为应对能源危机和气候变化,推动包容及可持续工业发展,联合国工业发展组织于2020年发起全球方案征集活动(UNIDO Global Call)。今年,“UNIDO Global Call 2023 全球方案征集活动”由联合国工业发展组织投资和技术促进办公室(中国·北京)牵头发起,聚焦清洁智慧能源,助力包容和可持续工业发展,在全球寻找可复制、可推广的清洁能源和能效优化领域的技术解决方案。
本届UNIDO Global Call活动中,共收到来自60多个国家300多份原创项目,发展中国家提交项目占比高达88.5%。最终,经权威专家评审,3家企业获得特等奖,28家企业分获一、二、三等奖,另有9家单位获得专项奖。
项目简介
清洁能源创新赛道三等奖
在风力和光伏发电厂,钒电池可以收集弃风弃光,减少能源浪费。在电网中,不仅可以削峰填谷,还可以缓解电价差异。在偏远地区,孤立的清洁能源微电网端,钒电池可以将瞬时的光伏发电能源起来,并在夜间提供电力。
全钒液流电池在多种储能技术路线中,具有以下明显优势:
钒电池水基电解液本征安全,避免类似于锂电池的燃爆风险。
它的长寿命可以持续25年或超过20000次循环,具有快速的网格友好响应时间。
钒电池的终身能效为75%,不会随着时间的推移而下降。
由于其安全性和可堆叠性,大规模储能系统,特别是从100MW到1GW的规模,在经济上首选使用的方案。
最重要的是,目前钒电池平准化储能成本(LCOS)仅为1.5美分/千瓦时,到2025年底将降至0.7美分/千瓦时。这种低的储能成本使储能站有足够的利润来运营和维持可再生能源解决方案。
另外,钒电池还解决了过去一个世纪在钢铁消费中浪费钒资源的问题,这些钒被一次性消费,无法回收。而在钒电池中,电解液中的钒全程无损耗,并且在电池终结后可回收再利用。
承德新新钒钛储能科技有限公司
中国 🇨🇳
In three typical renewable energy senarios (new energy plant, power grid, and user-end microgirds) vanadium flow battery (VFB) energy storage system served a crucial and irreplaceable role to change the unpredictable renewable energy into stable electricity supply.
In wind and PV plant, VFB energy storage system can collect energy abandonment and reduce curtailment. In power grid, the system can not only shift peak-load but also ease the electricity price differences. In remote areas isolated clean energy microgrid, VFB can store instantaneous daylight PV energy and provide power at night.
VFB energy storage system has the following benefits among other technologies. Safety: its aqueous electrolyte defines it as an inherently safe technology, avoiding risks such as fire and explosion in Lithium battery. Its long lifetime usage can last to 25 years or over 20000 circulations, with a fast grid-friendly response time . Also, VFB has a lifetime energy efficiency of 75%, which will not decline over time. Due to its safety and stackable nature, large-scale energy storage system, especially for scale from 100MW to 1GW, is most economically preferred to use VFB. Most importantly, the current lifetime Leveraged Cost of Storage energy(LCOS) of VFB is only 1.5 cents/KWh in USD, and will lower to 0.7 cent/KWh by the end of 2025. This low cost of storing energy allows the energy storage stations to have sufficient profit to operate and sustain a renewable power solution. VFB also solve the problem of wasting vanadium resources in steel consumption for the past century which cannot be recycled. In VFB, vanadium electrolyte is a non-loss material functioning throughout its lifetime and can be recycled after battery
Chengde Xinxin Vanadium & Titanium Energy Storage Technology Co,. Ltd.
Based on the extensive vanadium and titanium resources in the Chengde, our company has been collaborating with Dr. Maria, the inventor of vanadium flow battery, and Tsinghua University since 2006 to develop key materials for VFB. Having a production capacity of 500MWh and 33000m ³ Electrolyte production line, bipolar plate, proton exchange membrane production line, stack assembly, system integration, energy storage and power generation technology, with 15 patents and 12 invention patents, participating in the formulation of 7 national and industry standards for liquid flow batteries, undertaking 863 projects, National Scientific and Technological Support Project and other implementations.
