Congratulations to Solareast for winning the project"Key Technologies and Applications for Ultra-Low Energy Consumption Buildings in Extreme Climate Zones''. It has won the second prize in the National Science and Technology Progress Award.

The project "Key Technologies and Applications for Ultra-Low Energy Consumption Buildings in Extreme Climate Zones", in which Solareast participated, has won this award, signifying that the important achievements made in the field of low-energy green buildings have been highly recognised and affirmed by the State. The National Science and Technology Progress Award, established by the State Council, is one of the highest awards in the field of science and technology in China, and this award fully demonstrates Solareast's leading position and outstanding contribution in this field.

The project was jointly completed by Solareast, Xi'an University of Architecture and Technology, Beijing Institute of Technology, and 91053 troops of the People's Liberation Army. Given the problems of harsh climate, difficulty in supplying conventional energy, and great challenges in building livable environments such as the South China Sea islands and the Tibetan Plateau, the project was supported through the successive major projects of the National Natural Science Foundation of China (NSFC), the Key Project, the National Science Foundation for Innovative Research Groups, and the National Science Foundation for Distinguished Young People, and so on. Through the continuous support of the National Natural Science Foundation of China through major projects, key projects, the National Innovation Research Group Science Fund and the National Outstanding Young Scientist Fund, and after nearly two decades of efforts, we have successfully constructed a basic parameter system of ultra-low energy building design in extreme climate zones and developed new theories and technologies of ultra-low energy building design adapted to the scorching and humid and cold climate of plateaus. This achievement not only provides a scientific basis and technical support for building design in extreme climate zones in China but also contributes valuable experience to the development of sustainable buildings in similar regions around the world.

The research outcomes of this project are not only highly significant in terms of technological innovation but also possess substantial economic value and ecological benefits. These contributions play a crucial role in safeguarding national security and advancing the achievement of dual carbon goals in the construction industry.

Once again, I would like to express my warm congratulations and look forward to Solareast's further achievements in the future!

Project Overview

The "Key Technologies and Applications for Ultra-Low Energy Consumption Buildings in Extreme Climate Zones" project aims to address the challenges posed by global climate change by developing building technologies that are suitable for extreme climatic conditions. Through technological innovation and system integration, this project has achieved significant reductions in building energy consumption under extreme climate conditions, reaching an internationally leading level.

Project Challenges

1. Technical Challenges

   -Adaptation to Extreme Climates

   Buildings in extremely cold and hot climates require exceptional thermal insulation and energy management systems. We have developed innovative materials and structural designs that can withstand extreme temperature and humidity variations, breaking through the limitations of traditional building technologies.

-Ultra-Low Energy Standards

Achieving ultra-low energy consumption requires meticulous attention to detail in every aspect of design, construction, and operation. We have introduced high-efficiency insulation materials, energy-saving ventilation and air conditioning systems, and extensively applied renewable energy technologies to ensure optimal energy efficiency in extreme climates.




2. Practical Application Challenges

   -Large-Scale Deployment

   Technological outcomes need to be validated in individual building projects and scaled up across different climate zones and building types. Through numerous demonstration projects, we have validated the applicability and stability of our technologies, promoting their adoption nationwide.

-Economic Efficiency and Cost Control

While ensuring ultra-low energy consumption, we focus on cost control. Through technological optimization and innovation, we have found the optimal balance between performance and cost, ensuring the technology's broad market competitiveness.




3. Social and Policy Challenges

   -Policy Support and Standard Development

   We actively promote the formulation and improvement of technical standards and certification systems for ultra-low energy buildings by government departments. Through policy support and incentive measures, we facilitate the widespread adoption of our technologies.

   -Public Awareness and Acceptance

   By extensive publicity and education, we enhance public awareness and acceptance of ultra-low energy buildings, increasing societal demand for green buildings and promoting sustainable development.

   
   

4. Team and Collaboration Challenges

   -Interdisciplinary Team Collaboration

   The project brings together experts from multiple fields, including architecture, materials, energy, and environment, to conduct interdisciplinary research and development. We emphasize teamwork to solve various challenges in technology integration and system optimization.

-International Cooperation and Exchange

We actively engage in international cooperation, introducing advanced technologies and experiences from abroad and innovating based on local realities, enhancing the project's technical level and international competitiveness.

