water used in our operations through innovative water conservation projects,•reclaim water within our operations through large investments in state-of-the-art water This report provides a summary of our watershed restoration efforts during 2023, includingnew projects funded and the amount of water restored for all projects funded to date.Information about our progress toward our overall net positive water goal and waterconservation efforts within our operations can be found in our annualCorporate Our Net Positive Water Commitment As a part of our corporate responsibilitystrategy, Intel has committed to achieve net positivewater by 2030, through onsite water conservation efforts aimed at reducing our freshwateruse, and funding watershed restoration projects that will restore more fresh water than we Project Selection Methodology Intel considers a range of project types and evaluates them based on a set of criteria, •Credible organization with proven project development record and capacity.•Located in source watershed, tied to water supply, or connected to the local community.•Feasible project timeline that includes project initiation and completion in the relative Other criteria used to assess the overall value of projects include: •Potential to catalyze and/or scale up water solutions•Community and employee engagement Water Restoration Progress in 2023 During 2023, we continued to fund water restoration projects benefiting the watershedsthat we impact and the communities where we operate, including new projects benefittingBelen, Costa Rica andHồChí Minh City, Vietnam. Projects that Intel has funded through These projects, in addition to our efficient water management, water reuse, andcollaboration with municipalities, have enabled Intel to achieve net positive water in four Project Summaries During 2023, Intel funded 2 new projects: •CostaRica:Agua Tica Forest Protection Phase II–Fundecor, 71.3 million gallons peryear (MGY) expected volume benefit Information on these projects are included below, and information on all projects fundedfrom 2017 through 2022 can be found in our priorAnnual Water Restore Reports. Project Locations The locations of the projects funded to date are shown in Figure 1. This map includesprojects that achieved 2023 restore benefits, and projects expected to have volume Agua Tica Forest Protection–Phase II Pressures on water resources near San Jose,Costa Rica, are increasing due to high population To protect water resources in the Grande andVirilla River subwatersheds, Fundecor and otherstakeholders established Agua Tica, the firstpublic-private water fund in Costa Rica topromote water replenishment through Phase I of this project was funded in 2020, withthe first benefits achieved in 2021. This project,or Phase II of this effort, expands the total areacovered by identifying additional property to beprotected near the San Isidro de Coronado Agua TicaForest Protection–Phase II (Patio de Agua-Cascajal) area. To accomplishthis, Fundecor has established contracts withlandowners to protect approximately 218 Location:San Jose, Costa Rica Implementing organization: Estimated restore benefit:71.3million gallons per year The estimated restore benefit is calculated asavoided runoff volume as a result of protecting Project timeline:Initiated in 2023 Rainwater Harvesting in Schools HồChíMinh City is the largest city in Vietnam,situated in the Saigon River watershed in the southeastern region of Vietnam. Although the country receives high annual rainfall, the SaigonRiver watershed has experienced declininggroundwater levels over the past two decades Rainwater harvesting can help mitigate theserisks in the Saigon River watershed by capturingexcess runoff and using it to decrease the use oflocal groundwater supplies. Harvested rainwatercan serve as a source of water for local schools in RainwaterHarvesting inSchools Location:Saigon River Watershed, The rainwater harvesting technology includesmultiple tanks for water collection, as well as afiltration system to provide students and staff Implementing organization:CLEAN International The estimated volumetric benefit is calculatedas the volume of water captu