项目简介
垂直轴风力涡轮
清洁能源创新赛道三等奖
垂直轴风力涡轮机(VAWT)专为经济实惠的清洁能源生产而设计。这种创新的垂直轴风力涡轮机系统专为在不同环境下安装而设计,包括城市、住宅、商业区和偏远农村地区,而不受具体风力条件的限制。这就通过利用自然风和人工风扩大了系统的能力,确保了持续可靠的风能供应。DUET的 VAWT 系统功率从 300 瓦到 1,000 瓦不等,通过在巴基斯坦卡拉奇一栋住宅楼内成功部署的原型,DUET已经证明了它的功效:
本地制造:75% 的 VAWT 组件在当地制造,为地区经济做出了贡献。
运行寿命长:VAWT 系统拥有长达 10 年的运行寿命,可提供持续的性能。
本地维修和维护:DUET的模式强调本地维修和维护,减少停机时间,确保使用寿命。
劳动力培训:DUET优先考虑对 VAWT 开发、维护、故障排除和安装方面的劳动力进行培训,创造技能机会,尤其是为青年和妇女创造技能机会。
可扩展性:DUET的工作原型是安装在卡拉奇的一台 300 瓦涡轮机,它显示出了良好的效果,并有潜力毫不费力地扩展到 1000 瓦。
社区影响:DUET的技术计划部署在缺电的农村地区,旨在通过减少碳足迹和提供低能源成本来造福服务不足的社区,与其他能源替代品相比,这是一个具有成本效益的解决方案。
低噪音、低振动:运行平稳、噪音极低。从本质上讲,DUET的 VAWT 机型不仅仅是一台涡轮机;它代表了一种承诺,即无论风力条件如何,随时随地为每个人提供可持续能源。DUET的承诺延伸到为得不到充分服务的社区提供清洁能源,为实现可持续发展做出贡献。
达伍德工程技术大学
巴基斯坦 🇵🇰
达伍德工程技术大学(DUET)是一所领先的工程院校,致力于推动工程知识和实践的发展。DUET 专注于开创性的研发工作,努力实现知识驱动型经济和更加光明的未来。作为 DUET 的工程学院院长和教授,我为我们对包容性和创新的承诺感到自豪。在我的产品开发历程中,DUET 一直是我坚定不移的支持者,为我们的创新和成功做出了贡献。值得一提的是,在工发组织 2023 年全球方案征集颁奖仪式上,DUET 的支持为我们获得清洁能源创新赛道的第三名发挥了关键作用。这种支持不仅增强了我的能力,而且极大地促进了我们合作努力的认可和成功。
Our groundbreaking technology involves the indigenous development of a Vertical Axis Wind Turbine (VAWT) solution designed for affordable and clean energy production. This innovative VAWT system is specifically tailored for installation in diverse settings, including urban, residential, commercial areas, and remote rural regions, regardless of their specific wind conditions.
The distinguishing feature of our model lies in its incorporation of an auxiliary system to maintain a constant wind speed. This expands the system's capabilities by harnessing both natural and artificial wind, ensuring a continuous and reliable wind energy supply. With a capacity ranging from 300 to 1,000 watts, our VAWT system has demonstrated its efficacy through a successful prototype deployed in Karachi, Pakistan, within a residential building.
Key features of our VAWT model include:
Local Manufacturing: 75% of VAWT components are locally manufactured, contributing to the regional economy.
Long Operational Life: The VAWT system boasts an operational life of up to 10 years, providing sustained performance.
Local Repair and Maintenance: Our model emphasizes local repair and maintenance, reducing downtime and ensuring longevity.
Workforce Training: We prioritize workforce training for VAWT development, maintenance, troubleshooting, and installation, creating skilled opportunities, especially for youth and women.