Solareast's achievements in the "Key Technologies and Applications for Ultra-Low Energy Consumption Buildings in Extreme Climate Zones" project demonstrate our technical innovation capabilities and practical application levels. This contribution significantly advances the global green building industry. Moving forward, we will continue to dedicate ourselves to technological innovation and sustainable development, contributing more wisdom and strength towards building a beautiful China and achieving carbon neutrality goals.

祝贺日出东方控股股份有限公司荣获"极端气候区超低能耗建筑关键技术与应用"项目国家科学技术进步奖二等奖！

日出东方控股股份有限公司参与 "极端气候区超低能耗建筑关键技术与应用"项目荣获该奖项，标志着日出东方控股股份有限公司在低能耗绿色建筑领域取得的重要成果得到了国家的高度认可和肯定。由国务院设立的国家科学技术进步奖是我国科学技术领域的最高奖项之一，此次获奖充分体现了我司在该领域的领先地位和突出贡献。

该项目由日出东方控股股份有限公司、西安建筑科技大学、北京理工大学和中国人民解放军 91053 部队共同完成。针对南海诸岛、青藏高原等地气候恶劣、常规能源供应困难、宜居环境建设面临巨大挑战等问题，该项目先后获得国家自然科学基金重大项目、重点项目、国家科学基金创新研究群体、国家杰出青年科学基金等项目的支持。在国家自然科学基金委重大项目、重点项目、国家创新研究群体科学基金和国家杰出青年科学基金的持续支持下，经过近二十年的努力，成功构建了极端气候区超低能耗建筑设计的基本参数体系，发展了适应高原极湿热和极寒冷气候的超低能耗建筑设计新理论和新技术。该成果不仅为中国极端气候区建筑设计提供了科学依据和技术支持，也为世界类似地区可持续建筑的发展提供了宝贵经验。

该项目的研究成果不仅在技术创新方面意义重大，而且还具有巨大的经济价值和生态效益。这些贡献对于保障国家安全和推动建筑行业实现双碳目标具有重要作用。

在此，我再次表示热烈祝贺，并期待日出东方控股股份有限公司在未来取得更大的成就！

项目简介

“极端气候区超低能耗建筑关键技术与应用”项目旨在应对全球气候变化带来的挑战，开发适用于极端气候条件下的超低能耗建筑技术。该项目通过技术创新和系统集成，实现了在极端气候条件下建筑能耗的显著降低，达到了国际领先水平。

项目要求及难点

1. 技术方面

   - 极端气候适应性

   在极寒和酷热等极端气候条件下，建筑需要具备卓越的隔热保温性能和能源管理系统。我们突破了传统建筑技术的限制，开发出能够适应极端温度和湿度变化的创新材料和结构设计。

   -超低能耗标准

   实现超低能耗需要在设计、施工和运营的每一个环节都做到精益求精。我们引入了高效隔热材料、节能型通风和空调系统，并大规模应用可再生能源技术，确保建筑在极端气候下的能效最优。

   
   

2. 实践应用

   -大规模推广应用

   技术成果不仅需要在单个建筑项目中得到验证，还要能够在不同气候区和建筑类型中大规模推广。我们通过多个示范项目，验证了技术的适用性和稳定性，推动了技术在全国范围内的应用。

   -经济效益与成本控制

   在确保超低能耗的前提下，我们注重成本控制，通过技术优化和创新，找到了性能与成本之间的最佳平衡点，确保技术具有广泛的市场竞争力。

   
   

3. 社会与政策

   -政策支持与标准制定

   我们积极推动政府相关部门制定和完善超低能耗建筑的技术标准和认证体系，并通过政策支持和激励措施，促进技术的推广应用。

   -公众意识与接受度

   通过广泛的宣传和教育，提高公众对超低能耗建筑的认识和接受度，增强社会对绿色建筑的需求，推动可持续发展。

   
   

4. 团队与合作

   -跨学科团队合作

   项目汇聚了建筑、材料、能源和环境等多个领域的专家，进行跨学科的研究和开发。我们注重团队合作，解决了技术整合和系统优化中的各种难题。

   -国际合作与交流

   我们积极开展国际合作，引进国外先进技术和经验，结合本地实际进行创新，提升了项目的技术水平和国际竞争力。

   
   

日出东方控股股份有限公司在“极端气候区超低能耗建筑关键技术与应用”项目上取得的成就，不仅展示了我们的技术创新能力和实践应用水平，也为推动全球绿色建筑事业贡献了力量。未来，我们将继续致力于技术创新和可持续发展，为建设美丽中国、实现碳中和目标贡献更多智慧和力量。