Laserfiche WebLink
71 <br />Mr. Frank DeMaris <br />October 18, 2010 <br />Page 5 of 7 <br />for the Geer Road Landfill (Stanislaus County) required an air assist fan and 0.1 lb/MMBtu for <br />' PM -10. There are also approximately nine BACT determinations in the CARB database for flares. <br />This includes, but is not limited to, a flare installed in the SDCAPCD jurisdiction in 2002 and two <br />installed in the SCA MD jurisdiction in 2001. There were three PM/PM-10 determinations <br />ranging from 0.008 lbb/MMBtu (based on natural gas AP -42, which has two times the BTU content <br />h of LFG) to 0.1 lb/MMBtu. The EPA database established BACT limits ranging from 0,022 <br />lb/MMBtu to 0.10 lb/MMBtu for PM -10. <br />In order to avoid emission offsets for VOCs, Ameresco requests to cap the emissions of VOCs to 9.99 <br />tpy. As noted in the Response to Notice of Incomplete Application dated October 2010, the total VOC <br />emissions for the engines and flare are 21,293 lb/yr or 10.65 tpy. This is 1,293.71 lb/yr or 0.65 tpy <br />(6.5%) over the offset threshold of 20,000 lb/yr or 10 tpy. The LFGTE facility could operate in any <br />configuration as long as the emissions remained at 19,999 lb/yr or 9.99 tpy or less. Note that these <br />emission estimates are based on 100% uptime and 100% load for both the engines and the flare. <br />During the course of a year, both the engines and flare will be down for maintenance. In addition, the <br />flare is not expected to operate 24 hours per day, 365 days per year because it operates in a cyclical, <br />batch -type operation or 24 hours in every 48-hour period. Finally, LFG engines usually have on-line <br />times of approximately 95%. Therefore, Ameresco believes the total VOC emissions will remain <br />under the cap. Compliance would be determined with throughput and source test data and calculated <br />on a 12 -month rolling average basis. <br />In order to avoid emission offsets for CO or modeling to demonstrate compliance with ambient <br />standards (to avoid modeling), Ameresco requests to cap the emissions of CO to 99.99 tpy. The total <br />CO emissions for the engines and flare are 219,300 lb/yr or 109.65 tpy. This is 19,300 lb/yr or 9.65 <br />tpy (9.65%) over the offset threshold of 200,000 lb/yr or 100 tpy. The LFGTE facility could operate in <br />r <br />ADDITIONAL REVISIONSIINFORMATION REQUESTED <br />SJVAPCD noted during our recent meeting that individual emission limits for SOx must be included <br />t <br />for individual combustion devices, in this case the engines and flare. Ameresco requests the flare and <br />engines emissions limit for SOx to be 74.46 lbs/day and 3.10 lb/hr, each. This is based on the worst- <br />, <br />..,�p <br />case scenario of the total possible combined emissions of the flare and the engines being emitted from <br />g g <br />one device. Ameresco recommends using a worst-case scenario as a result of our siloxane <br />pretreatment system's reaction to hydrogen sulfide in the raw LFG. The siloxane pretreatment <br />system's media bed has an affinity with hydrogen sulfide, which will cause hydrogen sulfide to collect <br />on the media bed. However, its affinity toward hydrogen sulfide is less than its affinity to siloxane <br />compounds and other VOCs. As a result, as the media bed operationally approaches its regeneration <br />kcycle <br />and its media bed becomes saturated, hydrogen sulfide may be released from the media bed. We <br />ry <br />also request a site -wide emissions limit of 17.0 tpy for the flare and engines to remain below the <br />emission offset limit of 17.4 tpy (34,750 lb/yr). Please note that the maximum SOx emissions from the <br />j <br />equipment on a facility -wide basis at 150 ppmv sulfur (assuming the maximum flow of LFG to the <br />engines and flare) are 13.59 tpy. This is well below the proposed facility -wide cap. Ameresco would <br />I <br />like to work with the SJVAPCD to develop a reasonable testing program for SOx emissions for the <br />waste gas flare. This would likely include annual stack testing of the flare for SOx as well as periodic <br />sulfur content testing of the raw gas to the plant as a whole. <br />In order to avoid emission offsets for VOCs, Ameresco requests to cap the emissions of VOCs to 9.99 <br />tpy. As noted in the Response to Notice of Incomplete Application dated October 2010, the total VOC <br />emissions for the engines and flare are 21,293 lb/yr or 10.65 tpy. This is 1,293.71 lb/yr or 0.65 tpy <br />(6.5%) over the offset threshold of 20,000 lb/yr or 10 tpy. The LFGTE facility could operate in any <br />configuration as long as the emissions remained at 19,999 lb/yr or 9.99 tpy or less. Note that these <br />emission estimates are based on 100% uptime and 100% load for both the engines and the flare. <br />During the course of a year, both the engines and flare will be down for maintenance. In addition, the <br />flare is not expected to operate 24 hours per day, 365 days per year because it operates in a cyclical, <br />batch -type operation or 24 hours in every 48-hour period. Finally, LFG engines usually have on-line <br />times of approximately 95%. Therefore, Ameresco believes the total VOC emissions will remain <br />under the cap. Compliance would be determined with throughput and source test data and calculated <br />on a 12 -month rolling average basis. <br />In order to avoid emission offsets for CO or modeling to demonstrate compliance with ambient <br />standards (to avoid modeling), Ameresco requests to cap the emissions of CO to 99.99 tpy. The total <br />CO emissions for the engines and flare are 219,300 lb/yr or 109.65 tpy. This is 19,300 lb/yr or 9.65 <br />tpy (9.65%) over the offset threshold of 200,000 lb/yr or 100 tpy. The LFGTE facility could operate in <br />r <br />