The Mediterranean library of knowledge
Explore the ENI CBC Med Programme's library of deliverables: a comprehensive digital repository of diverse resources tailored for the Mediterranean region. Discover in-depth studies, innovative strategies, and practical tools spanning tools addressing key environmental, economic, and social issues. The library is your go-to source to find valuable knowledge to inspire new collaborative projects driving fair, sustainable and inclusive development across the Mediterranean.
CRE@CTIVE's Exploring Textile, Clothing, Leather & Footwear (TCFL) Industries: SWOT Insights Across 6 Regions
Explore the SWOT analysis of the Textile, Clothing, Leather & Footwear (TCFL) industries across six regions. Discover the strengths, weaknesses, opportunities, and threats shaping the TCFL sectors in Egypt, Spain, Italy, Tunisia, Jordan, and Palestine. These documents offer valuable insights for strategic planning and decision-making in the dynamic Mediterranean TCFL landscape.
Empowering Mediterranean Industries: Euro-Med CRE@CTIVE Observatory
CRE@CTIVE is revolutionizing Mediterranean industries by fostering creativity and innovation. Through strategic linkages between traditional and creative sectors, the project aims to enhance competitiveness and drive job creation. Discover our collaborative efforts and innovative projects shaping the future of textile, footwear, and leather sectors across the region.
CRE@CTIVE's 6 creative labs supporting the Textile, Clothing, Footwear & Leather (TCFL) sectors in the Mediterranean
CRE@CTIVE's six creative labs initiative is a cornerstone of support for businesses and their 16 subgrantees within the Textile, Clothing, Footwear & Leather (TCFL) industries. These labs provide essential resources, collaboration opportunities, and services tailored to the needs of entrepreneurs navigating a dynamic market environment. By fostering entrepreneurship and facilitating access to cutting-edge technologies, these labs drive innovation, sustainability, and competitiveness across the TCFL sectors. Discover the pilot projects underway in each lab and explore the range of services available to industry stakeholders.
Analysis of the Textile, Clothing, Leather & Foootwear (TCFL) sectors in the Mediterranean region
The CRE@CTIVE project presents comprehensive sectorial studies delving into the Textile, Clothing, Leather & Footwear (TCFL) industries across six regions: Egypt, Spain, Italy, Tunisia, Jordan, and Palestine. These studies, available as PDF documents, meticulously analyze the TCFL sectors within each CRE@CTIVE region, offering invaluable insights into their economic landscapes, market dynamics, and growth potentials. Whether you're a stakeholder, policymaker, or industry enthusiast, these documents serve as essential resources for understanding and navigating the intricate fabric of TCFL sectors in the Med region.
Cost & Benefit analysis (A4.3.1)
The incorporation of renewable energy sources (RES) in the building sector has been a growing trend in recent years. This trend is driven by a variety of factors, including rising energy costs, a growing awareness of climate change issues, and the implementation of government policies and incentives. In this way, governments worldwide have implemented various policies and incentives to promote the integration of renewable energy in the building sector. These measures include tax credits, rebates, and financial incentives provided to building owners who choose to install renewable energy systems. Moreover, many countries have established building codes and regulations that mandate specific energy efficiency and renewable energy standards for new constructions.
A Cost-Benefit analysis for various combinations of PV and battery capacity systems is implemented to provide the most profitable system for each examined building and country.
Creating and running the Intelligent Utilization of PV Technology in the MED region (UPVMED) Hub (A4.4.1)
The Intelligent Utilization of Photovoltaic Technology in the Mediterranean (MED) region (IUPVMED) Hub was created under the BERLIN project. The purpose of the Hub is to bring together key stakeholders to exchange knowledge and discuss challenges and opportunities for the wider adoption of cost-effective policies, which are related to the increase of the photovoltaic (PV) energy share, increased local consumption of PV-generated electricity, and the integration of PV, Battery Energy Storage Systems (BESS), and Demand Side Management (DSM), under the concept of a hybrid nanogrid system.
Establishing country-specific procedures/roadmaps (A4.3.3)
This report includes information on the country specific procedures/roadmaps detailing the steps in order to reach higher resilience based on PV+ESS+DSM utilization. These steps include conducting a building energy audit, designing the BESS system, incorporating DSM strategies, integrating the PV+BESS+DSM hybrid system, etc. Each step will be implemented to have the required adaptations of regulations and technical guidelines and proposals to use specific financing instruments (including dynamic tariffs). A cost-benefit analysis was conducted following a hybrid solution in each partner country. This report includes country-specific insights from a cost-benefit analysis of the solution. Finally, recommendations are presented for securing the necessary funding to rehabilitate existing public building stock.
Developing of regional dynamic electricity tariffs (A4.3.2)
Static tariffs do not encourage the widespread of RES without large incentives, which however transfer the RES costs to non-RES owners. One important goal of the BERLIN project is to propose new dynamic tariffs that better reflect the actual dynamic cost of electricity generation in each participating country with a pilot. The current report begins with an overview of the existing tariffs in the four participating countries of the BERLIN project (Cyprus, Greece, Israel, and Italy). Subsequently, information is provided on the proposed dynamic tariffs that can be developed and implemented in each pilot based on electricity market prices.
Joint case study focusing on replication (A4.2.2)
This report presents a joint case study, offering valuable insights into the potential for replication in all regions that fall under the MED area, including non-participating countries. The primary focus of the study is to highlight the regions where the combination of PV, BESS and DSM proves to be a cost- effective and sustainable solution. Additionally, it sheds light on regions where this combination may not be the most viable option and the underlying reasons behind it.
Development of a policy makers’ tool for policy recommendations (A4.1.2)
The policy makers tool provides recommendations for policies and regulations that promote the adoption of the photovoltaics (PV) and energy storage systems (ESS) in public buildings with the potential for demand side management (DSM), referred here as PV+ESS+DSM scheme. Except from recommendations, it offers numerical results about (i) the profitability of PV+ESS+DSM systems in certain building types and (ii) the energy self-sufficiency of the building.
A tool for building integrated energy systems design (A4.1.1)
This online tool aims to promote self-sufficiency in buildings with flexible loads, by properly sizing the photovoltaic and battery storage systems to be installed in a building, and providing an efficient schedule for the flexible loads. The tool has been developed in the framework of “Cost-effective rehabilitation of public buildings into smart and resilient nano-grids using storage - BERLIN” project.
Testing effective DSM solutions (A3.2.4)
This report presents the development of practical, yet effective, Demand - Side Management (DSM) scenarios that can be applied to the different pilots of the BERLIN project. The application of such effective DSM scenarios through the 'virtual' testing of new Time-of-Use (ToU) tariffs (already developed for each country in deliverable A4.3.2) could have a positive impact on the consumption behaviour of the users. In this study, the scenarios are based on load shifting, which is applied through combined peak shaving and valley filling.