Scalability: Our working prototype, a 300W turbine installed in Karachi, demonstrates promising results and the potential to effortlessly scale up to 1000W.
Community Impact: With plans to deploy in rural areas lacking electricity, our technology aims to benefit underserved communities by reducing carbon footprint and offering low energy costs, making it a cost-effective solution compared to other energy alternatives.
Low Noise and Vibration: Operating smoothly with minimal noise. Our VAWT model respects the tranquility of its surroundings, ensuring both its longevity and the comfort of the local environment and structure.
In essence, our VAWT model is more than just a turbine; it represents a promise of sustainable energy for everyone, anywhere, and anytime, regardless of wind conditions. Our commitment extends to bringing clean energy to underserved communities, contributing to a more sustainable and inclusive future.
Dawood University of Engineering and Technology (Pakistan)
Dawood University of Engineering & Technology (DUET) is a leading engineering institution dedicated to advancing engineering knowledge and practices. With a focus on groundbreaking R&D, DUET strives for a knowledge-driven economy and a brighter future. As the Dean faculty of Engineering and Professor at DUET, I take pride in our commitment to inclusivity and innovation. The university's visionary goal is to lead in techno-entrepreneurial excellence. Throughout my product development journey, DUET has been a steadfast supporter, fostering innovation and contributing to our success. Notably, DUET's support played a pivotal role in securing the 3rd position in the Clean Energy Innovation category at the UNIDO Global Call 2023 Award Ceremony. This support not only empowered me but also significantly contributed to the recognition and success of our collaborative efforts.
项目简介
地木计划: 基于木头保险库的地球工程
清洁能源创新赛道三等奖
中国科学院大气物理研究所
中国 🇨🇳
中国科学院大气物理研究所碳监测和碳去除团队,在碳达峰碳中和(双碳)大背景下,承担多项国家重大项目,专注于碳监测反演和减排增汇技术研发和应用。研发了碳监测仪器和反演模型,得到生态环境、气象海洋、科研等用户的广泛应用,团队致力于提供企业、城市、省级和区域多尺度的双碳监测评估和减排增汇方案。
The climate catastrophe caused by climate change is imminent, and the climate urgency requires a large amount of highly durable (>100 years) carbon removal (CDR) of 10 billion tons of CO2/year. Current engineering methods, such as direct air capture (DAC), are too expensive and energy intensive, and are only used on a small scale, while nature-based solutions (NbS), such as afforestation, are at risk of re-release of carbon sinks (fires, droughts, pests and diseases, etc.), and are becoming carbon neutral as forests aging. The wood vault method, achieves low cost through the photosynthesis of natural vegetation (forestry, agriculture, etc.), which is free, and it is further combined with artificial engineering methods. That is the sustainable source of biomass (waste wood and straw, etc.) is collected and deeply buried. The biomass is isolated from oxygen and microorganisms decompositions, which can be maintained at the millennium scale with low cost. The technology has been carried out in Europe and the United States and other countries, and entered into the carbon trading market. This technique is selected as one of the "Top Ten Global Breakthrough Technologies" in 2022 by MIT Technology Review. And it is selected as one of the top 60 techniques in the $100M XPRIZE FOR CARBON REMOVAL established by Elon Musk. This method is also recommended by the National Academy of Sciences: “Negative Emission Technologies and Reliable Carbon Sequestration: A Research Proposal”. It entered the NASDAQ carbon market trading sector, and it provides historical and current product carbon neutral services for some well known enterprises. The marketization of this technology will increase income and create green jobs for the developing countries, and at the same time has multiple benefits such as industry feeding agriculture, increasing green employment and tailings restoration, and providing important technical support for China to achieve the dual carbon goals.
