Clinton Climate Initiative

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Bertha Byrd
5 years ago
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Clinton Climate Initiative Gehad El-Haddad City Director for Cairo gelhaddad@clintonfoundation.

1 Clinton Climate Initiative Gehad El-Haddad City Director for Cairo Program Areas FOCUS AREAS Building Retrofits Ports Lighting Water & Wastewater Waste Management Clean Power Airports Transportation SUPPORTING INFRASTRUCTURE Implementation Partnerships Purchasing Alliance Financing Measurement Tools Technology

2 How can CCI helps? Project Design & Development Network of international expert and Best Practices Partner Engagement & Buy In Facilitating access to different funds BUILDING RETROFIT PROGRAM

Building Retrofit Program Buildings contribute 50 70% of GHGe in urban areas Existing buildings use an average of 25%

Reduce operating expenses through lower energy costs Upgrade/renew aging infrastructure Improve comfort and facility

responsibility, & harvest positive public relations Environmentally sound stewardship conserving resources for the future

building(s), investment, and other criteria ESCO assesses project opportunity, performs an energy audit to identify

3 Building Retrofit Program Buildings contribute 50 70% of GHGe in urban areas Existing buildings use an average of 25% more energy than new buildings Why Retrofit? Reduce operating expenses through lower energy costs Upgrade/renew aging infrastructure Improve comfort and facility Performance Make improvements without capital budget outlay Typical Building Lifecycle Costs Demonstrate social responsibility, & harvest positive public relations Environmentally sound stewardship conserving resources for the future Energy Service Performance Contracts Building owners control the process Owners specify project specifications: building(s), investment, and other criteria ESCO assesses project opportunity, performs an energy audit to identify opportunities that deliver the savings Owner and ESCO sign EPC which defines terms of partnership ESCO implements upgrades and provides ongoing measurement and verification to establish ongoing savings in energy use and GHG emissions

4 Energy Service Performance Contracts Lower energy use and building energy costs Transparent, guaranteed, fixed price, Open book Guaranteed results ESCO performance guarantees have a %99+ success rate One partner (ESCO) is responsible for design and implementation of project and ensuring ongoing results Can be 100% self funded and not subsidized Success is measured by savings results rather than lowest cost Financing Model Funding Potential NPV to get Available Financing Utility Budget Use net present value of future savings to determine cash-neutral maximum project budget size Today YR 5 YR 10 YR 15 YR 20

5 Financing Model Funding Potential Utility Budget Investment Capital NPV to get Available Financing Today YR 5 YR 10 YR 15 YR 20 Purchasing Alliance Negotiated price ceilings Discounts off prevailing prices typically 5%-40% Price ceilings based on growing and predictable sales volumes Final price negotiated by supplier and buyer at/under ceiling price based on order size, local market conditions, and buyer specifications Product Selection Criteria Impact on emissions, Quality and innovation, Price discount

6 EEBRP Partnership Model ESCO Partners Energy savings guarantee Payment for retrofit Discounted products BUILDING OWNERS Discounted products Incentives to do retrofit Purchasing Alliance Discounted products Financial Institutions Cities Sources of Energy Savings High efficiency HVAC systems Energy consumption regulators High efficiency windows and lighting products Other durable and sustainable building technologies Roles & Responsibilities Connect building owners with ESCO and financial partners Monitor and assist with project implementation Energy Performance Contract process Sample EPC tendering and contract documents Provide access to discounted energy-efficient products Facilitate best practice sharing Highlight leading success in reducing carbon footprint Work with CCI on mutual goals and timeline Establish cross-functional team &leader to manage project Select buildings for program participation Qualify ESCO and financial partners for services Work with CCI on determining best process to bring financially positive, measurable projects to fruition

Airport Building Retrofit Elements of an Airport building that can benefit from a retrofit: Indoor & Outdoor lighting. Indoor & Outdoor Signage. HVAC equipment.

7 Airport Building Retrofit Elements of an Airport building that can benefit from a retrofit: Indoor & Outdoor lighting. Indoor & Outdoor Signage. HVAC equipment. Mobility Equipment (Lifts, Escalators). Glazing, Curtain Walls, Roof Insulations. Engines & power Generators. Water Pumps and leakage management. STREET & TRAFFIC LIGHTING RETROFIT

8 Street Lights Technology Technology Relative Age Description Mercury Vapor oldest Older, very common Bluish white light High Pressure Sodium Vapor Orange hued HID light source commonly used to displace less efficient mercury vapor street lights. Induction White light electrodeless light source with long operating life New Ceramic Metal Halide White light HID technology; new CMH fixtures with electronic ballasts are >35% more efficient than previous CMH systems LED newest New, white light technology that uses arrays of LEDs small, directional light sources to illuminate areas. Pros Low initial cost Longer lamp life (~24K hrs) White light Sudden failures are uncommon Low initial cost Longer lamp life (~24K hrs) High lamp efficacy (~115 lumens/watt) Long life (100K hrs) White light Low maintenance cost High fixture efficiency due to electronics White light High lamp efficacy (~115 lumens/watt) High fixture efficiency due to electronics and tighter optics around smaller lamps Long life (>50K hrs) White light High uniformity High fixture efficiency due to electronics and directional LEDs Cons Poor lamp efficacy (~40 lumens/watt) Lower fixture efficiency Lower fixture efficiency Orange light High initial cost Lower lamp efficacy (~75 lumens/watt) High initial cost Shorter lamp life (~20K hrs) High initial cost Lower LED efficacy (~75 lumens/watt) Other technologies not profiled include linear fluorescent, compact fluorescent and incandescent street lights 15 Traffic Lighting Technology Current Technology Latest Technology Next Technology Technology Incandescent HB LED (High Brightness, 100 mcd 10cd) UHB LED (Ultra high Brightness, > 10 cd) Purchasing Drivers W per ball, turn, or pedestrian signal 6 25W per ball, turn, and pedestrian signal 6 25W per ball, turn, and pedestrian signal Life Span Typical life 1 year, high maintenance Typical life 5 years, low maintenance Typical life 5 years, low maintenance Issues Lowest first cost Considered safe choice by traffic engineers Market adoption may be slower due to lower efficiency related to transformer losses Potentially lower manufacturing costs, which means better bulk pricing. 16

9 LED Lighting Power Comparison Monthly Case Study Monthly Power Consumption

10 CCI in African Cities CCI work in Lagos City Director: Owens Wiwa Adamawa Plaza, 3 rd Floor, Plot 1099, 1 st Avenue, Central Business District, Abuja, Nigeria owiwa@clintonfoundation.org

11 CCI work in Addis City Director: Zachary Tofias Edna Mall, Bole Medhanalem Road, 6th Floor, P.O Box 3297, Code 1250 Addis Ababa, Ethiopia mobile: office: CCI work in Johannesburg

12 CCI work in Johannesburg 2 City Director: John L. Less jless@clintonfoundation.org Mobile: Office: Fax: THANK YOU, ANY QUESTIONS?