Institute of Atmospheric Physics, Chinese Academy of Sciences
The carbon monitoring and carbon removal team from the Institute of Atmospheric Physics, Chinese Academy of Sciences has undertaken several major national projects. We focus on the research, development and application of technologies on carbon monitoring, inversion, emissions reduction, and sink enhancement. We are committed to provide multi-scale carbon monitoring and carbon removal solutions from enterprise, industrial park, to city, provincial and regional scales.
项目简介
大型光伏发电近实时监测与短期预报新技术
清洁能源创新赛道三等奖
为了助力能源保供与双碳目标的实现,本项目发展了基于卫星遥感及数值同化技术的大规模光伏发电实时监测和短临预报系统。该系统通过构建云、气溶胶遥感算法及数据同化方案,实现了更高精度的太阳辐射遥感监测及短时预报,精度显著优于NASA、ERA5等国际同类产品,尤其在有云及污染大气下,系统的优势更加显。系统中核心算法具备强普适性,已广泛被欧空局、日本宇航局等国际卫星计划官方采纳,并应用于中国气象局地表太阳能实时监测应用系统。系统具备的高可移植性能够快速服务于其他国家的大规模化光伏发电监测和预报。因此,该系统在新能源利用领域具有强应用前景和市场潜力,能够有效促进光伏发电的持续健康发展,显著提高经济效益。参考国外惩罚力度,2023年太阳能预报精度提高10%,利润可提高4亿元;2060年太阳能预报精度提高10%,利润可提高至64亿元。
中国科学院空天信息创新研究院
中国 🇨🇳
中国科学院空天信息创新研究院遥感科学国家重点实验室,近年来,胡斯勒图团队研发的冰云特性反演算法被日本航空局JAXA的GCOM-C卫星、葵花8卫星及欧洲空间局ESA和JAXA共同开发的EarthCARE卫星冰云特性参数官方算法和遥感产品采纳应用,偏振多角度水云参数算法被ESA的3MI卫星计划水云特性参数官方算法采纳,并参与了上述卫星计划中其他云特性和地表辐射参数产品的研发工作。
In order to support the realization of energy security and the innovation of clean energy, this project has developed a large-scale near real-time monitoring and short-term forecasting system for photovoltaic (PV) power generation, based on satellite remote sensing and numerical assimilation technologies. This system achieves higher accurate estimation and short-term forecast of solar radiation over the East Asia–Pacific region, by constructing cloud and aerosol remote sensing algorithms and data assimilation schemes, in comparison to international state-of-the-art products, such as the Clouds and the Earth’s Radiant Energy System products from NASA, the next-generation reanalysis products from European Centre for Medium-Range Weather Forecasts, etc. Particularly, the system shows obvious advantages in solar radiation monitoring under cloudy and air pollution conditions. The core algorithms in the system are highly versatile and have been widely adopted by international satellite programs, such as the European Space Agency and the Japan Aerospace Exploration Agency , as well as being applied in the real-time solar energy monitoring application system of the China Meteorological Administration. The system's high portability enables its rapid deployment for large-scale PV power generation monitoring and forecasting in other countries.
Therefore, this system holds strong application prospects and market potential in the field of new energy utilization, effectively promoting the sustainable and healthy development of PV power generation with significant economic benefits. With reference to penalties imposed abroad, a 10% improvement in solar energy forecasting accuracy in 2023 could lead to a profit increase of 400 million RMB, and by 2060, the profits could increase to 6.4 billion RMB.
Aerospace Information Research Institute, Chinese Academy of Sciences
Dr. Husi Letu convened the 1st International symposium on the Cloud Remote Sensing, Atmospheric Radiation and Renewal Energy Application (CARE 2018), which focused on promoting international collaborations as well as in-depth exchanges of ideas and experiences on cloud remote sensing, particularly the advances in fields of atmospheric radiation, solar energy applications and featuring global monitoring. In 2020, the algorithm team initiated the satellite products plan in the name of CARE 1.0, which was developed to serve the research of global energy budget and interaction between cloud-radiation-climate changes.
您可通过以下渠道获取Global Call 2023更多信息:
